الملخص
SUMMARY: Cadmium (Cd) is a toxic element that accumulates in kidney and liver. L-carnitine(LC) is a natural compound that has been shown to exhibit antioxidant activity. Aim of this study was to investigate the effect of L-carnitine against cadmium-induced changes in liver and kidney tissues in prepubertal female rats. In this study 21-day-old female Wistar Albino rats were used. Control, cadmium (2 mg/kg cadmium intraperitoneally), L-carnitine (300 mg/kg orally) and cadmium+L-carnitine groups were formed. Liver and kidney tissue sections were stained with Hematoxylin-Eosin and Masson Trichrome. Histological scoring was performed in liver and kidney. In the liver tissue given Cd, bile duct proliferation, inflammation cells and connective tissue in the portal area were decreased in treatment group. In kidneys, cadmium group treated with L-carnitine, it was observed that the capillary congestion in the kidneys decreased, but tubular dilatation continued in some places. In fibrosis scoring of the liver groups,statistically significant decrease was observed in the Cd+LC group compared to group of cadmium. In the histological scoring results of the kidney groups, statistically significant decrease in congestion and tubular epithelial degeneration was observed in the group treated with L-carnitine compared to group with cadmium. In conclusion medium-dose cadmium has toxic effects in liver and kidney of prepubertal female rats in subacute period,these effects are alleviated with L-carnitine.
El cadmio (Cd) es un elemento tóxico que se acumula en los riñones y el hígado. La L-carnitina (LC) es un compuesto natural que ha demostrado tener actividad antioxidante. El objetivo de este estudio fue investigar el efecto de la L-carnitina contra los cambios inducidos por el cadmio en los tejidos del hígado y el riñón en ratas hembra prepúberes. En este estudio se utilizaron ratas Wistar Albinas hembra de 21 días de edad. Se formaron grupos control, cadmio (2 mg/kg de cadmio por vía intraperitoneal), L- carnitina (300 mg/kg por vía oral) y cadmio + L-carnitina. Se tiñeron secciones de tejido de hígado y riñón con Hematoxilina-Eosina y tricrómico de Masson. La puntuación histológica se realizó en hígado y riñón. En el tejido hepático que recibió Cd, la proliferación de los conductos biliares, las células inflamatorias y el tejido conectivo en el área portal disminuyeron en el grupo con tratamiento. En los riñones, en el grupo de cadmio tratado con L- carnitina, se observó que la congestión capilar disminuyó, pero la dilatación tubular continuó en algunos sitios. En la puntuación de fibrosis de los grupos de hígado, se observó una disminución estadísticamente significativa en el grupo de Cd+LC en comparación con el grupo de cadmio. Los resultados de puntuación histológica de los grupos de riñón, arrojó una disminución estadísticamente significativa en la congestión y el epitelio tubular Se observó degeneración en el grupo tratado con L-carnitina en comparación con el grupo con cadmio. En conclusión, las dosis medias de cadmio tienen efectos tóxicos en el hígado y los riñones de ratas hembras prepúberes en el período subagudo; estos efectos se alivian con L-carnitina.
الموضوعات
Animals , Female , Rats , Cadmium/toxicity , Carnitine/pharmacology , Kidney/drug effects , Liver/drug effects , Rats, Wistarالملخص
Objective To explore the effects of L-carnitine combined with citicoline on the therapeutic effect of neonatal hypoxic-ischemic encephalopathy(NHIE)and serum nitric oxide(NO)and endothelin-1(ET-1).Methods A total of 95 children with HIE admitted to the hospital from April 2020 to January 2023 were selected and were divided into observation group(47 cases)and control group(48 cases)by random number table method.The control group was given citicoline,and the observation group was given citicoline combined with L-carnitine.The therapeutic effect was evaluated on 14 days after treatment,and the recovery time of original reflex,muscle tone and consciousness was calculated.The levels of oxidative stress indexes[malondialdehyde(MDA),superoxide dismutase(SOD)]and vascular endothelial function indexes(NO,ET-1)were detected before treatment and 14 days after treatment.Neonatal neurobehavioral score(NBNA)was used to evaluate the neurological function of the children,and the safety of the treatment regimen was ob-served.Pearson correlation analysis was used to analyze the correlation between NBNA and vascular endothe-lial function indexes.Results The total effective rate in the observation group was 91.49%,which was higher than 72.92%in the control group(P<0.05).The original reflex recovery time,muscle tone recovery time and consciousness recovery time of NHIE children in the observation group were shorter than those in the control group(P<0.05).There was no significant difference in NBNA scores between the two groups before treatment(t=1.225,P=0.224).After treatment,the NBNA score in the observation group was higher than that in the control group(t=6.223,P<0.001).After treatment,MDA level decreased and SOD level in-creased in two groups(P<0.05).After treatment,the level of MDA in the observation group was lower than that in the control group,while the level of SOD was higher than that in the control group(P<0.05).After treatment,the levels of NO and ET-1 were decreased in both groups(P<0.05).The levels of NO and ET-1 in the observation group were lower than those in the control group after treatment(P<0.05).The adverse drug reaction rates in observation group and control group were 17.02%and 8.33%,respectively,and there was no significant difference between two groups(P>0.05).Pearson correlation analysis showed that serum NO,ET-1 and NBNA score in NHIE children were negatively correlated(r=-0.546,-0.608,P<0.05).Conclusion L-carnitine combined with citicoline could improve the therapeutic effect of NHIE,shorten the re-covery time of clinical manifestations,and improve nerve function,oxidative stress and vascular endothelial function without increasing drugs and adverse reactions.In addition,vascular endothelial function indexes are negatively correlated with NBNA score,which could be used as auxiliary reference indexes for judging NHIE.
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Objective To compare seminal carnitine levels between normal males and asthenozoospermic patients,evaluate its correla-tion with progressive motility(PR)of sperm,and observe the effects of exogenous carnitine supplementation on asthenozoospermic pa-tients.Methods Semen samples were collected from 511 normal fertile males and asthenozoospermic patients.Seminal was measured using a fixed-time assay kit and the levels of carnitine were compared between the two groups.The consistency between seminal carni-tine and PR was assessed.Additionally,77 asthenozoospermic patients received L-carnitine(1 g/time,3 times/day,30 days/course).The levels of seminal carnitine and PR alteration pre-and post-treatment were monitored.Results The seminal L-carnitine level in the patients with asthenospermia([194.34±65.41]μmol/L)was significantly lower than that in normal fertile males([405.43±72.12]μmol/L)(P<0.01).When the seminal L-carnitine level ≥325 μmol/L was set as the threshold,the statistical results showed that Kappa value was 0.81,with a diagnostic coincidence rate of 93.74%.After one course of administration of L-carnitine,the concentra-tion of seminal L-carnitine([356.03±84.87]μmol/L)and PR([32.69±8.35]%)were significantly higher those that before treat-ment([183.61±79.54]μmol/L and[16.56±7.74]%,P<0.01).Conclusion The seminal carnitine assay kit could be used for ac-curate and high-throughput quantification of clinical samples,facilitating asthenozoospermia diagnosis and therapeutic efficacy evalua-tion.Exogenous carnitine supplementation may elevate seminal carnitine levels and sperm motility in asthenozoospermic patients and po-tentially improve their fertility.
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Objective:To detect the level of the circulating cell-free mitochondrial DNA (ccf-mtDNA) in plasma of children with primary carnitine deficiency (PCD)-associated cardiomyopathy and evaluate its clinical significance.Methods:In this prospective case-control study, peripheral blood samples were collected from 7 PCD patients with cardiomyopathy (PCD group), 16 dilated cardiomyopathy (DCM) patients (DCM group), and 50 healthy children (healthy control group) in the Pediatric Cardiovascular Department Ward of First Hospital of Jilin University from July 2017 to June 2022.The ccf-mtDNA levels were measured and compared between groups by the real-time fluorescence quantitative polymerase chain reaction.The correlations between plasma ccf-mtDNA level and blood free carnitine level and cardiac function in the PCD group were analyzed.The changes in the ccf-mtDNA level were monitored after L-carnitine treatment in the PCD group.The Kruskal-Wallis test was used for comparison among the three groups.The Mann-Whitney test was used for comparison between the PCD group and the control group.Changes before and after treatment in the PCD group were analyzed using the paired Wilcoxon rank sum test.The correlation between variables was evaluated by Logistic regression.Results:The plasma ccf-mtDNA levels in the PCD and DCM groups were 3.69×10 6 (1.09×10 6-7.26×10 6) copies/L and 0.99×10 6 (0.25×10 6-4.10×10 6) copies/L, respectively, which were significantly higher than that in the healthy control group[0.09×10 6 (0.01×10 6-0.35×10 6) copies/L]( H=33.34, 24.69; all P<0.01). Besides, the plasma ccf-mtDNA level in the PCD group was higher than that in the DCM group ( H=6.31, P<0.05). In the PCD group, the plasma ccf-mtDNA level was negatively correlated with the blood free carnitine level and left ventricular ejection fraction ( r=-0.85, -0.82, all P<0.05) and positively correlated with the modified Ross score and the N-terminal pro B type natriuretic peptide level ( r=0.81, 0.83, all P<0.05) before L-carnitine treatment.After treatment, the plasma ccf-mtDNA level decreased, and the blood free carnitine level and cardiac function recovered in the PCD group.The plasma ccf-mtDNA level declined sharply from the 3 rd month[0.96×10 6(0.50×10 6-2.27×10 6) copies/L] after treatment ( Z=2.24, P<0.05) and got to 0.27×10 6 (0.18×10 6-0.76×10 6) copies/L, 0.29×10 6(0.19×10 6-0.78×10 6) copies/L, and 0.16×10 6(0.10×10 6-1.06×10 6) copies/L at the 6 th, 9 th, and 12 th months after treatment, respectively, with no statistically significant difference compared to the healthy control group[0.09×10 6(0.01×10 6-0.35×10 6) copies/L] ( Z=1.23, 1.09, 2.12; all P>0.05). Conclusions:Plasma ccf-mtDNA may act as one pathogenic factor of cardiomyopathy in PCD, and monitoring its level is clinically important for heart condition assessment in PCD.
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Objective To investigate the expression of circular ribonucleic acid carnitine palmitoyltrans-ferase 1A(circRNA CPT1A)in patients with diabetic retinopathy(DR)and its mechanism of action on neuropathy.Methods To-tally 80 patients(102 eyes)with type 2 diabetes admitted to our hospital from January 2019 to January 2022 were selected,including 22 patients(28 eyes)with no DR(NDR group),38 patients(48 eyes)with non-proliferative DR(NPDR group),and 20 patients(26 eyes)with proliferative DR(PDR group).Optical coherence tomography angiography was used to measure the thickness of the peripapillary retinal nerve fiber layer(pRNFL)and macular ganglion cell complex(GCC),the level of phosphatase and tensin homolog(PTEN)in peripheral blood was detected by Western blot,and the circRNA CPT1A level in peripheral blood was detected by fluorescence quantitative polymerase chain reaction.The levels of circRNA CPT1A and PTEN in peripheral blood,as well as the thickness of pRNFL and GCC,were compared among three groups,and Pearson correlation analysis was used to investigate the correlation between circRNA CPT1A and PTEN,pRNFL and GCC thickness.Results The circRNA CPT1A in the peripheral blood of the PDR group was higher than that in the NDR group and NPDR group;the PTEN in the peripheral blood of the PDR group was lower than that in the NDR group and NP-DR group(all P<0.05).There was no statistically significant difference in the expression of circRNA CPT1A and PTEN be-tween NDPR group and NDR group(all P>0.05).The Pearson correlation analysis showed that the expression level of cir-cRNA CPT1A in peripheral blood was negatively correlated with PTEN(P<0.05).With the increase in disease severity,the thickness of pRNFL and GCC showed a decreasing trend;the thickness of pRNFL and GCC in the whole,upper and lower parts of eyes in the NDR group were higher than those in the NPDR group(all P<0.05),while those in the NPDR group were higher than the PDR group(all P<0.05).Pearson correlation analysis showed that the expression level of cir-cRNA CPT1A in peripheral blood was negatively correlated with the thickness of pRNFL and GCC in the whole,upper and lower parts of the observed eyes(all P<0.05).Conclusion With the increase in the severity of DR,circRNA CPT1A in the peripheral blood of DR patients shows an increasing trend and is negatively correlated with peripheral blood PTEN lev-el,as well as macular pRNFL and GCC thickness.The mechanism of action may be that circRNA CPT1A negatively regu-lates the expression of PTEN and thus participates in the occurrence and development of DR.
الملخص
L-carnitine is a carrier that assist in transport of long-chain fatty acids into mitochondria and an effective drug for treating primary carnitine deficiency(PCD).Starting supplementation as early as possible before irreversible organ damage oc-cured can alleviate organ damage,reduce the risk of sudden death,and improve the quality of life.However,in recent years,some studies have suggested that long-term oral L-carnitine has potential risks,the metabolism of L-carnitine through intestinal flora re-sults in the production of trimethylamine oxide(TMAO),which can increase the risk of cardiovascular disease(CVD).There-fore,this paper summarizes the clinical research progress of L-carnitine in treating PCD to provide a theoretical basis for the clini-cal application of L-carnitine in PCD.
الملخص
Abstract Carnitine palmitoyltransferase II (CPT II) deficiency is an autosomal recessive inherited disorder related to lipid metabolism affecting skeletal muscle. The first cases of CPT II deficiency causing myopathy were reported in 1973. In 1983, Werneck et al published the first two Brazilian patients with myopathy due to CPT II deficiency, where the biochemical analysis confirmed deficient CPT activity in the muscle of both cases. Over the past 40 years since the pioneering publication, clinical phenotypes and genetic loci in the CPT2 gene have been described, and pathogenic mechanisms have been better elucidated. Genetic analysis of one of the original cases disclosed compound heterozygous pathogenic variants (p.Ser113Leu/p.Pro50His) in the CPT2 gene. Our report highlights the historical aspects of the first Brazilian publication of the myopathic form of CPT II deficiency and updates the genetic background of this pioneering publication.
Resumo Deficiência de carnitina palmitoiltransferase II (CPT II) é uma desordem de herança autossômica recessiva relacionada com o metabolismo do lipídio afetando músculo esquelético. Os primeiros dois casos de deficiência de CPT II causando miopatia foram relatados em 1973. Em 1983, Werneck et al. publicaram os primeiros pacientes brasileiros com miopatia por deficiência de CPT II, nos quais a análise bioquímica confirmou a atividade deficiente da CPT nos músculos em ambos os casos. Após 40 anos desde a publicação pioneira, fenótipos clínicos e loci genético no gene CPT2 foram descritos, bem com os mecanismos patológicos foram melhor elucidados. A análise genética de um dos casos da publicação original apresentou variantes patogênicas em heterozigose composta (p.Ser113Leu/p.Pro50His) no gene CPT2. O nosso relato destaca os aspectos históricos da primeira publicação brasileira da forma miopática da deficiência de CPT II e atualiza as bases genéticas dessa publicação pioneira.
الملخص
Durante el ayuno, la oxidación de ácidos grasos y la formación de cuerpos cetónicos son necesarios para la producción de energía. La carnitina es esencial para que los ácidos grasos de cadena larga se transfieran a la mitocondria para la oxidación de ácidos grasos. La deficiencia primaria de carnitina es un defecto recesivo que se expresa con un espectro clínico amplio que incluye descompensación metabólica, hipoglicemia hipocetósica o cardiomiopatía en la niñez, fatigabilidad en la adultez o ausencia de síntomas. En nuestro país no hay publicaciones sobre el tema, por lo que en el presente artículo se reporta el caso de un niño que presentó una deficiencia de carnitina expresada como hipoglicemia hipocetósica y se analiza sus hallazgos clínicos, bioquímicos e histopatológicos.
During fasting, the oxidation of fatty acids and the formation of ketone bodies are necessary for energy production. Carnitine is essential for long-chain fatty acids to be transferred to the mitochondria for fatty acid oxidation. Primary carnitine deficiency is a recessive defect that is expressed with a broad clinical spectrum that includes metabolic decompensation, hypoketotic hypoglycemia or cardiomyopathy in childhood, fatiguability in adulthood or absence of symptoms. In our country there are no publications on the subject, so this article reports the case of a child who had carnitine deficiency expressed as hypoketotic hypoglycemia and its clinical, biochemical and histopathological findings are analyzed.
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SUMMARY: Cadmium (Cd) is the industrial and environmental toxic heavy metal which is found in air, water and soil. Cd, adversely affects many organs in humans such as kidney, intestine, liver, testis and lungs. L-carnitine (LC) is an important agent that plays essential role in energy metabolism. In our study, we aimed to work out whether LC application has any protective effect on intestinal contractility and morphologic damage of prepubertal rat duodenum on Cd-induced toxicity. Twenty eight prepubertal female Wistar rats were divided into four groups. The first group is control (C), second group; Cd group; Cadmium chloride was given 2 mg/kg 28 days with a one-day break by i.p. The third group; Cd+LC, which cadmium chloride was given 2 mg/kg i.p. and LC was given orally by gastric lavage. The LC dose was given as 75 mg/kg. The fourth group; LC, which only LC was given orally. The intestinal segments were isolated and suspended in tissue bath. Contractile responses were induced by acetylcholine (ACh) and relaxation was achieved with phenylephrine. Also the segments were examined for histological changes by light microscopy. Ach-induced contractions were higher in Cd+LC, LC, and control group compared to the Cd group in duodenal segments. The phenylephrine-induced relaxations were lower in Cd groups as compared with Control, Cd+LC and LC group in duodenal segments. In Cd group intestinal morphology was observed to be severely damaged whereas in Cd+LC group the damage was noticeably lower. Cd administration caused severe cellular damage and decreased gastrointestinal motility. Treatment with the LC has affected the gastrointestinal contractility and reduced the damage in intestinal morphology, which occured after Cd application.
El cadmio (Cd) es el metal pesado tóxico industrial y ambiental que se encuentra en el aire, el agua y el suelo. El Cd afecta negativamente a muchos órganos humanos, como los riñones, los intestinos, el hígado, los testículos y los pulmones. La L-carnitina (LC) es un agente importante que juega un rol esencial en el metabolismo energético. El objetivo de este estudio fue determinar si la aplicación de LC tiene algún efecto protector sobre la contractilidad intestinal y el daño morfológico del duodeno de rata prepuberal sobre la toxicidad inducida por Cd. Veintiocho ratas Wistar hembras prepúberes se dividieron en cuatro grupos. El primer grupo control (C), segundo grupo; grupo cd; Se administró cloruro de cadmio 2 mg/kg durante 28 días con un descanso de un día por vía i.p. El tercer grupo; Cd+LC, al que se administró cloruro de cadmio 2 mg/kg i.p. y LC se administró por vía oral mediante lavado gástrico. La dosis de LC se administró como 75 mg/kg. El cuarto grupo; LC, al cual solo LC se administraba por vía oral. Los segmentos intestinales fueron aislados y suspendieron en baño de tejido. Las respuestas contráctiles fueron inducidas por acetilcolina (ACh) y la relajación se logró con fenilefrina. También se examinaron los segmentos en busca de cambios histológicos mediante microscopía óptica. Las contracciones inducidas por Ach fueron mayores en Cd+LC, LC y el grupo control en comparación con el grupo Cd en los segmentos duodenales. Las relajaciones inducidas por fenilefrina fueron menores en los grupos Cd en comparación con el grupo Control, Cd+LC y LC en los segmentos duodenales. En el grupo Cd se observó que la morfología intestinal estaba severamente dañada mientras que en el grupo Cd+LC el daño fue notablemente menor. La administración de Cd causó daño celular severo y disminución de la motilidad gastrointestinal. El tratamiento con LC afectó la contractilidad gastrointestinal y redujo el daño en la morfología intestinal, que ocurría después de la aplicación de Cd.
الموضوعات
Animals , Female , Rats , Cadmium/toxicity , Carnitine/administration & dosage , Gastrointestinal Diseases/chemically induced , Gastrointestinal Diseases/prevention & control , Gastrointestinal Motility/drug effects , Rats, Wistar , Gastrointestinal Tract/drug effects , Gastrointestinal Tract/pathology , Muscle Contraction/drug effectsالملخص
MEK is a canonical effector of mutant KRAS; however, MEK inhibitors fail to yield satisfactory clinical outcomes in KRAS-mutant cancers. Here, we identified mitochondrial oxidative phosphorylation (OXPHOS) induction as a profound metabolic alteration to confer KRAS-mutant non-small cell lung cancer (NSCLC) resistance to the clinical MEK inhibitor trametinib. Metabolic flux analysis demonstrated that pyruvate metabolism and fatty acid oxidation were markedly enhanced and coordinately powered the OXPHOS system in resistant cells after trametinib treatment, satisfying their energy demand and protecting them from apoptosis. As molecular events in this process, the pyruvate dehydrogenase complex (PDHc) and carnitine palmitoyl transferase IA (CPTIA), two rate-limiting enzymes that control the metabolic flux of pyruvate and palmitic acid to mitochondrial respiration were activated through phosphorylation and transcriptional regulation. Importantly, the co-administration of trametinib and IACS-010759, a clinical mitochondrial complex I inhibitor that blocks OXPHOS, significantly impeded tumor growth and prolonged mouse survival. Overall, our findings reveal that MEK inhibitor therapy creates a metabolic vulnerability in the mitochondria and further develop an effective combinatorial strategy to circumvent MEK inhibitors resistance in KRAS-driven NSCLC.
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Objective:To explore the genetic causes of abnormal isovaleryl carnitine (C5) metabolism in newborns.Methods:Retrospective study.The screening and clinical follow-up data of 34 neonates with elevated C5 levels shown by the tandem mass spectrometry test in Children′s Hospital, Zhejiang University School of Medicine from January 2018 to December 2021 were collected.Afterwards, their ethylenediaminetetraacetic acid (EDTA) anticoagulant venous blood was collected to extract genomic DNA.A total of 79 genes related to genetic metabolic diseases, such as ACADSB, IVD and ACADM, were captured by liquid-phase capture technology.High-throughput sequencing and bioinformatics analysis were used to acquire gene variation information and the genes were categorized by American College of Medical Genetics and Genomics classification standard.According to the results of genetic analysis, the newborns with C5 elevation were divided into 3 groups: non-mutation group(11 cases), ACADSB mutation group(16 cases) and IVD mutation group(7 cases). Wilcoxon rank sum test was performed to analyze the difference between these groups. Results:Among 34 neonates, 6 ACADSB variants were detected in 16 cases, and 2 of them [c.461G>A (p.G154E), c.746delC(p.P249Lfs*15)] were novel variants.Eleven IVD variants were detected in 7 cases, and 7 of them [c.118A>G(p.N40D), c.296-10C>G, c.302A>G(p.Y101C), c.537G>A(p.M179I), c.667C>T(p.R223W), c.983A>G(p.K328R), c.1147+ 5G>A] were never reported before.There was no significant difference in the C5 concentration in initial screening among the three groups ( P>0.05). Conclusions:Mutations in ACADSB and IVD genes are the main causes of augmented C5 levels in neonatal screening.For newly discovered genetic variants, functional prediction by multiple bioinformatics analysis software is recommended.And it is also important to carry out clinical follow-up and evaluation.
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Objective:To explore the protective effects and mechanisms of L-carnitine (LCAR) on cognitive dysfunction in chronic cerebral hypoperfusion rats.Methods:Totally 90 SD male rats (SPF class) aged 3-4 months were divided into four groups according to random number talbe: sham operated control group (SHAM group, n=15), sham operated with L-carnitine treatment group (LCAR group, n=25), 2-vessel occlusion group (2VO group, n=25), and 2-vessel occlusion with L-carnitine treatment group (2VO+ LCAR group, n=25). The chronic cerebral hypoperfusion model was established by bilateral common carotid artery ligation, and the carotid arteries from SHAM group and LCAR group were only separated without ligation.L-carnitine was administered intraperitoneally (300 mg·kg -1·d -1) for 30 days after surgery in the LCAR and 2VO+ LCAR groups.After 30 days of L-carnitine intervention, Morris water maze was performed to test the spatial cognitive function of the rats, the ATP level of hippocampal tissue was detected by chemiluminescence, the mitochondrial structure and synaptic structure of hippocampal neurons were observed by transmission electron microscopy, the degree of mitochondrial damage was scored, the vesicle density was counted and measured, the level of N-methyl-D-aspartate receptor subunit 2A or 2B(NR2A/B) and postsynaptic density 95(PSD95) in hippocampal tissue were detected by Western blot.The expression and distribution levels of transcription factor cAMP response element-binding protein(CREB) in brain tissues were observed by immunofluorescence.SPSS 16.0 software was used for statistical analysis.The escape latency data of repeated learning training in Morris water maze was conducted by repetitive measurement ANOVA, while other data were adopted by one-way ANOVA, and Dunnett's t test was used for further pairwise comparison. Results:(1)Morris water maze results showed that the time and group interaction of escape latency was not significant among the 4 groups of rats ( F=1.4, P>0.05), but the time main effect and group main effect were significant( F=21.6, 15.2, both P<0.05). Morris water maze results showed that platform position learning from 3rd to 7th day, the escape latencies in 2VO group were longer than those in SHAM group and 2VO+ LCAR group (all P<0.05). The results of short-term memory showed that the escape latency in 2VO group was longer than those in SHAM group and 2VO+ LCAR group (all P<0.05). Meanwhile, the retention time and crossing times in the platform area of 2VO group were less than those in SHAM group and 2VO+ LCAR group (all P<0.05). (2) The absolute and relative levels of ATP in hippocampus showed that the difference among the 4 groups were statistically significant ( F=14.6, 13.2, both P<0.05). ATP level of hippocampus in 2VO group was lower than those in SHAM group and 2VO+ LCAR group (both P<0.05). Electron microscopic observation of mitochondrial morphology showed that the Flameng score of mitochondrial damage in the hippocampus of rats in 2VO group (2.82±0.17) was higher than those in SHAM group (0.25±0.07) and 2VO+ LCAR group (1.76±0.09) (both P<0.05). (3) The density of synaptic vesicles in the hippocampus of rats in 2VO group ((289.09±22.41)/μm 2)was lower than those in SHAM group ((497.49±28.89)/μm 2)and 2VO+ LCAR group ((401.23±45.09)/μm 2) (both P<0.01). Western blot results showed that the relative levels of synaptic proteins NR2A/B, PSD95 and CREB in 2VO group were lower than those in SHAM group and 2VO+ LCAR group (all P<0.05). Immunofluorescence results showed that the relative level of CREB expression in hippocampal subregions and cortex in 2VO group was lower than those in SHAM group and 2VO+ LCAR group (both P<0.01). Conclusion:L-carnitine can improve spatial learning and memory dysfunction in rats with chronic cerebral hypoperfusion, which are related with promoting ATP production and protecting mitochondrial morphology, and promoting synaptic vesicle synthesis and synaptic protein expression.
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Objective:To investigate the effect of L-carnitine on calcium oxalate-induced ferroptosis in renal tubular epithelial cells (HK-2).Methods:The effects of calcium oxalate(0, 2, 4 and 8 mmol/L) on the expression of ferroptosis-related protein long chain fatty acyl-CoA synthetase 4 (ACSL4), cystine/glutamate transporter(XCT) and glutathione peroxidase 4 (GPX4) in HK-2 cells were detected by Western blotting. The experiment was then divided into four groups: ①control group, cells were cultured in normal medium for 12 hours, then continued to use normal medium; ②L-carnitine group, cells were pretreated with medium containing 5mmol/L L-carnitine for 12 hours, then changed to medium containing 5mmol/L L-carnitine; ③calcium oxalate group, cells were cultured in normal medium for 12 hours, and then replaced with medium containing 4 mmol/L calcium oxalate; ④calcium oxalate+ L-carnitine group, the cells were pretreated with medium containing 5mmol/L L-carnitine for 12 h, and then replaced with 5mmol/L L-carnitine and 4mmol/L calcium oxalate medium. After changing the culture medium for 24 hours, the cells or supernatants were collected, and the expression levels of ferroptosis-related protein quinone oxidoreductase (NQO1), ACSL4, XCT and GPX4 were detected by Western blotting. The levels of superoxide dismutase (SOD), glutathione (GSH) and malondialdehyde were detected by corresponding kit, and the level of reactive oxygen species in cells was detected by reactive oxygen species kit.Results:The results of Western blotting showed that the expression of ACSL4 protein in 0, 2, 4, 8 mmol/L calcium oxalate was 0.37±0.16, 0.68±0.16, 0.73±0.09, 0.89±0.03 respectively. The expression of XCT protein was 1.11±0.10, 0.91±0.14, 0.83±0.09, 0.80±0.07, respectively. The expression of GPX4 protein was 1.23±0.13, 0.99±0.17, 0.81±0.05, 0.72±0.06, respectively. Compared with 0mmol/L group, the expression of ACSL4 protein increased and the expression of XCT and GPX4 decreased in 2, 4 and 8 mmol/L groups, and the difference was more significant between 4 mmol/L group and 0 mmol/L group. So 4 mmol/L was taken as the optimal concentration for follow-up experiment. The levels of NQO1 in control group, L-carnitine group, calcium oxalate group and calcium oxalate+ L-carnitine group were (0.36±0.06, 0.54±0.05, 0.76±0.07, 0.90±0.03) respectively. There was significant difference between L-carnitine group and control group ( P<0.05). There was significant difference between calcium oxalate group and control group ( P<0.05). There was significant difference between calcium oxalate group and control group ( P<0.01). There was significant difference between calcium oxalate + L-carnitine group and calcium oxalate group ( P<0.05). The levels of ACSL4 in control group, L-carnitine group, calcium oxalate group and calcium oxalate + L-carnitine group were (0.66±0.10, 0.58±0.08, 0.99±0.03, 0.77±0.09) respectively. There was no significant difference between L-carnitine group and control group(P>0.05). There was significant difference between calcium oxalate group and control group ( P<0.01). There was significant difference between calcium oxalate + L-carnitine group and calcium oxalate group ( P<0.05). The levels of XCT in control group, L-carnitine group, calcium oxalate group and calcium oxalate + L-carnitine group were (0.93±0.08, 0.85±0.07, 0.76±0.06, 0.99±0.05). There was no significant difference between L-carnitine group and control group (P>0.05). There was significant difference between calcium oxalate group and control group ( P<0.01). There was significant difference between calcium oxalate + L-carnitine group and calcium oxalate group ( P<0.05). The levels of GPX4 in control group, L-carnitine group, calcium oxalate group and calcium oxalate + L-carnitine group were (1.10±0.09, 1.09±0.09, 0.85±0.03, 0.99±0.02) respectively. There was no significant difference between L-carnitine group and control group( P>0.05). There was significant difference between calcium oxalate group and control group ( P<0.01). There was significant difference between calcium oxalate + L-carnitine group and calcium oxalate group ( P<0.05). The levels of LDH in control group, L-carnitine group, calcium oxalate group and calcium oxalate + L-carnitine were (100.00±5.37)%, (99.50±6.38)%, (153.77±6.06)% and (132.50±5.58)%, respectively. There was no significant difference between L-carnitine group and control group( P>0.05). There was significant difference between calcium oxalate group and control group ( P<0.01). There was significant difference between calcium oxalate + L-carnitine group and calcium oxalate group ( P<0.05). The SOD levels in control group, L-carnitine group, calcium oxalate group and calcium oxalate + L-carnitine group were (100.00±5.79)%, (105.80±3.26)%, (44.74±7.60)% and (85.01±5.15)%, respectively. There was no significant difference between L-carnitine group and control group( P>0.05). There was significant difference between calcium oxalate group and control group ( P<0.01). There was significant difference between calcium oxalate + L-carnitine group and calcium oxalate group ( P<0.05). The levels of GSH in control group, L-carnitine group, calcium oxalate group and calcium oxalate + L-carnitine group were (100.00±4.73)%, (107.10±5.48)%, (53.49±3.98)% and (85.18±5.48)%, respectively. There was no significant difference between L-carnitine group and control group( P>0.01). There was significant difference between calcium oxalate group and control group ( P<0.01). There was significant difference between calcium oxalate + L-carnitine group and calcium oxalate group ( P<0.01). The levels of MDA in control group, L-carnitine group, calcium oxalate group and calcium oxalate + L-carnitine group were (100.00±2.36)%, (98.00±11.10)%, (129.11±2.59)% and (113.35±5.79)%, respectively. There was no significant difference between L-carnitine group and control group( P>0.05). There was significant difference between calcium oxalate group and control group ( P<0.01). There was significant difference between calcium oxalate + L-carnitine group and calcium oxalate group ( P<0.01). The fluorescence intensity of ferrous ion in control group, calcium oxalate group and calcium oxalate + L-carnitine group was (39.77±0.68) AU, (68.40±3.14) AU and (48.60±4.30) AU, respectively. There was significant difference between calcium oxalate group and control group ( P<0.01). There was significant difference between calcium oxalate + L-carnitine group and calcium oxalate group ( P<0.05). The fluorescence intensity of reactive oxygen species in control group, calcium oxalate group and calcium oxalate + L-carnitine group was (63.98±9.41) AU, (145.41±8.39) AU and (85.37±4.51) AU, respectively. There was significant difference between calcium oxalate group and control group ( P<0.01). There was significant difference between calcium oxalate + L-carnitine group and calcium oxalate group ( P<0.01). Transmission electron microscopy results showed that mitochondria were wrinkled, cristae were broken or disappeared in the calcium oxalate group compared to the control group, and a double-layer membrane structure was evident. DAPI staining showed that compared with the control group, some of the nuclei in the calcium oxalate group were significantly more damaged, while compared with the calcium oxalate group, the nuclei in the calcium oxalate + L-carnitine were significantly less damaged. The results of crystal adhesion test showed that compared with the control group, calcium oxalate crystals in the calcium oxalate group adhered to the cells in black-like particles and formed clusters. Compared with the calcium oxalate group, the calcium oxalate + L-carnitine showed less black particles adhering to the cells. Conclusions:L-carnitine may reduce the effects of oxidative stress and ferroptosis induced by calcium oxalate, thus reducing cell damage and crystal adhesion.
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Objective:In order to determine the development potential of human embryos in vitro, amino acid and carnitine levels were measured in the culture medium of different grades of early human embryos. Methods:From the infertile couples who received in vitro fertilization-embryo transfer treatment in the Department of Reproductive Medicine of Linyi People′s Hospital from June 2022 to December 2022, the age of the women was defined as 25-35 years old [31.5(26.5, 33.25)] with 8-20 eggs, 126 cultured cells and embryos of the third day were randomly collected from infertile couples. They were divided into three groups according to the morphological level of the corresponding embryos: excellent, neutral and poor. Amino acids and L-carnitines levels in culture medium were detected by liquid chromatography-mass spectrometry (LC-MS). Using analysis of variance to compare differences among groups, correlation analysis, factor analysis was performed to analyze the association between the levels of amino acids and L-carnitines and development potential of early human embryos.Results:The value of Methionine/Phenylalanine was found statistically different among superior embryo (3.09±1.67), moderate embryo (4.00±1.19) and inferior embryo (4.99±2.04). The difference between the three groups was statistically different ( F=7.09, P<0.05): superior embryo vs moderate embryo ( t=-0.91, P<0.05), superior embryo vs inferior embryo ( t=-1.91, P<0.05), moderate embryo vs inferior embryo ( t=-0.99, P<0.05). Among different amino acids, Phe had the strongest positive correlation with Tyr ( r=0.99, P<0.01). Among different carnitines, C 8/C 10 has the strongest positive correlation with C 5DC+C 6OH/C 16( r=0.44, P<0.01). The weight value of leucine (isoleucine), arginine, valine/phenylalanine, glycine, tyrosine and carnitine(C 5DC+C 6OH)/C 8 calculated by the least square fitting model is 2.22, 1.99, 1.65, 1.54, 1.21 and 1.15 respectively. Conclusion:Leucine, arginine, valine/phenylalanine, glycine, tyrosine and carnitine (C 5DC+C 6OH)/C 8 in embryo culture medium were significantly correlated with the levels of early human embryos in vitro.
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Objective To investigate the effects of glucagon-like peptide-1 receptor agonists(GLP-1 RAs)on lipotoxic oxida-tive stress in islet cells,and to explore whether the mechanism is related to the regulation of LINC01180/miR-30b/CPT1A pathway.Methods Gene chips and bioinformatics analysis predicted that LINC01180might regulate microRNA and related proteins.In vivo and in vitro modeling,the models were divided into control group,high-fat group and GLP-1 RAs group.The content of malondialdehyde(MDA)and the activity of total antioxidant capacity(T-AOC)were detected.Hematoxylin-eosin staining and immunohistochemical Reg3γ analysis were determined either.Real-time quantitative polymerase chain reaction(RT-qPCR)was used to detect the expres-sion levels of LINC01180,miR-30b and CPT1A.The protein expression levels of CPT1A was detected by Western blot.LINC01180 was inhibited and overexpressed by transient transfection,the expression levels of miR-30b and CPT1A after transfection were detected by RT-qPCR.Results Bioinformatics analysis showed that LINC01180/miR-30b/CPTIA formed ceRNA regulatory network.The lipo-toxic oxidative stress was significantly improved in GLP-1RAs model,and the expression levels of LINC01180 was decreased,while the expression levels of miR-30b and CPT1A were increased.Transfection of LINC01180significantly affected the expression levels of miR-30b and CPT1 A.Conclusion GLP-1RAs ameliorates lipotoxic oxidative stress by down-regulating the expression levels of LINC01180 and up-regulating the expression of miR-30b and CPT1A.
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Acute lung injury (ALI) or acute respiratory distress syndrome (ARDS) is a critical respiratory syndrome with limited effective interventions. Lung macrophages play a critical role in the pathogenesis of abnormal inflammatory response in the syndrome. Recently, impaired fatty acid oxidation (FAO), one of the key lipid metabolic signalings, was found to participate in the onset and development of various lung diseases, including ALI/ARDS. Lipid/fatty acid contents within mouse lungs were quantified using the Oil Red O staining. The protective effect of FAO activator L-carnitine (Lca, 50, 500, or 5 mg/mL) was evaluated by cell counting kit 8 (CCK-8) assay, real-time quantitative PCR (qPCR), ELISA, immunoblotting, fluorescence imaging, and fluorescence plate reader detection in lipopolysaccharide (LPS) (100 ng/mL)-stimulated THP-1-derived macrophages. The in vivo efficacy of Lca (300 mg/kg) was determined in a 10 mg/kg LPS-induced ALI mouse model. We found for the first time that lipid accumulation in pulmonary macrophages was significantly increased in a classical ALI murine model, which indicated disrupted FAO induced by LPS. Lca showed potent anti-inflammatory and antioxidative effects on THP-1 derived macrophages upon LPS stimulation. Mechanistically, Lca was able to maintain FAO, mitochondrial activity, and ameliorate mitochondrial dynamics. In the LPS-induced ALI mouse model, we further discovered that Lca inhibited neutrophilic inflammation and decreased diffuse damage, which might be due to the preservation of mitochondrial homeostasis. These results broadened our understanding of ALI/ARDS pathogenesis and provided a promising drug candidate for this syndrome.
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ObjectiveTo investigate the effect and mechanism of Mori Folium extract on the glucose and lipid metabolism disorders in the liver of rats with type 2 diabetes mellitus (T2DM) through the phosphatidylinositol 3-kinase/protein kinase B/peroxisome proliferation-activated receptor α/carnitine palmitoyl transferase-1 (PI3K/Akt/PPARα/CPT-1) signaling pathway. MethodThe T2DM model was induced by the high-fat diet combined with the intraperitoneal injection of streptozotocin (STZ). The model rats were randomly divided into a model group, a metformin (0.2 g·kg-1) group, and a Mori Folium water extract (4.0 g·kg-1) group according to blood glucose and body weight. In the 8-week administration, fasting blood glucose was measured at the same time every week. The histomorphological and fat changes in the rat liver were observed by hematoxylin-eosin (HE) staining and oil red O staining. The levels of total cholesterol (TC), triglyceride (TG), low-density lipoprotein cholesterol (LDL-C), high-density lipoprotein cholesterol (HDL-C), alanine aminotransferase (ALT), and aspartate aminotransferase (AST) in the serum were measured by biochemical methods. Western blot (WB) was used to quantitatively detect the protein expression of p-PI3K,PI3K,p-Akt,Akt,PPARα,and CPT-1 in the rat liver. ResultAfter 8-week administration, the blood glucose of rats was higher in the model group than that in the control group (P<0.01), and lower in the Mori Folium water extract group than that in the model group (P<0.01). The results of HE staining showed that the liver tissue structure of the control group was complete, and the hepatocytes were arranged radially around the central vein, while the hepatocyte injury in the model group was obvious. Compared with the model group, the Mori Folium water extract group showed improved vacuolar degeneration and no lesions such as small bile duct hyperplasia. Oil red O staining showed that there was no obvious steatosis and necrosis in the hepatocytes of rats in the control group, and no lipid droplets in the hepatocytes were observed, while the model group showed increased lipid droplets. Mori Folium significantly reduced the lipid droplets in the liver. Biochemical analysis showed that the levels of TC, TG, LDL-C, AST, and ALT in the model group were significantly higher than those in control group (P<0.01). The levels of TC, TG, LDL-C, AST, and ALT in the Mori Folium water extract group were significantly lower than those in the model group (P<0.05,P<0.01). WB showed that the protein expression of p-PI3K/PI3K, p-Akt/Akt, PPARα, and CPT-1 in the model group were lower than those in the control group (P<0.01). Mori Folium water extract could increase the protein expression of p-PI3K/PI3K, p-Akt/Akt, PPARα, and CPT-1 (P<0.05 or P<0.01). ConclusionThe hypoglycemic mechanism of Mori Folium water extract may be related to the regulation of the PI3K/Akt/PPARα/CPT-1 signaling pathway.
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ObjectiveTo investigate the medicinal effect of total flavonoids of mulberry leaves on regulating liver lipid metabolism disorder in diabetes mellitus type 2 (T2DM) rats, and the mechanism based on liver peroxidase proliferators activate receptors-α (PPAR-α) and carnitine palmityl transferase-1 (CPT-1) proteins. MethodTotal flavonoids of mulberry leaves were extracted and purified by ethanol extraction + macroporous resin purification and then identified. T2DM rat model was induced by high fat diet (HFD) + streptozocin(STZ)method. Rats with blood glucose ≥ 11.1 mmol·L-1 were divided into three administration groups with the high dose (300 mg·kg-1), medium dose (150 mg·kg-1), and low dose (75 mg·kg-1) of total flavonoids of mulberry leaves for 8 weeks, respectively, to observe the weight and blood glucose of the rats. The pathological changes of rat livers were observed by hematoxylin-eosin (HE) staining. Biochemical method was used to detect the levels of total cholesterol (TC), triglyceride (TG), low density lipoprotein-cholesterol (LDL-C), and high density lipoprotein-cholesterol (HDL-C) of blood lipid metabolism in rats. The messenger ribonucleic acid (mRNA) and protein expressions of PPAR-α and CPT-1 were determined by real-time quantitative polymerase chain reaction (Real-time PCR) and Western blot. ResultAfter 8 weeks of intervention of total flavonoids of mulberry leaves, compared with the control group, the food intake, liver index, and fasting blood glucose of rats in the model group increased significantly (P<0.01). Compared with the model group, the food intake, fasting blood glucose, and liver index of rats in the administration groups decreased significantly (P<0.01). The results of HE staining showed that the liver tissue structure of rats in the control group was complete and there was no obvious abnormality. The model group showed vacuolar degeneration and inflammatory infiltration of hepatocytes of rats. There was no obvious abnormality in the liver structure of rats in the administration groups. The results of blood lipid showed that compared with the control group, the levels of TC, TG, and LDL-C increased significantly (P<0.01), but the level of HDL-C decreased significantly (P<0.01) in the model group. Compared with the model group, the levels of TC, TG, and LDL-C decreased significantly (P<0.05, P<0.01), whereas the level of HDL-C increased significantly (P<0.01) in the administration groups. The results of Real-time PCR showed that compared with the control group, the mRNA expression of PPAR-α and CPT-1 of rats in the model group decreased significantly (P<0.01). Compared with the model group, the mRNA expressions of PPAR-α and CPT-1 of rats in the high-dose group increased significantly (P<0.01). The results of Western blot showed that compared with the control group, the protein expressions of PPAR-α and CPT-1 of rats in the model group decreased significantly (P<0.01). Compared with the model group, the protein expressions of PPAR-α and CPT-1 of rats in the high-dose group increased significantly (P<0.05, P<0.01). ConclusionTotal flavonoids of mulberry leaves can effectively reduce blood glucose and improve liver lipid metabolism disorder in T2DM rats. The total flavonoids of mulberry leaves could regulate lipid metabolism and play a hypoglycemic role by activating and regulating PPAR-α and CPT-1 proteins and promoting oxidative decomposition of fatty acids.
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Objective:To explore the characteristics and influencing factors of blood carnitine metabolism in premature infants.Methods:A retrospective analysis of 37 037 neonates with negative results of genetic metabolic disease screening at Guangxi Newborn Disease Screening Center from 2018 to 2021, of which 34 517 normal full-term infants were the control group and 2 520 preterm infants were the research group.According to gestational age, the preterm infants were further divided into three groups: extremely preterm group( n=232), moderately preterm group( n=324)and late preterm group( n=1 964). According to birth weight, they were divided into three groups: very low birth weight group( n=188), low birth weight group( n=1 276)and normal birth weight group( n=1 056). According to blood collection time, they were divided into three groups: 3~7 days group( n=1 990), 8~14 days group( n=342) and 15~28 days group( n=188). Tandem mass spectrometry was used to detect the levels of 31 carnitines in dried blood spots and analyze the differences in the levels of metabolic indicators in each group. Results:Carnitine levels in preterm infants are most affected by gestational age.Adjusting the physiological and pathological conditions of premature infants and other related factors, grouped by gestational age, there were differences in the levels of 31 carnitines among the groups(all P<0.05), the smaller the gestational age, the greater the difference in carnitine levels; grouped by blood collection time, there were statistically significant differences in carnitine levels between preterm infants with different blood collection age groups and full-term 3~7 days groups(all P<0.05), and showing age-related; there are differences among 31 carnitines grouped by body weight(all P<0.05), the smaller the body weight, the greater the difference in carnitine levels.Combined with the analysis of gestational age, birth weight and blood collection date, 17 indicators including C0, C2, C3, C4, C6DC, C10, C10∶1, C12, C12∶1, C14, C14∶1, C14OH, C16, C16∶1, C18, C18∶1 and C18∶1OH are important biomarkers of carnitine metabolism in premature infants. Conclusion:Carnitine in premature newborns has different metabolic differences at different gestational ages, birth weights and blood collection ages, which provides a strong basis for establishing reference standards and interpretation of preterm infants in the laboratory in this region, and provides reasonable and effective early diagnosis and treatment for clinical practice.Meanwhile, it provides an optimized program for timely detection of carnitine deficiency and carnitine supplementation to improve nutrition of premature infants.
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SUMMARY: Ischemia-reperfusion (I/R) of the small intestine causes serious abdominal pathologies including tissue dysfunction and organ failure. L-carnitine (L-C), a powerful antioxidant, may help lessen the severity of these pathological effects since it plays a key role in energy metabolism. In this work we aimed to study the effects of L-C on the isolated ileal and duodenal contractility and histological changes in intestinal ischemia and reperfusion injury. Twenty eight Wistar rats were divided into four groups. The first group is the control group. Second group, I/R group, had rats submitted to 45-minutes of intestinal ischemia and to 45-minutes reperfusion. The third group, I/R+ L-C group, rats were treated with L-C 5 minutes before reperfusion and than submitted to ischemia. The fourth group, included rats that were treated with L-C without ischemia or reperfusion. Intestinal ischemia was conducted by obstructing superior mesentery arteries by silk loop. The ileal and duodenal segments were isolated and suspended in tissue bath. Contractile responses were induced by acetylcholine (Ach) and relaxation was achieved with phenylephrine. At the same time the terminal ileal and duodenal segments were examined for histological changes. Ach-induced contraction responses were higher in the I/R+L-C group, the L-C group, and the control group compared to the I/R group, in both ileal and duodenal segments. On the other hand, the phenylephrine-induced relaxations were higher in the I/R+L-C and L-C groups, especially in duodenal segments. In I/R group intestinal morphology was observed to be severely damaged whereas in I/R+L-C group the damage was noticeably lower possibly due to protective properties of L-C. I/R injury caused severe cellular damage response within the muscularis resulting in decreased gastrointestinal motility. Treatment with the L-C has significantly affected the gastrointestinal contractility. Also L-C treatment reduced the damage in intestinal morphology that occurs after IR injury.
RESUMEN: La isquemia-reperfusión (I/R) del intestino delgado provoca graves patologías abdominales que incluyen disfunción tisular y falla orgánica. La L-carnitina (L-C), un poderoso antioxidante, puede ayudar a disminuir la gravedad de estos efectos patológicos, ya que desempeña un papel clave en el metabolismo energético. El objetivo de este trabajo fue estudiar los efectos de L-C sobre la contractilidad ileal y duodenal aislada y los cambios histológicos en la lesión por isquemia y reperfusión intestinal. Se dividieron 28 ratas Wistar en cuatro grupos. El primer grupo fue el control. El segundo grupo, grupo I/R, de ratas sometidas durante 45 minutos de isquemia intestinal y a 45 minutos de reperfusión. El tercer grupo, grupo I/R+ L-C, las ratas se trataron con L-C, 5 minutos antes de la reperfusión y luego se sometieron a isquemia. El cuarto grupo, las ratas fueron tratadas con L-C sin isquemia ni reperfusión. La isquemia intestinal se realizó obstruyendo la arteria mesentérica superior con un asa de seda. Los segmentos ileal y duodenal se aislaron y suspendieron en un baño de tejido. Las respuestas contráctiles fueron inducidas por acetilcolina (Ach) y la relajación se logró con fenilefrina. Al mismo tiempo, se examinaron cambios histológicos de los segmentos del íleon terminal y del duodeno. Las respuestas de contracción inducidas por Ach fueron mayores en el grupo I/R+L-C, el grupo L-C y el grupo control en comparación con el grupo I/R, tanto en el segmento ileal como en el duodenal. Por otra parte, las relajaciones inducidas por fenilefrina fueron mayores en los grupos I/R+L-C y L-C, especialmente en los segmentos duodenales. En el grupo I/R se observó que la morfología intestinal estaba dañada significativamente, mientras que en el grupo I/R+L-C el daño fue notablemente menor, posiblemente debido a las propiedades protectoras de L-C. La lesión por I/R causó una respuesta de daño celular severo dentro de la capa muscular que resultó en una disminución de la motilidad gastrointestinal. El tratamiento con L-C afectó significativamente la contractilidad gastrointestinal. Por otra parte, el tratamiento L-C redujo el daño en la morfología intestinal que ocurre después de la lesión por IR.