ABSTRACT
INTRODUCTION@#Acylcarnitines in plasma and urinary organic acids are essential diagnostic markers for some Inborn Errors of Metabolism (IEM) such as fatty acid oxidation disorders, and disorders related to organic acids metabolism. By virtue of R. A. 9288, Filipino newborn babies are screened for inherited metabolic disorders via the analysis of dried blood spots (DBS) using MS/MS. @*OBJECTIVE@#This study aimed to establish the plasma acylcarnitine (PLAC) and urinary organic acid (UOA) profiles of Filipino newborn babies screened at high risk for IEMS using MS/MS and single quadrupole GC-MS analytical techniques. Further, this study describes the process of determining the true positive cases of fatty acid oxidation disorders and some organic acidurias among screened Filipino newborn babies using different sample types such as plasma and urine via flow injection analysis with tandem mass spectrometry (FIA-MS/MS) and another technique such as gas chromatography in tandem with mass spectrometry (GC-MS).@*METHODOLOGY@#Plasma acylcarnitine and urinary organic acid analyses were performed using Waters® MS/MS and Agilent® single quadrupole GC-MS, respectively. Results obtained from PLAC and UOA databases and IEM registry of the Biochemical Genetics Laboratory (BGL) covering the period 2015-2021 were utilized to account for the number of confirmed cases out of the total number screened positive for IEMs. Descriptive statistics was also used to evaluate the detection rates of FAODs and Organic Acidurias in Filipino newborn babies screened to be high risk.@*RESULTS@#Plasma acylcarnitine analysis was introduced by BGL only in 2015. Data from 2015-2021, indicated 176 true positives out of 1642 babies screened at high risk for FAODs and organic acidurias. The use of plasma and urine samples for measurements in MS/MS and GC-MS yielded a detection rate of 10.7% with 104 Filipino newborn babies afflicted with fatty acid oxidation disorders (FAOD) while 72 were found to be confirmed cases of organic acidurias. Medium-chain acyl-CoA dehydrogenase (MCAD) deficiency was reported to be the most common FAOD with 67 cases. Organic acidurias such as glutaric aciduria type 1 and 3-Methylcrotonyl-CoA carboxylase (3-MCC) deficiency were found to be common with 34 and 26 true positives, respectively. @*CONCLUSION@#The plasma acylcarnitine and urinary organic acid profiles of Filipino newborn babies with fatty acid oxidation disorders and organic acidurias obtained via MS/MS and GC/MS, respectively, were presented in this paper. This study emphasizes the importance of conducting confirmatory testing to establish the true positives from among those Filipino newborns flagged to be at high risk for FAODs or organic aciduria. The confirmatory tests are based on the use of different samples such as urine and plasma in order to detect and quantify biomarkers for FAODs and organic acidurias using two different analytical techniques such as MS/MS and GC-MS. This study warrants further studies directed towards the validation of analytical methodologies for targeted measurements of biomarkers of IEMS in urine and plasma of newborn babies to increase the efficiency of establishing true positives and to determine the efficiency of administration of interventions on Filipino children with genetic disabilities, that is, for monitoring purposes.
Subject(s)
Plasma , Tandem Mass SpectrometryABSTRACT
Metabolism reprogramming plays an important role in the process of tumor occurrence and development, and provides the necessary material basis for tumor cells. It can change the metabolic patterns of amino acids, glucose and fatty acids in tumor cells, which is one of the hallmark features of tumors. At present, it is shown that most tumors tend to take advantage of glycolysis for energy resource. In contrast, studies have shown that prostate cancer cells dependent more on the fatty acid oxidation pathway for metabolic reprogramming to obtain energy substances. Therefore, it is of great significance to understand the relation between key enzymes of lipid metabolism and regulatory genes for early diagnosis, targeted treatment and better prognosis of prostate cancer.
ABSTRACT
OBJECTIVES@#Perfluorooctanoic acid (PFOA) can cause lipid metabolism disorders in animal body and affect the lipolysis and synthesis of fatty acids. Peroxisome proliferators-activated receptor (PPAR) plays an extremely important role in this process. This study aims to explore the effects of PFOA on liver lipid metabolism disorders in Sprague Dewley (SD) rats and the expression of PPAR.@*METHODS@#A total of 40 male SD rats were randomly divided into 4 groups (n=10 in each group): a control group (ddH2O), a low-dose PFOA group [PFOA 1.25 mg/(kg·d)], a middle-dose PFOA group [PFOA 5.00 mg/(kg·d)], and a high-dose PFOA group [PFOA 20.00 mg/(kg·d)]. The rats were fed with normal diet, and PFOA exposure were performed by oral gavage for 14 days, and the rats were observed, weighted and recorded every day during the exposure. After the exposure, the blood was collected, and the livers were quickly stripped after the rats were killed. Part of the liver tissues were fixed in 4% paraformaldehyde for periodic acid-schiff (PAS) staining; the contents of HDLC, LDLC, TG, TC in serum and liver tissues, as well as the activities of their related enzymes were assayed; The expression levels of cyclic adenosine monophosphate-response element binding protein (Cbp), general control of amino acid synthesis 5-like 2 (Gcn5L2), peroxidation peroxisome proliferation factor activated receptor γ (PPAR), silent information regulator 1 (Sirt1) and human retinoid X receptor alpha 2 (Rxrα2) ) were detected by Western blotting.@*RESULTS@#After 14 days of PFOA exposure, the PAS staining positive particles in the cytoplasm and nucleus of SD rats in the medium and high dose groups were significantly reduced compared with the control group. The serum levels of LDLC and TC in the low-dose and middle-dose groups were significantly reduced compared with the control group (all P<0.05), while the high-dose group showed an increasing tendency, without siginificant difference (P>0.05), there was no significant difference in HDLC and TG (both P>0.05). The activities of alkaline phosphatase (AKP) and alanine aminotransferase (ALT) were increased significantly (both P<0.05) compared with control group; the ratio of ALT/aspartate aminotransferase (AST) in the high-dose group was increased significantly (P<0.05), there was no significant difference in LDH and TG (both P>0.05); the HDLC content in the liver tissues in the high-dose group was significantly reduced, compared with the control group (P<0.05); the TC contents in the liver tissues in the low, medium and high-dose groups were significantly increased (all P<0.05), there was no significant difference in LDLC and TG (both P>0.05); the AKP activity in the livers in the medium and high-dose groups was significantly increased (both P<0.05), there was no siginificant difference in LDH, ALT, and the ratio of ALT/AST (all P>0.05); the protein expression levels of Ppar γ, Cbp and Rxrα2 in the liver in the high dose groups were significantly down-regulated compared with the control group (all P<0.05), while the protein expression levels of Sirt1 were significantly up-regulated (all P<0.05).@*CONCLUSIONS@#PFOA exposure can cause lipid metabolism disorder and glycogen reduction in SD rat livers, which may be related to the activation of Sirt1 and inhibition of Ppar γ expression, leading to affecting the normal metabolism of fatty acids and promoting glycolysis.
Subject(s)
Animals , Male , Rats , Caprylates , Fatty Acids/pharmacology , Fluorocarbons , Lipid Metabolism , Lipid Metabolism Disorders/metabolism , Liver/metabolism , PPAR gamma , Rats, Sprague-Dawley , Sirtuin 1/metabolismABSTRACT
@#To study the effects of nucleoside antiviral drug zidovudine (AZT) on the flexibility of global metabolism and liver glucolipid metabolic balance in mice, male ICR mice were given zidovudine intragastric administration for 12 weeks, and their water and food intake was recorded daily.Serum glucose (GLU) and triglyceride (TG) levels and serum alanine aminotransferase (ALT) and aspartate aminotransferase (AST) levels were detected after 12 weeks of administration.Oral glucose tolerance test (OGTT) and insulin tolerance test (ITT) were performed.HE staining was used to observe the pathological changes of liver.The gene levels of glucose transporter (Glut2), carnitine palmitate transferase (Cpt1α), medium chain acyl-coa dehydrogenase (Mcad), phosphoenolpyruvate carboxykinase (Pepck) and glucose-6-phosphatase (G6pase) were detected by RT-PCR.Western blot was used to detect the protein levels of insulin signaling Akt, P-Akt, Glut2, Mcad and Cpt1α in liver.The results showed that zidovudine significantly decreased lipid metabolism, impaired glucose tolerance, increased liver cell volume, significantly increased liver triglyceride (TG) and non-esterified fatty acid (NEFA) content, increased Glut2 gene expression, down-regulated fatty acid oxidative metabolism genes Cpt1α, Mcad and gluconeogenesis related genes after fasting, and down-regulated protein expression of Cpt1α.The results suggest that zidovudine can induce the disorder of glucose and lipid metabolism after fasting in a dose-dependent manner.
ABSTRACT
With the deepening of research in recent years, tumor metabolic reprogramming has gradually become the focus of research, and targeting tumor cell metabolism has also become a new means of tumor therapy. The metabolic process affects almost all the physiological processes of the organism, and lipid metabolism is an important part of the metabolic process. Studies have shown that changes in lipid uptake, storage and fatty acid synthesis and decomposition have occurred in a variety of tumors. Abnormal lipid metabolism will promote the rapid proliferation of tumors. Abnormal expression of a variety of key metabolic enzymes in the process of lipid metabolism is the key to tumor progression. The purpose of this paper is to explain the metabolic regulation of lipid metabolism and related metabolic enzymes in hematological tumors, and to provide ideas for the treatment of hematological tumors.
ABSTRACT
Pulmonary arterial hypertension (PAH) is a devastating pulmonary circulation disease lacking high-efficiency therapeutics. The present study aims to decipher the therapeutic mechanism of Rhodiola crenulata, a well-known traditional chinese medicine with cardiopulmonary protection capacity, on PAH by exploiting functional lipidomics. The rat model with PAH was successfully established for first, following Rhodiola crenulata water extract (RCE) treatment, then analysis of chemical constituents of RCE was performed, additional morphologic, hemodynamic, echocardiographic measurements were examined, further targeted lipidomics assay was performed to identify differential lipidomes, at last accordingly mechanism assay was done by combining qRT-PCR, Western blot and ELISA. Differential lipidomes were identified and characterized to differentiate the rats with PAH from healthy controls, mostly assigned to acylcarnitines, phosphatidylcholines, sphingomyelin associated with the PAH development. Excitingly, RCE administration reversed high level of decadienyl-L-carnitine by the modulation of metabolic enzyme CPT1A in mRNA and protein level in serum and lung in the rats with PAH. Furthermore, RCE was observed to reduce autophagy, confirmed by significantly inhibited PPARγ, LC3B, ATG7 and upregulated p62, and inactivated LKB1-AMPK signal pathway. Notably, we accurately identified the constituents in RCE, and delineated the therapeutic mechansim that RCE ameliorated PAH through inhibition of fatty acid oxidation and autophagy. Altogether, RCE might be a potential therapeutic medicine with multi-targets characteristics to prevent the progression of PAH. This novel findings pave a critical foundation for the use of RCE in the treatment of PAH.
ABSTRACT
Yi-Qi-Huo-Xue Decoction (YQHX) is the recombination of Dang-Gui-Bu-Xue Decoction (DBD), which is one of the well-known traditional Chinese Medicine (TCM) prescription, and has long been shown to have significant protective effects against myocardial ischemic injury. In previous studies, we found that YQHX could regulate lipid and glucose metabolism, promote angiogenesis, attenuate inflammatory response, and ameliorate left ventricular function in myocardial ischemia rat models. However, the underlying mechanism of how YQHX involves in lipid metabolism remains unclear so far. In this study, the underlying mechanism of YQHX in lipid metabolism disorders was elucidated in a myocardial ischemia rat model and a hypoxia-induced H9c2 cell injury model. YQHX (8.2 g·kg) and positive-control drug trimetazidine (10 mg·kg) were administered daily on the second day after left anterior descending (LAD) operation. At 7 days and 28 days after surgery, changes of cardiac morphology, structure, and function were evaluated by H&E staining and echocardiography, respectively. The plasma lipid levels and mitochondrial ATP content were also evaluated. Western blot and RT-PCR were used to determine the protein and mRNA expressions of AMPK, PGC-1α, CPT-1α, and PPARα. YQHX improved cardiac function and ameliorated lipid metabolism disorders. Furthermore, YQHX increased the expression of p-AMPK, PGC-1α, and CPT-1α without changing PPARα in ischemic rat myocardium. In vitro, YQHX activated the protein and mRNA expression of PGC-1α, CPT-1α, and PPARα in hypoxia-induced H9c2 cells injury, whereas AMPK inhibitor Compound c blocked the effects of YQHX. Taken together, the results suggest that YQHX reduces lipid metabolism disorders in myocardial ischemia via the AMPK-dependent signaling pathway.
ABSTRACT
Background: It is reported that 20 to 30% of patients are not responders to this treatment (Cardiac Resynchronization Therapy). The reasoning in this merely theoretical paper shows the plausible danger that can be brought by measurements apparatus, in the occurrence the CRT especially when it is sophisticated. Objective: In Physical Cardiochemistry field our overall purpose is to bring a contribution to heart health. It is needful to draw attention for caregivers and manufacturers, especially with respect to the magnetism these apparatuses may exhibit. Methods: The Observation and documentary research are used. It is recalled hereby successively energy metabolism in healthy cardiomyocyte, adaptive energy metabolism of a hypertrophied and insufficient heart, cardiac resynchronization therapy and energy metabolism of the cardiomyocyte with its potential effects on both glucose oxidation and fatty acids oxidation. Results: It is shown a plausible interaction between oxygen magnetic field, paramagnetic by nature, and pacemaker and/or defibrillator electromagnetic field according to the sacral principle of “like dissolves like” with all evil consequences on patients. Conclusion: It will be necessary to evaluate later not only the behavior of the various energetic substrates of a hypertrophied heart as a function of the variation of the magnetic field strength but also the content of the probable substances produced in the presence of a magnetic field and with a potentially harmful effect on cardiac function. Convinced technology has its setbacks, the pacemakers and/or defibrillators manufacturers are invited to a greater rigor, greater caution and sustained care in building these devices. In next publication study of a case (CRT-D), where the diabetes has been observed, will be outlined.
ABSTRACT
Objective@#To explore the role and underlying molecular mechanisms of fibroblast growth factor 21 (FGF21) in the development of melanoma.@*Methods@#Quantitative RT-PCR was applied to investigate the mRNA levels of FGF21 in cells. FGF21 overexpression plasmid was used to transfect FGF21 in melanoma cells, and shRNA technology was used to knock down FGF21 expression in melanoma cells. CCK8 assay and BrdU staining were used to detect the abilities of cell growth and proliferation. RT-qPCR was used to evaluate the expression levels of fat acids-oxidation-associated genes PGC1a, CD36, CPT1a, CPT1b and CPT2. Melanoma cells with or without FGF21 overexpression were subcutaneously injected into nude mice to observe the tumorigenic ability of the cells.@*Results@#The mRNA expression level of FGF21 was about 10 times higher than that of melanocytes (P<0.05). After the specific knockdown of FGF21 or overexpression of FGF21 in melanoma cells, cell proliferation levels were significantly reduced or increased (P<0.05). In vitro experiments showed that the overexpression of FGF21 significantly promoted the fatty acid oxidation in melanoma cells in terms of increased PGC1a, CD36, CPT1a, CPT1b and CPT2 gene expression. Further studies found that after the inhibition of intracellular fatty acid oxidation by small molecule Etomoxir, the cell proliferation ability of Etomoxir group was significantly lower than that of the control group by CCK8 assay and BrdU staining (P<0.05). Meanwhile, the tumor growth of the nude mice with FGF21-overexpressed melanoma cells was dramatically enhanced, and the tumor diameters were significantly increased.@*Conclusions@#FGF21 could promote the growth and proliferation of melanoma cells through regulating intracellular fatty acid oxidation, which accelerates the deterioration of melanoma.
ABSTRACT
Objective@#To determine the incidence and mutational types of fatty acid oxidation disorders (FAOD) in central-northern region of Guangxi.@*Methods@#A total of 62 953 neonates were screened for FAOD during December 2012 and December 2017. Acyl-carnitine profiling of neonatal blood sample was performed by tandem mass spectrometry using dry blood spots on a filter paper. The diagnosis of FAOD was confirmed by organic acid profiling of urea and genetic testing.@*Results@#Eighteen cases of FAOD were diagnosed among the 62 953 neonates. Among these, primary carnitine deficiency (PCD) was the most common type (n=13), which was followed by short-chain acyl-CoA dehydrogenase deficiency (SCADD) (n=2), medium- chain acyl-CoA dehydrogenase deficiency (MCADD) (n=1), multiple acyl-CoA dehydrogenase deficiency (MADD) (n=1), and carnitine palmitoyltransferaseⅡdeficiency (CPT ⅡD) (n=1). Genetic testing has revealed two previously unreported variants, i. e., c. 337G>A (p.Gly113Arg) of ACADS gene and c. 737G>T (p.Gly246Val) of ETFA gene.@*Conclusion@#PCD is the most common FAOD in central-northern Guangxi. Tandem mass spectrometry combined with genetic testing may facilitate early diagnosis of FAOD.
ABSTRACT
Mitochondrial fatty acid β-oxidation defects are series of underlying fatal diseases. The enzyme deficiencies caused by related gene mutations would lead to energy metabolic crisis and multi-organ damage. The clinical features of the patients are varied. The disease course ranged from acute to chronic,with mild to severe symptoms. Some previously healthy patients presented as sudden unexpected death due to acute cardiac death. With the development and the application of biochemical and genetic technologies in the metabolic autopsy,mitochondrial fatty acid β-oxidation disorders were recognized to be the genetic cause of sudden death. By expanded neonatal screening using tandem mass spectrometry,the patients could be detected at asymptomatic period or early stage of disease. Early intervention is the key to reduce the mortality and the disability.
ABSTRACT
myocardium. Fatty acid oxidation disorders(FAODs)can give rise to insufficiency of mitochondrial energy production and accumulation of metabolic intermediates in cardiomyocytes,such as lipid and long-chain acyl carnitine,leading to myocardial lesions.FAODs include carnitine-dependent fatty acid transport disorders and mitochondrial fatty acid beta-oxidation disorders,with any enzyme or transporter defect in fatty acid oxidation process resulting in this disease. Although FAODs are one of the rare causes of pediatric cardiomyopathy,some patients with FAODs are expected to have cardiomyopathy alleviated and quality of life improved by early correction of fatty acid metabolic disorders.
ABSTRACT
Primary carnitine deficiency is an autosomal recessive hereditary disease caused by the mutation of SLC22 A5 gene,which leads to increased carnitine excretion in urine and low level of carnitine in blood,tissues and cells. Due to the heterogeneity and non-specificity of the clinical manifestations of PCD,it is easy to be misdiagnosed or missed and it is potentially fatal without timely treatment. This disease can be detected early through the newborn screening. Maternal carnitine deficiency and the secondary carnitine deficiency caused by other diseases should be excluded. Genetic test can give a clear diagnosis. Avoiding hunger and use of oral L-carnitine supplementation to maintain normal plasma carnitine concentrations are effective treatments.
ABSTRACT
()of recessive hereditary diseases caused by the dysfunction of enzymes required for fatty acids to enter mitochondria or fatty acid beta-oxidation,including carnitine transport disorders and fatty acid beta-oxidation disorders. Clinical symptoms are non-specific,involving multiple organs,such as liver,myocardium,skeletal muscle,brain and kidney. Most FAOD patients diagnosed by newborn screening have no clinical symptoms or mild symptoms through early intervention management,but they are prone to acute onset or even sudden death under stress conditions such as hunger and exercise. Long-term follow-up and management can effectively reduce the mortality and morbidity rate of FAOD.
ABSTRACT
Fatty acid oxidation disorders(FAOD)include more than 10 kinds of diseases,they all belong to autosomal recessive diseases and are common inherited metabolic diseases. Onset age of the patients with FAOD are from newborn to adult. The clinical manifestations were nonspecific,mainly manifested as liver disease,cardiomyopathy and muscle diseases. Detection of free carnitine and acylcarnitines in blood by tandem mass spectrometry and detection of gene mutations are important methods for diagnosis of such diseases. Tandem mass screening for neonatal screening is helpful for early diagnosis and early treatment of FAOD. Primary carnitine deficiency and multiple acyl-CoA dehydrogenase deficiency can be treated by specific therapeutic drugs with good effect. There are no specific drugs for other diseases,which need symptomatic treatment.
ABSTRACT
Lipid storage myopathy (LSM) is an etiologically heterogeneous group of lipid metabolic disorders characterized by accumulation of light microscopic lipid droplets in muscle fibers.This disease seems to be more common in Chinese population accounting for 3%-5% of total muscle biopsies in several large neuromuscular centers in China.The pathogenesis of LSM is the impairment of fatty acid oxidation in muscle fibers.Late-onset multiple acyl-coenzyme A dehydrogenase deficiency (MADD) caused by electron transfer flavoprotein dehydrogenase (ETFDH) gene mutation has been demonstrated to be the main molecular defect in China.Three frequent ETFDH mutations were identified:c.250G>A in patients from South China,and c.770A>G and c.1227A>C in those from both South and North China.More importantly,almost all late-onset MADD are dramatically responsive to riboflavin supplementation.Neutral lipid storage disease with myopathy (NLSDM) caused by mutations in PNPLA2 gene is the second common cause of Chinese LSM.Distal muscle involvement and asymmetrical muscle weakness and atrophy are common in primary symptoms of NLSDM which may be the first clue indicating the diagnosis of NLSDM.There were also a few case reports showing that LSM may be caused by carnitine transport defect and other deficiencies of acyl-coenzyme A dehydrogenase involved in fatty acid beta oxidation.Increased lipid droplets accumulation in muscle fibers may also be a secondary consequence of mitochondrial myopathy (mtDNA depletion syndrome or MELAS),dermatomyositis and steroid treatment.
ABSTRACT
Objective? To?Study?the?changes?of?short-chain?acyl-CoA?dehydrogenase?(SCAD)?in?heart?failure?(HF)?after?myocardial?infarction?(MI),?and?the?effect?of?aerobic?exercise?on?SCAD.? Methods? Healthy?male?Sprague-Dawley?(SD)?rats?were?divided?into?sham?operation?group?(Sham?group),?sham?operation?swimming?group?(Sham+swim?group),?HF?model?group?(LAD?group)?and?HF?swimming?group?(LAD+swim?group)?by?random?number?table?method,?with?9?rats?in?each?group.?The?left?anterior?descending?branch?of?coronary?artery?(LAD)?was?ligated?to?establish?a?rat?model?of?HF?after?MI.?In?Sham?group,?only?one?loose?knot?was?threaded?under?the?left?coronary?artery,?and?the?rest?operations?were?the?same?as?those?in?LAD?group.?Rats?in?Sham+swim?group?and?LAD+swim?group?were?given?swimming?test?for?1?week?after?operation?(from?15?minutes?on?the?1st?day?to?60?minutes?on?the?5th?day).?Then?they?were?given?swimming?endurance?training?(from?the?2nd?week?onwards,?60?minutes?daily,?6?times?weekly,?10?weeks?in?a?row).?Tail?artery?systolic?pressure??(SBP)?was?measured?before?swimming?endurance?training?and?every?2?weeks?until?the?end?of?the?10th?week.?Ten?weeks?after?swimming?training,?echocardiography?was?performed?to?measure?cardiac?output?(CO),?stroke?volume?(SV),?left?ventricular?ejection?fraction?(LVEF),?shortening?fraction?(FS),?left?ventricular?end-systolic?diameter?(LVESD),?left?ventricular?end-diastolic?diameter?(LVEDD),?left?ventricular?end-systolic?volume?(LVESV),?and?left?ventricular?end-diastolic??volume?(LVEDV).?Morphological?changes?of?heart?were?observed?by?Masson?staining.?Apoptosis?of?myocardial?cells?was?detected?by?transferase-mediated?deoxyuridine?triphosphate-biotin?nick?end?labeling?stain?(TUNEL)?and?apoptosis?index?(AI)?was?calculated.?Reverse?transcription-polymerase?chain?reaction?(RT-PCR)?and?Western?Blot?were?used?to?detect?the?mRNA?and?protein?expression?of?myocardial?SCAD?respectively.?In?addition,?the?enzyme?activity?of?SCAD,?the?content?of?adenosine?triphosphate?(ATP)?and?free?fatty?acid?(FFA)?in?serum?and?myocardium?were?detected?according?to?the?kit?instruction?steps.? Results? Compared?with?Sham?group,?Sham+swim?group?showed?SBP?did?not?change?significantly,?with?obvious?eccentric?hypertrophy?and?increased?myocardial?contractility,?and?LAD?group?showed?persistent?hypotension,?obvious?MI,?thinning?of?left?ventricle,?and?decreased?myocardial?systolic/diastolic?function.?Compared?with?LAD?group,?SBP,?systolic/diastolic?function?and?MI?in?LAD+swim?group?were?significantly?improved?[SBP?(mmHg,?1?mmHg?=?0.133?kPa):?119.5±4.4?vs.?113.2±4.5?at?4?weeks,?120.3±4.0?vs.?106.5±3.7?at??6?weeks,?117.4±1.3?vs.?111.0±2.3?at?8?weeks,?126.1±1.6?vs.?119.4±1.9?at?10?weeks;?CO?(mL/min):?59.10±6.31?vs.?33.19±4.76,?SV?(μL):?139.42±17.32?vs.?84.02±14.26,?LVEF:?0.523±0.039?vs.?0.309±0.011,?FS:?(28.17±2.57)%?vs.?(15.93±3.64)%,?LVEDD?(mm):?8.80±0.19?vs.?9.35±0.30,?LVESD?(mm):?5.90±0.77?vs.?7.97±0.60,?LVEDV?(μL):?426.57±20.84?vs.?476.24±25.18,?LVESV?(μL):?209.50±25.18?vs.?318.60±16.10;?AI:?(20.4±1.4)%?vs.?(31.2±4.6)%;?all?P?<?0.05].?Compared?with?Sham?group,?the?mRNA?and?protein?expression?of?myocardium?SCAD,?the?activity?of?SCAD?in?Sham+swim?group?were?significantly?increased,?the?content?of?ATP?was?slightly?increased,?the?content?of?serum?FFA?was?significantly?decreased,?and?the?content?of?myocardial?FFA?was?slightly?decreased;?conversely,?the?mRNA?and?protein?expression?of?myocardium?SCAD,?the?activity?of?SCAD?and?the?content?of?ATP?in?LAD?group?were?significantly?decreased,?the?content?of?serum?and?myocardial?FFA?were?significantly?increased.?Compared?with?LAD?group,?the?mRNA?and?protein?expression?of?myocardium?SCAD,?the?content?of?ATP?were?significantly?increased?in?LAD+swim?group?[SCAD?mRNA?(2-ΔΔCt):?0.52±0.16?vs.?0.15±0.01,?SCAD/GAPDH?(fold?increase?from?Sham?group):?0.94±0.08?vs.?0.60±0.11,?ATP?content?(μmol/g):?52.8±10.1?vs.?14.7±6.1,?all?P?<?0.05],?the?content?of?serum?and?myocardial?FFA?were?significantly?decreased?[serum?FFA?(nmol/L):?0.11±0.03?vs.?0.29±0.04,?myocardial?FFA?(nmol/g):?32.7±8.2?vs.?59.7±10.7,?both?P?<?0.05],?and?the?activity?of?SCAD?was?slightly?increased?(kU/g:?12.3±4.3?vs.?8.9±5.8,?P?>?0.05).? Conclusion? The?expression?of?SCAD?in?HF?was?significantly?down-regulated,?and?the?expression?was?significantly?up-regulated?after?aerobic?exercise?intervention,?indicating?that?swimming?may?improve?the?severity?of?HF?by?up-regulating?the?expression?of?SCAD.
ABSTRACT
Aim To discuss the effect of Danhong in-jection(DHI) on hyperlipidemia in rats and its possible mechanism. Methods The hyperlipidemia model of rats were induced by high fat diet. The protein expres-sion of adenosine 5'-monophosphate-activated protein kinase(AMPK), p-AMPK, cholesterol-binding ele-ment binding protein (SREBP-1), adenylate-activated protein kinase carboxylasecetyl-CoA(ACC) and p-ACC in liver were detected using Western blot. Results The protein expression levels of AMPK, SREBP-1 and ACC significantly decreased (P<0.05), but the pro-tein expression levels of p-ACC and p-AMPK signifi-cantly increased (P<0.05). Conclusions Danhong injection can reduce the activity of SREBP-1 and ACC by enhancing the activation of AMPK, and effectively reduce the blood lipid level of hyperlipidemic rats by promoting fatty acid oxidation and reducing lipid depo-sition.
ABSTRACT
Abstract Fatty acid oxidation defects (FAODs) are inherited metabolic disorders caused by deficiency of specific enzyme activities or transport proteins involved in the mitochondrial catabolism of fatty acids. Medium-chain fatty acyl-CoA dehydrogenase (MCAD) and long-chain 3-hydroxyacyl-CoA dehydrogenase (LCHAD) deficiencies are relatively common FAOD biochemically characterized by tissue accumulation of medium-chain fatty acids and long-chain 3-hydroxy fatty acids and their carnitine derivatives, respectively. Patients with MCAD deficiency usually have episodic encephalopathic crises and liver biochemical alterations especially during crises of metabolic decompensation, whereas patients with LCHAD deficiency present severe hepatopathy, cardiomyopathy, and acute and/or progressive encephalopathy. Although neurological symptoms are common features, the underlying mechanisms responsible for the brain damage in these disorders are still under debate. In this context, energy deficiency due to defective fatty acid catabolism and hypoglycemia/hypoketonemia has been postulated to contribute to the pathophysiology of MCAD and LCHAD deficiencies. However, since energetic substrate supplementation is not able to reverse or prevent symptomatology in some patients, it is presumed that other pathogenetic mechanisms are implicated. Since worsening of clinical symptoms during crises is accompanied by significant increases in the concentrations of the accumulating fatty acids, it is conceivable that these compounds may be potentially neurotoxic. We will briefly summarize the current knowledge obtained from patients with these disorders, as well as from animal studies demonstrating deleterious effects of the major fatty acids accumulating in MCAD and LCHAD deficiencies, indicating that disruption of mitochondrial energy, redox, and calcium homeostasis is involved in the pathophysiology of the cerebral damage in these diseases. It is presumed that these findings based on the mechanistic toxic effects of fatty acids may offer new therapeutic perspectives for patients affected by these disorders.