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Resumen Introducción: El tronco arterial persistente es una rara malformación cardíaca congénita que provoca diversas complicaciones en el sistema cardiovascular. Se caracteriza por la presencia de un tabique ventricular defectuoso, una única válvula troncal y un tronco arterial común entre la arteria pulmonar y aorta, conllevando a una mezcla entre la sangre arterial y venosa, debido a un cortocircuito cardíaco bidireccional predominante de izquierda a derecha que compromete el suministro de flujo sanguíneo, nutrientes y oxigenación sistémica. Las manifestaciones clínicas incluyen desaturación con cianosis, hipoxemia, taquicardia, taquipnea, alteraciones en la contractilidad cardíaca, pulsos distales anómalos, pérdida de peso, fatiga y hepatomegalia. Objetivo: El propósito de esta investigación es establecer hipótesis sobre los diversos mecanismos compensatorios que se activan a nivel sistémico para contrarrestar los efectos de esta malformación. Reflexión: Se sugiere que se producen respuestas biomoleculares similares en los sistemas cardiovascular, pulmonar y renal, reduciendo la producción de óxido nítrico y provocando respuestas vasoconstrictoras. A nivel hepático, se generan factores de crecimiento y se inician procesos de angiogénesis para aumentar la perfusión sanguínea. En el cerebro, se activan enzimas para incrementar el flujo sanguíneo y proporcionar oxígeno y nutrientes esenciales. Conclusión: A pesar de estos mecanismos compensatorios, no logran contrarrestar por completo las manifestaciones clínicas, conduciendo a una serie de problemas de salud, como hipertensión pulmonar, insuficiencia cardíaca, hepatomegalia, hipoperfusión de órganos y déficits neurológicos. Estos factores convergen para generar una compleja condición cardíaca que desencadena respuestas adaptativas en el cuerpo que terminan siendo una afección médica desafiante y potencialmente grave.
Abstract Introduction: Persistent truncus arteriosus is a rare congenital cardiac malformation that causes various complications in the cardiovascular system. It is characterized by the presence of a defective ventricular septum, a single truncal valve and a common truncus arteriosus between the pulmonary artery and aorta, leading to a mixture between arterial and venous blood, due to a predominantly left-to-right bidirectional cardiac shunt that compromises the supply of blood flow, nutrients, and systemic oxygenation. Clinical manifestations include desaturation with cyanosis, hypoxemia, tachycardia, tachypnea, alterations in cardiac contractility, abnormal distal pulses, weight loss, fatigue, and hepatomegaly. Aim: The purpose of this research is to establish hypotheses about the various compensatory mechanisms that are activated at a systemic level to counteract the effects of this malformation. Reflection: It is suggested that similar biomolecular responses occur in the cardiovascular, pulmonary, and renal systems, reducing nitric oxide production and causing vasoconstrictive responses. At the liver level, growth factors are generated and angiogenesis processes are initiated to increase blood perfusion. In the brain, enzymes are activated to increase blood flow and provide oxygen and essential nutrients. Conclusion: Despite these compensatory mechanisms, they fail to completely counteract the clinical manifestations, leading to a series of health problems such as pulmonary hypertension, heart failure, hepatomegaly, organ hypoperfusion, and neurological deficits. These factors converge to generate a complex cardiac condition that triggers adaptive responses in the body that end up being a challenging and potentially serious medical condition.
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Abstract Introduction: A recent revision of the generic classification of the Trochilidae based on DNA sequences revealed many inconsistencies with the current generic classification, largely based on plumage characters subject to homoplasy, especially in the Trochilini, the largest tribe. A thorough generic reorganization brought the classification into accord with the phylogeny, but due to lack of genetic data, two species remained unclassified. One of these was the Mangrove Hummingbird, "Amazilia" boucardi, endemic to Costa Rica and included in the IUCN red list of threatened species. Objective: To obtain molecular evidence to clarify the generic relationships of "A." boucardi. Methods: We isolated DNA from tissues of this species and amplified 4 nuclear and 4 mitochondrial fragments and compared these with homologous fragments from 56 species in the Trochilini, constructing phylogenetic trees with maximum likelihood and Bayesian methods. Results: Our phylogenetic analyses confirmed the placement of boucardi in the Trochilini and definitely excluded it from Amazilia but placed it with high confidence in the genus Chrysuronia Bonaparte, 1850, within which its closest relative is C. coeruleogularis, which also inhabits mangroves. Conclusions: Our genetic data based on nuclear and mitochondrial regions clearly indicate the relationship of A. boucardi and L. coeruleogularis. Moreover, it is also supported by their habitat distribution in the mangroves of the Pacific coast of Costa Rica and Western Panama. Therefore, we suggested to exclude A. boucardi as "incertae sedis".
Resumen Introducción: Una revisión reciente de la clasificación de la familia Trochilidae con base en secuencias de ADN demostró muchas incongruencias con la clasificación genérica previa, que había sido hecho con base en caracteres del plumaje muy sujetos a homoplasia, especialmente en la tribu más grande, Trochillini. Una reorganización de los géneros logró llevar su clasificación genérica a la concordancia con la filogenia, pero debido a la ausencia de datos genéticos, dos especies permanecieron sin clasificar. Una de estas fue el colibrí de manglar Amazilia boucardi, una especie endémica de Costa Rica, considerada como amenazada en la lista roja de la UICN. Objetivo: Obtener evidencia molecular para esclarecer las relaciones genéricas de A. boucardi. Métodos: Se aisló ADN de tejidos de esta especie y se amplificaron 4 fragmentos de ADN del núcleo y 5 de la mitocondria, y se compararon con fragmentos homólogos de 56 especies en la tribu Trochillini, generando árboles filogenéticos con métodos de máxima verosimilitud y bayesiano. Resultados: Los análisis filogénticos obtenidos confirmaron la ubicación de boucardi en Trochilini y definitivamente la excluyó del género Amazilia, pero la ubicó con un alto grado de confianza en el género Chrysuronia Bonaparte, 1850, dentro los cuales su pariente más cercano es C. coeruleogularis, que también habita manglares. Conclusiones: Nuestros datos genéticos basados en regiones nucleares y mitocondriales indican claramente la relación entre A. boucardi and L. coeruleogularis. Es más, lo anterior se sustenta por su distribución en los manglares de la costa Pacífica de Costa Rica y oeste de Panamá. Por lo tanto, sugerimos excluir a A. boucardi como "incertae sedis".
الموضوعات
Animals , Birds/classification , DNA/analysis , Phylogeny , Costa Rica , Genes, Mitochondrialالملخص
Resumen Introducción: El síndrome de Leigh (SL) es una enfermedad neurodegenerativa infrecuente que afecta principalmente a lactantes y a escolares, ocasionada por una mutación en genes involucrados en la vía de la fosforilación oxidativa y cuyo déficit produce una disfunción en el metabolismo energético mitocondrial. Clínicamente, se caracteriza por un rápido deterioro neurológico, hallazgos típicos en neuroimagen y marcadores bioquímicos que orientan en su reconocimiento. En la mayoría de los pacientes tiene un curso progresivo y mortalidad temprana. Presentación del caso: Se presenta el caso de una lactante de 5 meses que presenta perdida de los hitos del desarrollo. Los paraclínicos mostraron lactoacidosis, en neuroimagen necrosis nucleobasal, y la secuenciación genómica completa puso en evidencia una mutación homocigota del gen nuclear mitocondrial de la enzima 3-hidroxiisobutiril-CoA hidrolasa HIBCH. La paciente evolucionó con epilepsia refractaria, movimientos anormales, síndrome de West, apneas y falleció a los 10 meses de vida por insuficiencia respiratoria aguda. Discusión: El SL es con frecuencia una enfermedad rápidamente progresiva, que puede ser causada por errores innatos del metabolismo como la mutación del gen de la enzima HIBCH. El diagnóstico confirmatorio se hace con secuenciación exómica o genómica masiva y su manejo consiste en el tratamiento de los síntomas, modificaciones nutricionales, cuidado paliativo y consejería genético-reproductiva. Conclusión: El SL por mutaciones en el gen HIBCH es una enfermedad neurodegenerativa con síntomas variables, que afecta el desarrollo motor e intelectual. El diagnóstico se basa en biología molecular. El tratamiento actual busca aliviar síntomas y ajustar la nutrición, evidenciando desafíos inherentes a errores innatos del metabolismo.
Abstract Introduction: Leigh's syndrome (LS) is a rare neurodegenerative disease affecting mostly infants and scholar age children, caused by mutations in oxidation phosphorylation pathway related genes and leading to a mitochondrial dysfunction. Clinically, it is characterized by rapid neurological deterioration, typical neuroimaging findings and biochemical markers that guide its recognition. In most patients it has a progressive course and early mortality. Case description: Here we show a 5-months-old infant with developmental milestones regression. Lac-toacidosis was evident in labs, neuroimages had nucleobasal necrosis and whole genomic sequencing found a homozygous mutation in 3-hydroxyisobutyryl-CoA hydrolase HIBCH mitochondrial nuclear gene. The patient developed refractory epilepsy, abnormal movements, West'syndrome, apneas and death overcomes at 10-month of life by acute respiratory failure. Discussion: LS is often a rapidly progressive disease, which can be caused by inborn errors of metabolism such as mutation of the HIBCH enzyme gene. Confirmatory diagnosis is made with exome or massive genomic sequencing and its management consists of treatment of symptoms, nutritional modifications, palliative care and genetic-reproductive counseling. Conclusion: LS due to mutations in the HIBCH gene is a neurodegenerative disease with variable symptoms, affecting motor and intellectual development. Diagnosis is based on molecular biology. Current treatment seeks to alleviate symptoms and adjust nutrition, evidencing challenges inherent to inborn errors of metabolism.
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Abstract Introduction: Molecular divergence thresholds have been proposed to distinguish recently separated evolutive units, often displaying more accurate putative species assignments in taxonomic research compared to traditional morphological approaches. This makes DNA barcoding an attractive identification tool for a variety of marine invertebrates, especially for cryptic species complexes. Although GenBank and the Barcode of Life Data System (BOLD) are the major sequence repositories worldwide, very few have tested their performance in the identification of echinoderm sequences. Objective: We use COI echinoderm sequences from local samples and the molecular identification platforms from GenBank and BOLD, in order to test their accuracy and reliability in the DNA barcoding identification for Central American shallow water echinoderms, at genus and species level. Methods: We conducted sampling, tissue extraction, COI amplification, sequencing, and taxonomic identification for 475 specimens. The 348 obtained sequences were individually enquired with BLAST in GenBank as well as using the Identification System (IDS) in BOLD. Query sequences were classified depending on the best match result. McNemar's chi-squared, Kruskal-Wallis's and Mann-Whitney's U tests were performed to prove differences between the results from both databases. Additionally, we recorded an updated list of species reported for the shallow waters of the Central American Pacific. Results: We found 324 echinoderm species reported for Central American Pacific shallow waters. Only 118 and 110 were present in GenBank and BOLD databases respectively. We proposed 325 solved morphology-based identities and 21 provisional identifications in 50 putative taxa. GenBank retrieved 348 molecular-based identifications in 58 species, including twelve provisional identifications in tree taxa. BOLD recovered 170 COI identifications in 23 species with one provisional identification. Nevertheless, 178 sequences retrieved unmatched terms (in 34 morphology-based taxa). Only 86 sequences (25 %) were retrieved as correct identifications and 128 (37 %) as identification errors in both platforms. We include 84 sequences for eleven species not represented in GenBank and 65 sequences for ten species in BOLD Echinoderm COI databases. The identification accuracy using BLAST (175 correct and 152 incorrect identifications) was greater than with IDS engine (110 correct and 218 identification errors), therefore GenBank outperforms BOLD (Kruskal-Wallis = 41.625, df = 1, p < 0.001). Conclusions: Additional echinoderm sample references are needed to improve the utility of the evaluated DNA barcoding identification tools. Identification discordances in both databases may obey specific parameters used in each search algorithm engine and the available sequences. We recommend the use of barcoding as a complementary identification source for Central American Pacific shallow water echinoderm species.
Resumen Introducción: Se han propuesto los umbrales de divergencia molecular para distinguir unidades evolutivas recientemente separadas, que a menudo muestran asignaciones de especies putativas más precisas en la investigación taxonómica en comparación con los enfoques morfológicos tradicionales. Esto hace que los Códigos de Barras de ADN sean una herramienta de identificación atractiva para una variedad de invertebrados marinos, especialmente para complejos de especies crípticas. Aunque GenBank y Barcode of Life Data System (BOLD) son los principales repositorios de secuencias en todo el mundo, muy pocos han probado su desempeño en la identificación de secuencias de equinodermos. Objetivo: Utilizamos secuencias de equinodermos COI de muestras locales y las plataformas de identificación molecular de GenBank y BOLD, para probar su precisión y confiabilidad en la implementación de códigos de barras de ADN para equinodermos de aguas someras de Centroamérica, a nivel de género y especie. Métodos: Realizamos muestreo, extracción de tejido, amplificación de COI, secuenciación e identificación taxonómica de 475 especímenes. Las 348 secuencias obtenidas fueron consultadas individualmente con BLAST en GenBank así como utilizando el Sistema de Identificación (IDS) en BOLD. Las secuencias consultadas se clasificaron según el mejor resultado de coincidencia. Se realizaron las pruebas chi-cuadrado de McNemar, Kruskal-Wallis y U de Mann-Whitney para comprobar diferencias entre los resultados de ambas bases de datos. Además, registramos una lista actualizada de especies reportadas para las aguas someras del Pacífico Centroamericano. Resultados: Encontramos 324 especies de equinodermos reportadas para aguas someras (< 200 m) del Pacífico centroamericano. Sólo 118 y 110 estaban presentes en las bases de datos GenBank y BOLD respectivamente. Propusimos 325 identidades resueltas basadas en morfología y 21 identificaciones provisionales en 50 taxones putativos. GenBank recuperó 348 identificaciones de base molecular en 58 especies, incluidas doce identificaciones provisionales en tres taxones. BOLD recuperó 170 identificaciones de COI en 23 especies con una identificación provisional. Sin embargo, 178 secuencias recuperaron términos no coincidentes (en 34 taxones basados en morfología). Sólo 86 secuencias (25 %) se recuperaron como identificaciones correctas y 128 (37 %) como errores de identificación en ambas plataformas. Incluimos 84 secuencias para once especies no representadas en GenBank y 65 secuencias para diez especies ausentes en las bases de datos BOLD Echinoderm COI. La precisión de la identificación usando BLAST (175 identificaciones correctas y 152 incorrectas) fue mayor que con el motor IDS (110 correctas y 218 errores de identificación), por lo tanto, GenBank supera a BOLD (Kruskal-Wallis = 41.625, df = 1, p < 0.001). Conclusiones: Se necesitan muestras adicionales de equinodermos de referencia para mejorar la utilidad de las herramientas de identificación de códigos de barras de ADN evaluadas. Las discordancias de identificación en ambas bases de datos pueden obedecer a parámetros específicos utilizados en cada algoritmo de búsqueda y a las secuencias disponibles. Recomendamos el uso de códigos de barras como fuente de identificación complementaria para las especies de equinodermos de aguas someras del Pacífico centroamericano.
الموضوعات
Animals , DNA , Electronic Data Processing , Echinodermata/classification , Stratified Sampling , Costa Ricaالملخص
NLRP1, the first identified inflammasome-forming sensor, is thought to be involved in cancer, yet its definite function in lung adenocarcinoma (LUAD) remains unclear. Herein, we explored the expression and function of NLRP1 in LUAD. Decreased NLRP1 expression was identified in LUAD, which was associated with a poor prognosis. Overexpression of NLRP1 inhibited tumor growth in vitro and in vivo. Mechanically, this effect was observed regardless of inflammasome activation. Further studies revealed that overexpression of NLRP1 downregulated the phosphorylation of DRP1 and promoted mitochondrial fusion, which was mediated by inhibition of NF-κB activity. NF-κB agonist could neutralize the effect of NLRP1 on mitochondrial dynamics. In addition, LUAD sensitivity to cisplatin was enhanced by decreased mitochondrial fission resulting from up-regulated NLRP1. In conclusion, our findings demonstrated an unexpected role of NLRP1 in LUAD by modulating mitochondrial activities, which provides strong evidence for its potential in LUAD treatment.
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Objective:Glaucoma is a multifactorial optic neuropathy with a high rate of irreversible visual loss,and its pathogenesis is complex and still unclear.Elevated intraocular pressure(IOP)is well recognized as the sole modifiable risk factor for the development of glaucoma in the majority of cases.This study aims to compare 2 different methods of inducing chronic ocular hypertension by circumlimbal suture or by laser burns in degree and lasting time of the IOP,different status of the retina and retinal ganglion cells(RGCs),and changes of the microstructure of neurons. Methods:The chronic ocular hypertension models were induced by 2 different ways.One kind of the models was built by unilateral circumlimbal suture(10/0)implantation(suture group),another kind of model was built by laser burns at trabecular meshwork and episcleral veins(laser group).The untreated contralateral eye served as the control group.Changes in IOP were observed and regularly monitored in the 2 groups of rats.HE staining was applied to observe the retinal and optic nerve pathology.Transmission electron microscope(TEM)was used to observe the mitochondrial morphology.RGCs were specifically labeled with Brn3b antibody and counted.The expression of caspase-3 was detected by Western blotting to clarify the apoptosis of RGCs. Results:Compared with the control group,IOP were significantly increased in the suture group and the laser group(both P<0.05).The suture group induced a 1.5-fold elevation of IOP,and sustained for 8 weeks.The laser group induced a 2-fold elevation of IOP for 12 weeks.Both methods could cause RGCs loss(both P<0.05),which were verified by pathology and immune staining of Brn3b.The expressions of caspase-3 were also increased(both P<0.05).The mitochondrial morphology became more fragment,which changed from long shape to round and small one under TEM in 2 models.For comparison,the pathology changes of retinal structure in suture group were not obviously than those in the laser group. Conclusion:Circumlimbal suture can build an effective model of chronic elevated IOP and induce glaucomatous pathologic changes similar to those in the laser photocoagulation,but the pathologic changes are milder than those in laser photocoagulation.Compare with translimbal laser photocoagulation,equipment and skill demand for circumlimbal suture is less.
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Mitochondria are the main site of energy metabolism within cells,generating a substantial amount of ATP to supply energy to the human body.Research has shown that alterations in mitochondrial structure and function exist in individuals with schizophrenia,suggesting their potential impact on the onset of psychiatric disorders and clinical treatment efficacy.Therefore,understanding the research progress on the genetic mechanisms,pathological processes,image manifestations of schizophrenia and mitochondrial quality control,and summarizing the relevant evidence of mitochondrial-related targets as potential therapeutic targets for schizophrenia,can provide references for further research.
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Objective·To establish a prognostic model for the overall survival(OS)of hepatocellular carcinoma(HCC)based on mitochondrial genes and clinical information.Methods·The gene expression and the clinical data of 369 HCC patients and 50 controls with normal liver were downloaded from The Cancer Genome Atlas(TCGA)database.The nuclear-encoded mitochondrial genes(NEMGs)were obtained from the MitoCarta3.0 database.The"DESeq2"R package and univariate Cox analysis were used to select NEMGs[ubiquinol cytochrome C reductase hinge protein(UQCRH),ATP citrate lyase(ACLY),phosphoenolpyruvate carboxykinase 2(PCK2),Bcl-2 homologous antagonist/killer1(BAK1),Bcl-2-associated X protein(BAX)and Bcl-2/adenovirus E1B interacting protein 3-like(BNIP3L)]in HCC that were associated with OS of HCC and participated in dysregulation of oxidative phosphorylation,tricarboxylic acid cycle and cell apoptosis.Multivariate Cox analysis was applied to select independent risk factors for OS of HCC.A comprehensive prognostic model and a prognostic nomogram with 6-NEMG risk characteristics and TNM staging were established.By using the median of prognostic scores as a cut-off,HCC patients were classified into low-risk and high-risk group.Kaplan-Meier survival curve analysis was conducted and log-rank test was performed to evaluate the survival rates between the low-risk and high-risk group.The area under the curve(AUC)values of receiver operating characteristic(ROC)curve were calculated via using the"timeROC"package.The prognostic model for HCC was validated by using the GEO HCC cohort(GSE14520)for 1,3 and 5 years.Finally,the relative expression level of 6-NEMG was validated in 34 clinical samples of HCC from Xinhua Hospital,Shanghai Jiao Tong University School of Medicine by using real-time quantitative polymerase chain reaction(qPCR)method.Results·Compared to 6-NEMG risk signature only(AUCs for 1,3 and 5 years were 0.77,0.66 and 0.65,respectively)or TNM stage only(AUCs for 1,3 and 5 years were 0.66,0.67 and 0.63,respectively),ROC curve analysis showed that this integrated prognostic model displayed better predictive performance for 1-year(AUC,0.78),3-year(AUC,0.73)and 5-year(AUC,0.69)OS of HCC.The Kaplan-Meier survival curve analysis showed that the OS of HCC patients in the high-risk group was significantly worse than that in the low-risk group(P=0.001).In addition,predictive performance of the prognostic model(AUC for 1,3 and 5 years is 0.67,0.66 and 0.74,respectively)and prognostic differences between the high-risk and low-risk group(P=0.001)were further validated in GEO(GSE14520)external cohort,and these results were consistent with the TCGA data.In addition to BNIP3L,dysregulation of five other NEMGs in the clinical HCC cohort was validated.The correlation analysis in GSE14520 and HCC clinical cohort showed a positive correlation between prognosis score and the size and number of tumors.Conclusion·A new prognostic model that combines 6-NEMG risk characteristics with TNM staging for predicting OS in HCC patients was constructed and validated.This model may help improve the prognosis prediction of HCC patients.
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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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Post-stroke cognitive impairment(PSCI),refers to a range of clinical syndromes of cognitive impairment caused by stroke.Although its specific pathogenesis is still unclear,many studies have confirmed that endoplasmic reticulum-mitochondria interaction has become a key hub for intracellular signal transduction and substance metabolism,and its regulation of various biological processes,such as Ca2+ balance,lipid metabolism,mitochondrial dynamics,autophagy,and neuroinflammation,is closely related to the development of PSCI.There-fore,in this paper,we will review the various functions of endoplasmic reticulum-mitochondrial interactions and explore their specific roles in PSCI,in order to discover new therapeutic targets and provide new theoretical basis and references for the development of PSCI-targeted drugs in the future.
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BACKGROUND:At present,many drugs used in the treatment of polycystic ovary syndrome are super-designated drugs,and the treatment of patients with polycystic ovary syndrome still faces great challenges.Studies have shown that human umbilical cord mesenchymal stem cells can repair ovarian function,but few studies have reported their therapeutic effect on polycystic ovary syndrome. OBJECTIVE:To investigate the therapeutic effect of human umbilical cord mesenchymal stem cells on polycystic ovary syndrome,and to preliminarily explore the correlation between mitochondrial autophagy and the improvement of polycystic ovary syndrome by human umbilical cord mesenchymal stem cells. METHODS:Polycystic ovary syndrome mouse model was established by subcutaneous injection of dehydroepiandrosterone for 20 days into C57BL/6J mice.Human umbilical cord mesenchymal stem cells(2×106)were injected through the caudal vein.After treatment,vaginal secretions were collected for 10 consecutive days to detect the estrus cycle of mice.At 2 weeks after treatment,the levels of sex hormones in the peripheral blood of mice,including luteinizing hormone and follicle-stimulating hormone,were detected by ELISA.Hematoxylin-eosin staining was used to evaluate ovarian histopathology.Finally,mitochondrial autophagy in ovaries was observed by transmission electron microscopy. RESULTS AND CONCLUSION:(1)After human umbilical cord mesenchymal stem cell therapy,follicles at different stages(primitive follicles,primary follicles,and secondary follicles)appeared in the ovary of polycystic ovary syndrome mice,and luteal tissue could be seen,indicating that ovulation function of mice was effectively improved.(2)Polycystic ovary syndrome mice treated with human umbilical cord mesenchymal stem cells had sex hormone levels.(3)Untreated polycystic ovary syndrome mice were found to be in the estrous stage for a long time,lacking estrous interphase and estrous phase,but after human umbilical cord mesenchymal stem cell therapy,the estrous cycle returned to a normal level.(4)After treatment with human umbilical cord mesenchymal stem cells,the mitochondrial autophagy of polycystic ovary syndrome mice was significantly reduced.(5)The results show that human umbilical cord mesenchymal stem cells can effectively improve the symptoms of endocrine disorders and promote ovulation in polycystic ovary syndrome mice,which may be related to the inhibition of mitochondrial autophagy.
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BACKGROUND:Cardiac hypertrophy is an adaptive response of the heart to physiological and pathological stimuli such as pressure overload.It is of compensatory significance in the early stage,but if the stimulation continues,it can cause cardiomyopathy leading to heart failure.MicroRNAs are involved in the regulation of cardiac hypertrophy.However,the role of miR-20a in pressure overload-induced cardiac hypertrophy has not been reported. OBJECTIVE:To investigate the role of miR-20a in pressure overload-induced cardiac hypertrophy and the underlying mechanisms. METHODS:Transverse aortic constriction was used to induce cardiac hypertrophy in vivo and angiotensin Ⅱ was used to induce H9c2 cell models of cardiac hypertrophy in vitro.MiR-20a was overexpressed in vivo by intramyocardial injection of miR-20a overexpressing adenovirus and in vitro by transfecting miR-20a mimic into H9c2 cells.Cardiac hypertrophy was assessed by measuring heart weight/body weight ratio,cell surface area,and myocardial fibrosis.The expression levels of atrial natriuretic peptide,brain natriuretic peptide,β-myosin heavy chain and miR-20a were detected by real-time fluorescence quantitative PCR.Mitochondrial fission was detected by MitoTracker.The downstream target genes of miR-20a were predicted by RNAhybrid software. RESULTS AND CONCLUSION:(1)The expression level of miR-20a was significantly decreased in both hypertrophic cardiomyocytes and hearts(P<0.05).(2)At the animal level,overexpression of miR-20a significantly inhibited transverse aortic constriction-induced cardiac hypertrophy,including decreasing the upregulated expression level of hypertrophic marker genes(P<0.05),reduced the enlarged heart volume,reducing the increased heart weight/body weight ratio(P<0.01),reducing the increased myocardial cross-sectional area(P<0.05),and attenuating fibrosis(P<0.01).(3)At the cellular level,overexpression of miR-20a significantly inhibited angiotensin Ⅱ-induced cardiomyocyte hypertrophy,including decreasing the upregulated expression levels of atrial natriuretic peptide(P<0.05),brain natriuretic peptide(P<0.01)and β-myosin heavy chain(P<0.05),reducing the increased protein/DNA ratio(P<0.01),and suppressing the increased cell surface area(P<0.05).(4)Overexpression of miR-20a significantly inhibited angiotensin Ⅱ-induced mitochondrial fission(P<0.05).(5)The results of RNAhybrid software analysis showed that miR-20a and the mRNA 3'untranslated region of cAMP-dependent protein kinase inhibitor alpha were well complementary and the predicted binding sites were highly conserved.(6)In conclusion,miR-20a is significantly down-regulated in pressure overload-induced cardiac hypertrophy.Overexpression of miR-20a inhibits cardiac hypertrophy at both the cellular level and animal level and attenuates angiotensin Ⅱ-induced mitochondrial fission.
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BACKGROUND:Mitochondrial quality control is a complex process,which involves three aspects:mitochondrial biogenesis,mitochondrial dynamics change and mitochondrial autophagy,among which mitochondrial dynamics change is the intermediate link between mitochondrial biogenesis and mitochondrial autophagy.Mitochondria can improve their own quality control through dynamics change and then maintain their stable state. OBJECTIVE:To explore the molecular mechanism underlying the influence of exercise on mitochondrial dynamics,so as to provide theoretical basis for improving mitochondrial network homeostasis and promoting functional health. METHODS:Using the method of literature review,CNKI,Bailianyun Library,PubMed,Web of Science,EBCSO were searched for relevant literature with the keywords of"Exercise,Mitochondrial Steady State,Mitochondrial Quality Control,Mitochondrial Dynamics,Mitochondrial Fusion and Mitochondrial Division"in Chinese and English.The finally obtained literature was screened,read,and summarized. RESULTS AND CONCLUSION:Dynamin-related proteins 1/2 are responsible for mitochondrial fission,while mitofusins 1/2 and optic atrophy type 1 mediate the fusion of outer membrane and inner mitochondrial membranes respectively.Exercise training can improve the function of mitochondria by up-regulating the protein expression of mitofusins 1/2 and optic atrophy type 1 and down-regulating the protein expression level of dynamin-related protein 1,promoting mitochondrial fusion and inhibiting mitochondrial fission.The findings that a single acute exercise affects changes in mitochondrial dynamics are controversial.Furthermore,there is tissue variability in exercise-mediated changes in mitochondrial dynamics.
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BACKGROUND:The sclerotic zone in the femoral head is an important imaging feature in the progression of steroid-induced femoral head necrosis,which is associated with disease prognosis.Peroxisome proliferator-activated receptor γ coactivator 1α(PGC-1α)has been shown to possess biological activities such as osteogenesis,angiogenesis and anti-mitochondrial apoptosis,which may be closely related to bone repair of steroid-induced femoral head necrosis. OBJECTIVE:To screen for the differential proteins in the sclerotic zone of steroid-induced osteonecrosis of the femoral head versus the normal zone,to screen for hub proteins in the sclerotic zone,and to verify the differential expression of hub proteins in the femoral head specimens following steroid-induced femoral head necrosis,and to to explore the repair pattern of the sclerotic zone following steroid-induced femoral head necrosis. METHODS:Femoral head samples were collected from patients with steroid-induced osteonecrosis of the femoral head receiving total hip arthroplasty.The differentially expressed genes in the sclerotic zone and the normal zone were screened by Tandem Mass Tags and analyzed by GO and KEGG signaling pathways to construct a protein-protein interaction network and screen hub genes.In addition,the expression of hub genes in the sclerotic zone was verified by immunohistochemistry and western blot. RESULTS AND CONCLUSION:Quantitative protein profiling by Tandem Mass Tags revealed that 609 proteins were significantly differentially expressed(Log2FC>1.20,Log2FC<0.84 and P<0.05)in the sclerotic zone of the femoral head compared with the normal zone,of which 290 proteins were upregulated and 319 proteins were downregulated.The GO and KEGG pathway enrichment analyses revealed that among the top 10 enriched pathways,Wnt signaling pathway and life-cycle regulatory pathway were closely related to bone repair;in the life-cycle regulatory pathway,PGC-1α was one of the important proteins.In addition,western blot results verified the low expression of PGC-1α and NRF1 in the sclerotic zone and high expression of Cleaved Caspase-3 in the sclerotic zone compared with the normal zone of steroid-induced femoral head necrosis specimens.Light microscopic immunohistochemical results showed the distribution of PGC-1α,NRF1 and Cleaved Caspase-3 positive expression in the sclerotic and normal zones in the femoral head tissue specimens,indicating the presence of their expression in bone trabeculae,osteoblasts and bone marrow.In contrast,the brown area of the sclerotic zone of femoral head necrosis stained darker and showed more obvious expression of Cleaved Caspase-3.To conclude,in the sclerotic zone of steroid-induced femoral head necrosis,biological behaviors including activation of osteogenesis-related pathways such as Wnt and oxidative apoptosis characterized by low expression of PGC-1 are observed.Low expression of PGC-1α in the sclerotic zone of steroid-induced femoral head necrosis may be associated with the activation of oxidative apoptosis.
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BACKGROUND:Aging is associated with increased susceptibility to cardiovascular disease,and mitochondrial dysfunction plays a key role in the pathogenesis of cardiovascular disease.Regular physical activity is beneficial to cardiovascular health and can prevent and treat chronic heart disease.However,the specific mechanism of mitochondria in the protective effect of exercise on the aging heart has not yet been clarified. OBJECTIVE:To explore the effect of aerobic exercise on cardiac pathological remodeling in aging rats and to investigate the possible mechanism of mitochondrial quality control system. METHODS:Sixty Wistar rats were randomly divided into young sedentary group(6 months old),old sedentary group(20 months old)and old exercise group(20 months old)with 20 rats in each group.Rats in the young sedentary and old sedentary groups were fed in cages for 12 weeks,while those in the old exercise group underwent moderate-intensity aerobic treadmill exercise(60%of the maximal running speed,slope 0°,60 minute per day,5 days per week)for 12 weeks.After the experiment,the heart was extracted for relevant indicator tests. RESULTS AND CONCLUSION:Cardiac morphology and myocardial histopathology:compared with the young sedentary group,the rats in the old sedentary group presented with concentric cardiac hypertrophy,myocardial fibrosis,myocardial cell apoptosis and loss,and cardiac diastolic dysfunction(P<0.05);compared with the old sedentary group,animals in the old exercise group showed reduced myocardial fibrosis and apoptosis rates,increased cell numbers,improved cardiac function(P<0.05),and a transition in cardiac phenotype from pathological to physiological hypertrophy.Mitochondrial function:compared with the young sedentary group,the generation rate of mitochondrial hydrogen peroxide increased(P<0.05),respiration rate and respiratory control ratio of state 3 and state 4 decreased(P<0.05),activities of respiratory chain complexes Ⅰ,Ⅱ and Ⅳ decreased(P<0.05),mitochondrial calcium retention capacity decreased(P<0.05),and mitochondrial permeability transition pore opening increased(P<0.05)in the old sedentary group.Compared with the old sedentary group,all of the above indicators were significantly improved in the old exercise group(P<0.05).Mitochondrial quality control:compared with the young sedentary group,mitochondrial biogenesis decreased(P<0.05),mitophagy activity increased(P<0.05),mitochondrial fusion reduced(P<0.05),and fission raised(P<0.05)in the old sedentary group;compared with the old sedentary group,mitochondrial biogenesis and mitophagy activity increased(P<0.05),mitochondrial fusion raised(P<0.05)and fission decreased(P<0.05)in the old exercise group.To conclude,regular aerobic exercises exert cardioprotective effects in aging rats by regulating the mitochondrial quality control system,thus reversing pathological cardiac remodeling and improving cardiac function.
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BACKGROUND:Diabetic osteoporosis is gaining public attention.However,few studies have reported the effect of a high-glucose environment on the osteogenic differentiation of human umbilical cord mesenchymal stem cells and the corresponding therapeutic strategies. OBJECTIVE:To investigate whether vitamin D3 can restore the osteogenic differentiation potential of human umbilical cord mesenchymal stem cells in a high-glucose environment. METHODS:The viability of human umbilical cord mesenchymal stem cells was detected by CCK-8 assay to screen the appropriate vitamin D3 intervention concentration.Under the high-glucose environment,RT-qPCR,western blot assay,immunofluorescence,JC-1 mitochondrial membrane potential,alizarin red staining,and β-galactosidase staining were used to evaluate the osteogenic differentiation potential,intracellular reactive oxygen species accumulation,mitochondrial membrane potential alteration,and cell senescence of human umbilical cord mesenchymal stem cells after vitamin D3 intervention.The underlying mechanism was also discussed. RESULTS AND CONCLUSION:(1)Vitamin D3 significantly promoted the proliferation of human umbilical cord mesenchymal stem cells in the range of 0.1 μmol/L to 1 mmol/L.(2)High-glucose environment down-regulated the mRNA and protein level expressions of osteogenic-related genes α1-I collagen,alkaline phosphatase,Runt-associated transcription factor 2,and osteocalcin in human umbilical cord mesenchymal stem cells,which induced oxidative stress and cellular senescence.(3)Vitamin D3 at an intervention concentration of 10 μmol/L significantly restored the osteogenic phenotype of human umbilical cord mesenchymal stem cells under high-glucose conditions and attenuated intracellular oxidative stress and cellular senescence by activating the Nrf2/HO-1 signaling pathway.(4)These findings suggested that the osteogenic differentiation ability of human umbilical cord mesenchymal stem cells was reduced in the high-glucose environment,and vitamin D3 could partially improve their osteogenic differentiation ability and reduce cell damage.
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BACKGROUND:Current studies have confirmed that Ganoderma lucidum polysaccharides can promote nerve regeneration in neurodegeneration-related diseases.The occurrence of neurodegenerative diseases is closely related to mitochondrial dysfunction,but the role of Ganoderma lucidum polysaccharides on the regulation of apoptosis and mitochondrial function in neurodegenerative diseases is not yet clarified. OBJECTIVE:To explore the regulatory effects and mechanisms of Ganoderma lucidum polysaccharides on apoptosis and mitochondrial dysfunction in H2O2-induced SH-SY5Y cells. METHODS:SH-SY5Y cells were divided into three groups:control group,H2O2 group,and Ganoderma lucidum polysaccharides group.Cells in the control group were normally cultured.Cells in the H2O2 group were treated with 300 μmol/L H2O2 for 24 hours.In the Ganoderma lucidum polysaccharides group,the intervention with 300 μg/L Ganoderma lucidum polysaccharides was conducted first for 1-2 hours,followed by the addition of 300 μmol/L H2O2 for 24 hours.The mitochondrial membrane potential was detected by JC-1 kit.Apoptosis was detected by TUNEL staining kit.The activities of malondialdehyde and superoxide dismutase were detected by malondialdehyde test kit and superoxide dismutase test kit,respectively.The apoptosis and expression of mitochondrial dynamics-related proteins were detected by immunofluorescence staining and western blot assay. RESULTS AND CONCLUSION:(1)Compared with the control group,the mitochondrial membrane potential and superoxide dismutase activity were significantly reduced,as well as apoptotic rate and malondialdehyde levels were significantly increased in the H2O2 group(P<0.05).After treatment with Ganoderma lucidum polysaccharides,the membrane potential and superoxide dismutase activities were significantly increased,and apoptotic rate and malondialdehyde levels were significantly reduced compared with the H2O2 group(P<0.05).(2)The expression levels of pro-apoptotic proteins Bax and Caspase-3 were significantly increased,but the expression of anti-apoptotic protein Bcl-2 was significantly decreased in the H2O2 group compared with the control group(P<0.05).Compared with the H2O2 group,the levels of Bax and Caspase-3 were significantly decreased,but the expression of anti-apoptotic protein Bcl-2 was significantly increased in the Ganoderma lucidum polysaccharides group(P<0.05).(3)Compared with the control group,the expression of mitochondrial splitting proteins Fis1 and p-Drp1 was significantly increased,but the expression of mitochondrial fusion proteins OPA1,Mfn1,and Mfn2 was decreased in the H2O2 group(P<0.05).Compared with the H2O2 group,Fis1 and p-Drp1 expression was significantly reduced,but the expression levels of OPA1,Mfn1,and Mfn2 were significantly increased in the Ganoderma lucidum polysaccharides group(P<0.05).(4)The above results confirm that Ganoderma lucidum polysaccharides can attenuate H2O2-induced oxidative stress damage and apoptosis in SH-SY5Y cells by ameliorating mitochondrial dysfunction.
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BACKGROUND:Most of the formulas for the clinical treatment of premature ovarian insufficiency have evolved from the basic formula of Liuwei Dihuang Pills,and have achieved good therapeutic efficacy.Currently,most of the experimental studies on Liuwei Dihuang Pills focus on morphological observations and physiological and biochemical detection of in vivo animal models,while fewer studies on molecular mechanisms have been reported. OBJECTIVE:To explore the molecular mechanism of Liuwei Dihuang Pills in the treatment of premature ovarian insufficiency based on the receptor gamma coactivator-1 alpha/mitochondrial transcription factor A/reactive oxygen species pathway. METHODS:Premature ovarian insufficiency model was established in mice by intraperitoneal injection of cyclophosphamide 120 mg/kg combined with busulfan 12 mg/kg,and then Liuwei Dihuang Pill suspension was used to intervene in premature ovarian insufficiency mice.After 12 weeks of intervention,the levels of follicle-stimulating hormone,luteinizing hormone,estradiol,anti-Mullerian hormone,8-hydroxydeoxyguanosine,total antioxidant capacity and reactive oxygen species in serum of mice were detected by ELISA method.The morphological changes in mouse ovaries were observed by hematoxylin-eosin staining.The ultrastructure of mouse follicular granulosa cells and the apoptosis of granulosa cell mitochondria were observed by transmission electron microscopy.The expression levels of receptor gamma coactivator-1 alpha and mitochondrial transcription factor A in mouse ovarian granulosa cells were detected by immunohistochemistry. RESULTS AND CONCLUSION:Compared with the model group,serum levels of follicle-stimulating hormone,luteinizing hormone,reactive oxygen species,and 8-hydroxydeoxyguanosine were decreased in the experimental group(P<0.05),and the levels of estradiol,anti-Mullerian hormone,and total antioxidant capacity were increased(P<0.05).Hematoxylin-eosin staining showed that in the model group,there were more atretic follicles and corpus luteum forms,some secondary follicles,and interstitial fibrosis and hyperplasia;in the experimental group,a large number of atretic follicles,few corpus luteum forms,primordial follicles were observed at the edges but there were few secondary follicles and no mature follicles.Transmission electron microscopy showed that the organelles in ovarian granulosa cells of mice in the experimental groups were relatively intact.Immunohistochemical results showed that compared with the model group,the expression level of receptor gamma coactivator-1 alpha in the ovarian tissue of mice increased slightly in the experimental group at the 4th week,and there was no significant change at the 8th and 12th weeks.The expression level of mitochondrial transcription factor A in the ovarian tissues of mice in the experimental group was transiently increased at the 4th week,and then slightly decreased,which were all significantly different from those of the model group.To conclude,Liuwei Dihuang Pills inhibit ovarian granulosa cell apoptosis in mice with premature ovarian insufficiency to a certain extent through the receptor gamma coactivator-1 alpha/mitochondrial transcription factor A/reactive oxygen species signaling pathway,thereby improving the endocrine function of the ovary,enhancing the antioxidant capacity,and attenuating the degree of oxidative stress damage.
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BACKGROUND:Sarcopenia is an age-related degenerative syndrome,and the relationship between mitochondrial autophagy and exercise in preventing and treating sarcopenia has been demonstrated.However,there is a lack of comprehensive reviews detailing the specific receptor proteins and signaling pathways involved in the role of exercise in sarcopenia prevention and treatment. OBJECTIVE:To comprehensively introduce the specific receptor proteins and signaling pathways related to mitochondrial autophagy and their role in the prevention and treatment of sarcopenia through exercise. METHODS:A literature search was conducted between February 1,2023,and April 1,2023,covering literature from database inception to April 2023.Databases included the Web of Science,PubMed,China National Knowledge Infrastructure(CNKI),WanFang Data,and VIP.Keywords used for the search included sarcopenia,muscle wasting,aging,elderly,mitochondria,mitochondrial function,proteins,pathways,and others.After strict inclusion and exclusion criteria,76 articles were ultimately included. RESULTS AND CONCLUSION:Sarcopenia is a disease characterized by a decline in muscle mass and function with age,and its pathogenesis involves neuro-muscular functional decline,chronic inflammation,acid-base imbalance,and mitochondrial dysfunction.Mitochondrial autophagy is an important process for clearing damaged mitochondria in cells,in which receptor proteins and signaling pathways are involved in the regulation of mitochondrial autophagy.Exercise can promote the occurrence of mitochondrial autophagy by regulating the activity of these receptor proteins and signaling pathways,thereby playing an important role in the prevention and treatment of sarcopenia.Exercise can induce mitochondrial autophagy in sarcopenia by upregulating AMPK,phosphorylating ULK1,and reducing mitochondrial energy,enhancing the expression of mitochondrial autophagy-related proteins associated with AMBRA1,and regulating the PINK1/Parkin pathway,to improve mitochondrial dysfunction caused by sarcopenia.In addition,exercise can activate the mTOR pathway to promote muscle growth and increase glucose uptake,thereby preventing and treating sarcopenia.Future studies are needed to further investigate the specific mechanisms and regulatory pathways of mitochondrial autophagy-related receptor proteins and signaling pathways in the prevention and treatment of sarcopenia by exercise,and to conduct more clinical trials in humans,thereby to promote further development in this field.
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BACKGROUND:Parkinson's disease is a neurodegenerative disease,and its pathogenesis involves mitochondrial dysfunction.Exercise has a potential ameliorative effect on mitochondrial dysfunction related to Parkinson's disease,but there is no comprehensive review and in-depth analysis in this field. OBJECTIVE:To comprehensively review and analyze mitochondrial dysfunction related to Parkinson's disease and the potential ameliorative effect of exercise,thereby providing new ideas and methods for the treatment and prevention of Parkinson's disease. METHODS:We searched the Web of Science,PubMed,CNKI,WanFang,and VIP databases with the keywords of"mitochondria,mitochondrial function,mitochondrial disease,mitochondrial dysfunction,Parkinson's disease,Parkinson,exercise,physical activity,exercise training,exercise therapy,mitochondrial impairment,mitochondrial damage,mitochondrial defects"in Chinese and"mitochondria,Parkinson's disease,Parkinson disease,physical exercise,exercise,physical activity,mitochondrial dysfunction,mitochondrial damage,mitochondrial impairment,athletic training,exercise training,rehabilitation"in English.A total of 89 articles were included for review and analysis. RESLUTS AND CONCLUSION:Parkinson's disease is closely related to mitochondrial dysfunction,including mitochondrial biogenesis inhibition,reduced autophagy,increased apoptosis,abnormal elevation of Ca2+ concentration,and increased oxidative stress in Parkinson's disease patients.Exercise has a positive effect on mitochondrial dysfunction related to Parkinson's disease,by promoting mitochondrial biogenesisand autophagy,regulating mitochondrial morphology,altering the plasticity of the mitochondrial respiratory chain,and reducing oxidative stress,thus helping to improve the development and progression of Parkinson's disease.However,the detailed mechanism between mitochondrial dysfunction and the ameliorative effect of exercise is still not fully understood,and future clinical studies can be conducted to validate the results of animal models and gain insights into the benefits and mechanisms of exercise in patients with Parkinson's disease.