Objective To explore the effects of drugs on functions of mitochondria in retinal nerve cells, and to lay a foundation of the investigation of drug protection for retinal nerve cells. Methods Cultivation of the retinal nerve cells of 8 eyes of neonatal calves was performed. The changes of fluorescent density of the mitochondria of cultured cells labeled by dye rhodamine 123 (Rh123) before and after the activation of the medicines, including ferulic acid (FA), arginine, glycine,taurine, vitamine E and brain derived neurotrophic factor( BDNF) respectively, were detected by laser-scanning confocal microscopy. Results FA with the concentration of 500 μg/ml led the diphasic variation of the fluorescent intensity of mitochondria. After scanning for 60.772 seconds when treated with FA firstly, the fluorescent intensity decreased rapidly (from 45.425±4.153 to 22.135±5.293); while after 112.774 seconds when treated secondly, the in tensity increased obviously (from 19.655±4.383 to 28.247±4.764), and after 168.773 seconds when treated thirdly the intensity still increased. After scanning for 56.457 seconds when treated with vitamin E (12.5 mg/ml), the fluorescent in tensity increased obviously (from 88.255±5.039 to 111.273±4.529), which suggested that vitamin E with the concentration of 12.5 mg/ml strengthen the fluorescent intensity. After scanning for 58.147 and 134.148 seconds when treated with BDNF(50 ng/ml) respectively, the fluorescent intensity increased obviously (from 69.115±5.038 to 77.225±5.131) which suggested that BDNF with the concent ration of 50 ng/ml led the increase of the fluorescent intensity. Glycine (2.5 mg/ml) and arginine(30 mg/ml) didn’t affect the fluorescent intensity of mitochondria, and taurine (6.25 mg/ml) caused the appreciable decrease of the fluorescent intensity . Conclusion FA, BDNF and vitamin E may promote the metabolism of retinal nerve cells via the path of mitochondria, while amino acids may adjust the activation of retinal nerve cells through other ways. (Chin J Ocul Fundus Dis,2004,20:229-232)
Alzheimer’s disease (AD) is the most common degenerative disease of the nervous system. Studies have found that the 40 Hz pulsed magnetic field has the effect of improving cognitive ability in AD, but the mechanism of action is not clear. In this study, APP/PS1 double transgenic AD model mice were used as the research object, the water maze was used to group dementia, and 40 Hz/10 mT pulsed magnetic field stimulation was applied to AD model mice with different degrees of dementia. The behavioral indicators, mitochondrial samples of hippocampal CA1 region and electrocardiogram signals were collected from each group, and the effects of 40 Hz pulsed magnetic field on mouse behavior, mitochondrial kinetic indexes and heart rate variability (HRV) parameters were analyzed. The results showed that compared with the AD group, the loss of mitochondrial crest structure was alleviated and the mitochondrial dynamics related indexes were significantly improved in the AD + stimulated group (P < 0.001), sympathetic nerve excitation and parasympathetic nerve inhibition were improved, and the spatial cognitive memory ability of mice was significantly improved (P < 0.05). The preliminary results of this study show that 40 Hz pulsed magnetic field stimulation can improve the mitochondrial structure and mitochondrial kinetic homeostasis imbalance of AD mice, and significantly improve the autonomic neuromodulation ability and spatial cognition ability of AD mice, which lays a foundation for further exploring the mechanism of ultra-low frequency magnetic field in delaying the course of AD disease and realizing personalized neurofeedback therapy for AD.
Leber’s hereditary optic neuropathy (LHON) is a paradigm maternal hereditary eye disease, mainly involving the retinal and macular fibers of the optic disc in the anterior ethmoid plate of the sclera. LHON has the characteristics of sex bias among males and incomplete penetrance. Primary mitochondrial DNA mutations m.11778G>A, m. 14484T>C, m.3460G>A are the molecular basis of LHON. However, other risk factors, such as secondary mitochondrial DNA mutations, mitochondrial haplotypes, nuclear modification genes, estrogen, vitamin B12 and environmental factors, work together to affect its phenotypic expression. The clinical diagnosis of LHON mainly limited to the detection of the primary mutation site of mitochondrial DNA. Therefore, comprehensive analysis of multiple risk factors of LHON will facilitate to construct multi-dimensional model of prevention, diagnosis and treatment system, which provide accurate and individualized medical services for patients. These may alleviate the incidence in LHON families. It also provides new ideas and different angles for the in-depth study of the pathogenesis of LHON.
Augmenter of liver regeneration (ALR) is a newly discovered cytokine that can promote liver regeneration and proliferation of damaged liver cells. In the renal tissue, ALR is mainly expressed in the cytoplasm of the medullary loops, collecting ducts and distal convoluted tubules in the renal medulla, and is low in the glomerular and cortical tubules. Various stimulation, such as ischemiacal, hypoxia, poisoning and inflammatory stimulation, can induce the expression of ALR in the epithelial cells of proximal tubule regeneration and the damaged areas of cortex, and participate in the repair process. Current studies have found that in acute kidney injury (AKI), exogenous ALR can protect renal tubular epithelial cells by inhibiting apoptosis of renal tubular epithelial cells, promoting proliferation of renal tubular epithelial cells, inhibiting the activities of inflammatory cells, and promoting the reduction of renal injury. This paper intends to review the basic characteristics of ALR and the pathogenesis of AKI, summarize the characteristics of the mechanism of ALR in AKI by combing the relevant literature on ALR and AKI in recent years, and provide knowledge reserve and direction reference for the in-depth study of ALR in kidney in the future.
Mitochondrial quality control includes mechanisms such as mitochondria-derived vesicles, fusion / fission and autophagy. These processes rely on the collaboration of a variety of key proteins in the inner and outer membranes of mitochondria to jointly regulate the morphological structure and functional integrity of mitochondria, repair mitochondrial damage, and maintain the homeostasis of their internal environment. The imbalance of mitochondrial quality control is associated with leukemia. Therefore, by exploring the mechanisms related to mitochondrial quality control of various leukemia cells and their interactions with immune cells and immune microenvironment, this article sought possible targets in the treatment of leukemia, providing new ideas for the immunotherapy of leukemia.
Objective To explore the relationship between microsatellite instability (MSI) and gastric cancer. Methods The related literatures at home and abroad were consulted and reviewed. Results The MSI is the replication errors caused by mismatch repair system defects. Gastric cancer which exhibiting MSI has characteris clinicopathological feature and prognosis. Detection the MSI of precancerous lesions and gastric cancer tissues can evaluate the risk and prognosis of gastric cancer. MSI include nuclear microsatellite stability (nMSI) and mitochondrial microsatellite instability (mtMSI). Conclusions MSI plays an important role in the occurrence and development of gastric cancer. MSI may become a important indicator to forecast precancerosis risks and clinical prognosis of gastric cancer.
Objective To observe the retinal manifestations and classification of mitochondrial encephalomyopathy,and explore the relationship between retinopathy and systemic manifestations.Method The clinical data of 88 inpatients with mitochondrial encephalomyopathy were retrospectively analyzed,in whom 12 patients(24 eyes)with retinal manifestations who diagnosed by ophthalmology consultation and complete medical records were collected. There were nine males and three females aged from 14 to 33 years with the mean age of(20.1±7.0)years. The disease duration ranged from 2.5 to 20 years,with the mean of(9.5±6.8)years. All the patients had the eye symptoms of the different degree,such as limbs weakness,hearing decline and central nervous system symptoms. Ophthalmologic examination including best corrected visual acuity,slit lampa microscope,indirect ophthalmoscopy,noncontact Tonometer,ptosis,ocular movement,pupillary reflex and color fundus photography. Among the patients,three,one,two and five patients had undergone fundus fluorescein angiography(FFA),optical coherence tomography(OCT),lectroretinogram(ERG)and visual field examination respectively. Diabetic retinopathy were divided into “salt and pepper”, retinitis pigmentosa(RP),retinal pigment epithelium(RPE),choroidal capillary atrophy and simplex optic atrophy according to the inspection results.Results All the patients′ both eyes were involved,the disease degree of bilateral eyes was accordant. The ptosis and(or)eye movement limitation were found in nine patients(75.0%),and decreased visual acuity was in six patients(50.0%).“Salt and pepper” was found in six patients(12 eyes),presenting retinal granular pigmentation and depigmentation;the visual acuity was 0.4-1.2;no central nervous system symptoms were found in patients,such as hearing decline,twitch,ataxia and hypophrenia. RP was found in one patient(two eyes),presenting retinal cells sample pigmentation,retinal vessel shrink,optic atrophy;the vision were light perception in both eyes;hypophrenia,hearing decline,bilateral lower limbs pain and onset twitch were also found in them. RPE and choroidal capillary atrophy were found in three patients(six eyes),the choroidal great vessels and flake pigment accumulation surrounding the retina were observed;the visual acuity was hand movement0.7;limbs weakness was found in two patients;hearing decline was found in three patients;barylalia and hypophrenia were found in two patients;somnolence was found in one patient. Simplex optic atrophy was found in two patients(four eyes);the vision was 0.1-0.7;central nervous system symptoms were found in patients,such as limbs weakness,twitch,hypophrenia and headache.Conclusion Retinopathy types is concerned with visual prognosis and central nervous system symptoms.
ObjectiveTo investigate the expression of mitochondrial transcription factor A (TFAM) in colon cancer and the effect of its expression on proliferation of colon cancer cell. MethodsThirty cases of colon cancer in the First Affiliated Hospital of Sun Yat-sen University from March 2013 to April 2013 were studied. TFAM mRNA was detected both in colon cancer tissue and para-cancer tissue by real-time PCR. TFAM mRNA and protein were detected in normal colon cell strain and colon cancer strains SW480, HT-29, and HCT116 by real-time PCR and Western blot, respectively. The proliferation of SW480 cells was evaluated after up-regulating TFAM. ResultsThe expression of TFAM mRNA in the colon cancer tissue was significantly higher than that in the para-cancer tissue (P < 0.000 1). The expressions of TFAM mRNA were obviously increased in the SW480, HT-29, and HCT116 cells as compared with the normal colon cell strain (P value was 0.000 8, 0.002 3, and 0.000 6, respectively), among which the most notable increase was detected in the SW480 cells. The expressions of TFAM protein were obviously increased in the SW480, HT-29, and HCT116 cells as compared with the normal colon cell strain (P value was 0.000 2, 0.003 8, and 0.001 6, respectively), among which the most notable increase was detected in the SW480 cells. After up-regulating TFAM by plasmid transfection, the proliferation of the pcDNA3.1-TFAM-SW480 cell was increased significantly as compared with the pcDNA3.1-SW480 cell at 96 h and 120 h after transfection by the MTT test (P < 0.000 1). The proliferation of the pcDNA3.1-TFAM-SW480 cell was increased significantly as compared with the pcDNA3.1-SW480 cell at 48 h after transfection by the BrdU test (P < 0.001 0). ConclusionTFAM expression is high in colon cancer. Up-regulated TFAM could promote the proliferation of colon cancer cells.
The main function of mitochondrial fusion protein 1 (Mfn1) and mitochondrial fusion protein 2 (Mfn2) was originally thought to be just regulating the fusion of mitochondrial outer membrane. But in recent years,many studies on these two proteins show that they are involved in many important cellular physiological processes including proliferation,apoptosis,necrosis and regulation of respiratory function and oxidative metabolism. There are many aspects of the influenceof Mfn1 and Mfn2 on cardiomyocyte,which have not been thoroughly studied yet,sometimes with even contradictoryconclusions. But these two proteins definitely have significant impact on the growth,development and physiological functionof cardiomyocyte. To investigate the function and mechanism of Mfn1 and Mfn2 in various physiological processes of cardiomyocyte is of great significance for in vitro studies of physiological functions of cardiomyocyte and technological development of myocardial tissue engineering and transplantation in vivo. This article mainly focuses on recent research progress of the influence of Mfn1 and Mfn2 on various physiological functions of cardiomyocyte.
Objective To explore the effect of SB431542 on monkey choroidal-retinal endothelial (RF/6A) cells in high glucose state and its mechanism of regulating mitochondrial autophagy by mediating the PINK1/Parkin pathway. MethodsCell experiments. The minimum effective drug concentration of SB431542 was determined by using the Cell Counting Kit-8 (CCK-8). RF/6A cells cultured in vitro were divided into normal group (NC group), mannitol group, high glucose group (HG group), high glucose with dimethyl sulfoxide group (HG + DMSO group), and high glucose + SB431542 group (HG + SB431542 group). CCK-8 and cell scratch assay were used to detect the proliferation and migration of RF/6A cells induced by high glucose. The expression of autophagosomes was detected by autophagy staining kit; the expression level of reactive oxygen species was detected by reactive oxygen species kit; the expression level of mitochondrial superoxide in cells was detected by MitoSOX fluorescent probe; the mitochondrial membrane potential level in cells was detected by JC-10 staining; the morphology of mitochondria was observed by MitoTracker staining, and the total area of mitochondria, average shape factor and branch length were quantitatively analyzed.Cellular immunofluorescence (IF) staining was used to detect the fluorescence expression of EndMT markers vimentin and VE-cadherin; Western blotting (WB) was used to detect the protein expression of vimentin, VE-cadherin, and mitochondrial autophagy-related proteins TOMM20, LC3, P62, PINK1, and Parkin; one-way analysis of variance was used for comparisons among multiple groups.ResultsThe minimum effective drug concentration of SB431542 was 5 μmol/L. SB431542 significantly inhibited the proliferation and migration of RF/6A cells induced by high glucose (F = 81.92、87.84, P<0.000 1). SB431542 suppressed the expression of reactive oxygen species and mitochondrial superoxide induced by high glucose (F = 429.50, 450.20; P<0.000 1), restored the mitochondrial membrane potential level (F = 315.3, P<0.000 1), and restored the mitochondrial morphology (F = 209.50, P<0.000 1). IF and WB confirmed that SB431542 inhibited the expression of Vimentin induced by high glucose (F = 117.30、51.11; P<0.000 1) and upregulated the expression of VE-cadherin (F = 136.80、27.54; P<0.000 1). WB further confirmed that SB431542 upregulated the protein expression of LC3, PINK1, and Parkin (F = 16.64, 37.72, 32.63; P<0.05) and inhibited the protein expression of TOMM20 and P62 (F = 33.87, 67.77; P<0.01). ConclusionSB431542 upregulates mitochondrial autophagy expression through activation of the PINK1/Parkin pathway, effectively restores mitochondria-related functions to maintain homeostasis, and inhibits high glucose-induced RF/6A cell proliferation,migration,and EndMT formation.