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OBJECTIVE@#To investigate the effects of asperuloside on cervical cancer based on endoplasmic reticulum (ER) stress and mitochondrial pathway.@*METHODS@#Different doses (12.5-800 µg/mL) of asperuloside were used to treat cervical cancer cell lines Hela and CaSki to calculate the half maximal inhibitory concentration (IC50) of asperuloside. The cell proliferation was analyzed by clone formation assay. Cell apoptosis, intracellular reactive oxygen species (ROS) and mitochondrial membrane potential were determined by flow cytometry. The protein expressions of cleaved-caspase-3, Bcl-2, Bax, Cyt-c, cleaved-caspase-4 and glucose-regulated protein 78 (GRP78) were analyzed by Western blot. And the inhibitor of ER stress, 4-phenyl butyric acid (4-PBA) was used to treat cervical cancer cells to further verify the role of ER stress in the apoptosis of cervical cancer cells induced by asperuloside.@*RESULTS@#Asperuloside of 325, 650, and 1300 µg/mL significantly inhibited the proliferation and promoted apoptosis of Hela and CaSki cells (P<0.01). All doses of asperuloside significantly increased intracellular ROS levels, reduced mitochondrial membrane potential, significantly reduced Bcl-2 protein expression level, and increased Bax, Cyt-c, GRP78 and cleaved-caspase-4 expressions (P<0.01). In addition, 10 mmol/L 4-PBA treatment significantly promoted cell proliferation and reduced apoptosis (P<0.05), and 650 µg/mL asperuloside could reverse 4-PBA-induced increased cell proliferation, decreased apoptosis and cleaved-caspase-3, -4 and GRP78 protein expressions (P<0.05).@*CONCLUSION@#Our study revealed the role of asperuloside in cervical cancer, suggesting that asperuloside promotes apoptosis of cervical cancer cells through ER stress-mitochondrial pathway.
Subject(s)
Female , Humans , Uterine Cervical Neoplasms/metabolism , Caspase 3/metabolism , bcl-2-Associated X Protein/metabolism , Reactive Oxygen Species/metabolism , Endoplasmic Reticulum Chaperone BiP , HeLa Cells , Proto-Oncogene Proteins c-bcl-2/metabolism , Apoptosis , Endoplasmic Reticulum Stress , Cell Line, TumorABSTRACT
ObjectiveTo investigate the protective effect of the extract of Liuwei Dihuangwan (LW) on mitochondrial damage in the Alzheimer's disease (AD) model of Caenorhabditis elegans (C. elegans). MethodC. elegans transfected with human β-amyloid protein (Aβ) 1-42 gene was used as an AD model. The rats were divided into blank group, model group, metformin group (50 mmol·L-1), and low, medium, and high dose (1.04, 2.08, 4.16 g·kg-1) LW groups. Behavioral methods were used to observe the sensitivity of 5-hydroxytryptamine (5-HT) in nematodes. Western blot was used to detect the expression of Aβ in nematodes. Total ATP content in nematodes was detected by the adenine nucleoside triphosphate (ATP) kit, and mitochondrial membrane potential was detected by the JC-1 method. In addition, the mRNA expression of Aβ expression gene (Amy-1), superoxide dismutase-1 (SOD-1), mitochondrial transcription factor A homologous gene-5 (HMG-5), mitochondrial power-associated protein 1 (DRP1), and mitochondrial mitoprotein 1 (FIS1) was detected by real-time fluorescence quantitative polymerase chain reaction (RT-PCR). ResultThe extract of LW could reduce the hypersensitivity of the AD model of nematodes to exogenous 5-HT (P<0.05) and delay the AD-like pathological characteristics of hypersensitivity to exogenous 5-HT caused by toxicity from overexpression of Aβ in neurons of the AD model of nematodes. Compared with the blank group, in the model group, the mRNA expression of Aβ protein and Amy-1 increased (P<0.01), and the mRNA expression of SOD-1 and HMG-5 decreased (P<0.01). The mRNA expression of DRP1 and FIS1 increased (P<0.01), and the level of mitochondrial membrane potential decreased (P<0.05). The content of ATP decreased (P<0.01). Compared with the model group, in the positive medicine group and medium and high dose LW groups, the mRNA expression of Aβ protein and Amy-1 decreased (P<0.05,P<0.01), and the mRNA expression of SOD-1 and HMG-5 increased (P<0.01). The mRNA expression of DRP1 decreased (P<0.05,P<0.01), and that of FIS1 decreased (P<0.01). The level of mitochondrial membrane potential increased (P<0.01), and the content of ATP increased (P<0.05,P<0.01). ConclusionThe extract of LW may enhance the antioxidant ability of mitochondria, protect mitochondrial DNA, reduce the fragmentation of mitochondrial division, repair the damaged mitochondria, adjust the mitochondrial membrane potential, restore the level of neuronal ATP, and reduce the neuronal damage caused by Aβ deposition.
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Objective To evaluate the effect of spliced X-box binding protein 1 (XBP1s) on hypoxia/reoxygenation (H/R) injury of mouse renal tubular epithelial cells and unravel underlying mechanism. Methods Mouse renal tubular epithelial cells were divided into adenovirus negative control group (Ad-shNC group), targeted silencing XBP1s adenovirus group (Ad-shXBP1s group), Ad-shNC+H/R group and Ad-shXBP1s+H/R group. The apoptosis level, mitochondrial reactive oxygen activity, mitochondrial membrane potential and mitochondrial calcium ion level were detected in each group. Chromatin immunocoprecipitation followed by sequencing (ChIP-seq) was employed to analyze the binding sites of XBP1s in regulating the inositol 1,4,5-trisphosphate receptor (ITPR) family. The expression levels of XBP1s and ITPR family messenger RNA (mRNA) and protein were determined in each group. Results Compared with the Ad-shNC group, the apoptosis level was higher, mitochondrial reactive oxygen species level was increased, mitochondrial membrane potential was decreased and mitochondrial calcium ion level was elevated in the Ad-shNC+H/R group. Compared with the Ad-shNC+H/R group, the apoptosis level was lower, mitochondrial reactive oxygen species level was decreased, mitochondrial membrane potential was elevated, and mitochondrial calcium ion level was decreased in the Ad-shXBP1s+H/R group (all P<0.05). Compared with the Ad-shNC group, relative expression levels of XBP1s, ITPR1, ITPR2 and ITPR3 mRNAs and proteins were down-regulated in the Ad-shXBP1s group (all P<0.05). Compared with the Ad-shNC group, relative expression levels of XBP1s, ITPR1, ITPR2 and ITPR3 proteins were up-regulated in the Ad-shNC+H/R group. Compared with the Ad-shNC+H/R group, relative expression levels of XBP1s, ITPR1, ITPR2 and ITPR3 were down-regulated in the Ad-shXBP1s+H/R group (all P<0.05). ChIP-seq results showed that XBP1s could bind to the promoter and exon of ITPR1, the exon of ITPR2, and the exon of ITPR3. Conclusions XBP1s may affect mitochondria-associated endoplasmic reticulum membrane structure and function by directly regulating ITPR transcription and translation. Down-regulating XBP1s may inhibit ITPR expression and mitigate mitochondrial damage.
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OBJECTIVE@#To explore the protective effect of bloodletting acupuncture at twelve Jing-well points on hand (BAJP) on acute hypobaric hypoxia (AHH)-induced brain injury in rats and its possible mechanisms.@*METHODS@#Seventy-five Sprague Dawley rats were divided into 5 groups by a random number table (n=15), including control, model, BAJP, BAJP+3-methyladenine (3-MA), and bloodletting acupuncture at non-acupoint (BANA, tail tip blooding) groups. After 7-day pre-treatment, AHH models were established using hypobaric oxygen chambers. The levels of S100B, glial fibrillary acidic protein (GFAP), superoxide dismutase (SOD), and malondialdehyde (MDA) in serum were measured by enzyme-linked immunosorbent assay. Hematoxylin-eosin staining and the terminal deoxynucleotidyl transferase-mediated dUTP-biotin nick end labeling method were used to assess hippocampal histopathology and apoptosis. Transmission electron microscopy assay was used to observe mitochondrial damage and autophagosomes in hippocampal tissues. Flow cytometry was used to detect mitochondrial membrane potential (MMP). The mitochondrial respiratory chain complexes I, III and IV activities and ATPase in hippocampal tissue were evaluated, respectively. Western blot analysis was used to detect the protein expressions of Beclin1, autophagy protein 5 (ATG5), microtubule-associated protein 1 light chain 3 beta (LC3B), phosphatase and tensin homolog induced kinase 1 (PINK1), and Parkin in hippocampal tissues. The mRNA expressions of Beclin1, ATG5 and LC3-II were analyzed by quantitative real-time polymerase chain reaction.@*RESULTS@#BAJP treatment reduced hippocampal tissue injury and inhibited hippocampal cell apoptosis in AHH rats. BAJP reduced oxidative stress by decreasing S100B, GFAP and MDA levels and increasing SOD level in the serum of AHH rats (P<0.05 or P<0.01). Then, BAJP increased MMP, the mitochondrial respiratory chain complexes I, III and IV activities, and the mitochondrial ATPase activity in AHH rats (all P<0.01). BAJP improved mitochondrial swelling and increased the autophagosome number in hippocampal tissue of AHH rats. Moreover, BAJP treatment increased the protein and mRNA expressions of Beclin1 and ATG5 and LC3-II/LC3-I ratio in AHH rats (all P<0.01) and activated the PINK1/Parkin pathway (P<0.01). Finally, 3-MA attenuated the therapeutic effect of BAJP on AHH rats (P<0.05 or P<0.01).@*CONCLUSION@#BAJP was an effective treatment for AHH-induced brain injury, and the mechanism might be through reducing hippocampal tissue injury via increasing the PINK1/Parkin pathway and enhancement of mitochondrial autophagy.
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Bisphenol A is a common environmental factor and endocrine disruptor that exerts a negative impact on male reproductive ability. By exploring bisphenol A-induced testicular cell death using the Institute of Cancer Research (ICR) mouse model, we found that a ferroptosis phenomenon may exist. Mice were divided into six groups and administered different doses of bisphenol A via intragastric gavage once daily for 45 consecutive days. Serum was then collected to determine the levels of superoxide dismutase and malondialdehyde. Epididymal sperm was also collected for semen analysis, and testicular tissue was collected for ferritin content determination, electron microscope observation of mitochondrial morphology, immunohistochemistry, real-time quantitative polymerase chain reaction, and western blot analysis. Exposure to bisphenol A was found to decrease sperm quality and cause oxidative damage, iron accumulation, and mitochondrial damage in the testes of mice. In addition, bisphenol A was confirmed to affect the expression of the ferroptosis-related genes, glutathione peroxidase 4 (GPX4), ferritin heavy chain 1 (FTH1), cyclooxygenase 2 (COX2), and acyl-CoA synthetase 4 (ACSL4) in mouse testicular tissues. Accordingly, we speculate that bisphenol A induces oxidative stress, which leads to the ferroptosis of testicular cells. Overall, the inhibition of ferroptosis may be a potential strategy to reduce male reproductive toxicity caused by bisphenol A.
Subject(s)
Male , Mice , Animals , Testis/metabolism , Ferroptosis , Semen , Oxidative StressABSTRACT
ObjectiveBy observing the effect of modified Zhenwutang on the expression of superoxide dismutase 1(SOD1), malondialdehyde(MDA), advanced oxidation protein product(AOPP), nuclear factor kappa-B(NF-κB) p65,p-p65,IL-1β, TNF-α in serum and renal tissue of adenine-induced chronic renal failure rats and the pathology of heart and kidney tissue, the possible mechanism of modified Zhenwutang delaying the progression of chronic renal failure complicated with heart disease was discussed. MethodFifty SPF male SD rats were divided into normal group 10 and model group 40 according to the random number table method. After one week of adaptive feeding, the experimental chronic renal failure complicated with cardiovascular disease rat model was established by intragastric administration of adenine 150 mg·kg-1·d-1. After the model was completed, 3 rats in the normal group and the model group were randomly selected to detect whether the model was successful. After successful modeling, the rats in the model group were divided into model group , modified Zhenwutang low-dose group , modified Zhenwutang medium-dose group, modified Zhenwutang high-dose group and Benazepril hydrochloride group according to the random number table method, with 6 rats in each group. Drugs were administered once a day for 4 weeks. At the end of the 17th week of the experiment, 24-hour urinary total protein(24 h-UTP) and urine creatinine(UCr)were detected. At the end of the 17th week, the rats in each group were anesthetized and the abdominal aorta was taken. After centrifugation, the supernatant was taken to detect triglyceride(TG), total cholesterol(TC), serum calcium(Ca), serum potassium, serum phosphate, serum creatinine(Scr), blood urea nitrogen(BUN); the expression levels of serum AOPP, IL-1β and TNF-α were detected by enzyme linked immunosorbent assay(ELISA). The pathological changes of heart and kidney tissues were observed by hematoxylin-eosin(HE)/Masson method. The ultrastructural changes of proximal renal tubules were observed by transmission electron microscopy . The kidney tissue expressions of SOD1, MDA, AOPP, NF-κB p65,p-p65,IL-1β and TNF-α were observed by immunohistochemistry. The kidney tissue expression levels of SOD1, NF-κB p65, IL-1β and TNF-α mRNA were observed by real-time polymerase chain reaction(Real-time PCR). The kidney tissue expression levels of SOD1, MDA, NF-κB p65 and p-p65 were detected by Western blot. Result①Compared with the normal group, the experimental rats in the model group showed an increase in 24-hour UTP (P<0.01)and a decrease in UCr(P<0.01). The experimental rats in the model group showed an increase in Cr, BUN, TG, TC, serum phosphate, and serum potassium(P<0.01).The levels of AOPP, IL-1β and TNF-α in serum of rats in the model group were significantly increased(P<0.01). In the model group, the glomerular balloon space was significantly widened, the renal interstitium was significantly widened with a large number of inflammatory cell infiltration, a large number of renal tubular lumens were blocked by brown deposits, and there were a large number of collagen fiber deposition in the renal interstitium. The collagen fibers around the renal vessels, outside the capsule wall of the renal capsule wall, glomerular basement membrane and renal tubular basement membrane were significantly increased, and the cardiac muscle fibers were significantly thickened. There was a small amount of inflammatory cell infiltration around the blood vessels, and a large number of collagen fibers around the cardiac vessels and between the myocardial cells. In the model group, high-density diamond-shaped needle-like crystals were observed in the proximal renal tubular epithelial cells of rats, with increased lysosomes, mitochondrial proliferation, mitochondrial cristae and dense mitochondrial outer membrane. The left ventricular diastolic wall thickness and systolic wall thickness of the experimental rats in the model group was increased in proximal renal tubular epithelial cells and their nuclei.In the model group, the expression of MDA, AOPP, NF-κB p65,p-p65 IL-1β and TNF-α in proximal renal tubular epithelial cells was significantly increased(P<0.01), the expression of p-p65 in the nucleus of proximal renal tubular epithelial cells was significantly increased(P<0.01), and the expression of SOD1 in proximal renal tubular epithelial cells was significantly decreased(P<0.01). The kidney tissue expression of NF-κB p65, IL-1β and TNF-α mRNA in the model group was increased(P<0.01), and the expression of SOD1 mRNA was decreased(P<0.01). The kidney tissue expression of SOD1 protein in the model group was significantly decreased(P<0.01). The kidney tissue expression of MDA, NF-κB p65 and p-p65 protein was increased (P<0.01). ② Compared with the model group, after the intervention of modified Zhenwutang, 24 h-UTP was decreased (P<0.01)and UCr was increased(P<0.01). Cr, BUN, TG, TC, serum phosphate, serum potassium was decreased (P<0.01). Serum AOPP, IL-1β and TNF-α levels were decreased(P<0.01). Cardiac and Renal pathological damage was reduced; mitochondrial damage in proximal renal tubules was reduced; the expression of MDA, AOPP, NF-κB p65, IL-1β, TNF-α in proximal renal tubular epithelial cells was decreased (P<0.01), the expression of p-p65 in the nucleus of proximal renal tubular epithelial cells was significantly decreased (P<0.01), and the expression of SOD1 in proximal renal tubular epithelial cells was significantly increased (P<0.01). The kidney tissue expression of NF-κB p65, IL-1β, TNF-α mRNA was decreased (P<0.01), and the expression of SOD1 mRNA was increased(P<0.01). The kidney tissue expression of SOD1 protein was significantly increased (P<0.01), and the expression of MDA, NF-κB p65 and p-p65 protein was decreased (P<0.01). The Chinese medicine group showed a significant dose-effect trend. ConclusionModified Zhenwutang may reduce the production of oxidative stress and mitochondrial damage in proximal renal tubular epithelial cells, thereby reducing oxidative stress products and inhibiting the release of inflammatory factors caused by the activation of NF-κB signaling pathway, reducing the damage to heart and kidney tissues and functions, and delaying the progression of chronic renal failure complicated with heart disease, and the traditional Chinese medicine group has a dose-effect trend.
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OBJECTIVE@#To explore the protective effect and possible mechanisms of bloodletting acupuncture at Jing-well points (BAJP) pre-treatment on acute hypobaric hypoxia (AHH)-induced myocardium injury rat.@*METHODS@#Seventy-five rats were randomly divided into 5 groups by a random number table: a control group (n=15), a model group (n=15), a BAJP group (n=15), a BAJP+3-methyladenine (3-MA) group (n=15), and a BANA (bloodletting at nonacupoint; tail bleeding, n=15) group. Except for the control group, the AHH rat model was established in the other groups, and the corresponding treatment methods were adopted. Enzyme-linked immunosorbent assay (ELISA) was used to detect creatine kinase isoenzyme MB (CK-MB) and cardiac troponins I (CTnI) levels in serum and superoxide dismutase (SOD) and malondialdehyde (MDA) levels in myocardial tissue. Hematoxylin-eosin (HE) staining was used to observe myocardial injury, and terminal deoxynucleotidyltransferase-mediated dUTP-biotin nick end labeling (TUNEL) staining was used to observe cell apoptosis. Transmission electron microscopy detection was used to observe mitochondrial damage and autophagosomes in the myocardium. The mitochondrial membrane potential of the myocardium was analyzed with the fluorescent dye JC-1. Mitochondrial respiratory chain complex (complex I, III, and IV) activities and ATPase in the myocardium were detected by mitochondrial respiratory chain complex assay kits. Western blot analysis was used to detect the autophagy index and hypoxia inducible factor-1α (HIF-1α)/Bcl-2 and adenovirus E1B 19k Da-interacting protein 3 (BNIP3) signaling.@*RESULTS@#BAJP reduced myocardial injury and inhibited myocardial cell apoptosis in AHH rats. BAJP pretreatment decreased MDA levels and increased SOD levels in AHH rats (all P<0.01). Moreover, BAJP pretreatment increased the mitochondrial membrane potential (P<0.01), mitochondrial respiratory chain complex (complexes I, III, and IV) activities (P<0.01), and mitochondrial ATPase activity in AHH rats (P<0.05). The results from electron microscopy demonstrated that BAJP pretreatment improved mitochondrial swelling and increased the autophagosome number in the myocardium of AHH rats. In addition, BAJP pretreatment activated the HIF-1α/BNIP3 pathway and autophagy. Finally, the results of using 3-MA to inhibit autophagy in BAJP-treated AHH rats showed that suppression of autophagy attenuated the treatment effects of BAJP in AHH rats, further proving that autophagy constitutes a potential target for BAJP treatment of AHH.@*CONCLUSION@#BAJP is an effective treatment for AHH-induced myocardial injury, and the mechanism might involve increasing HIF-1α/BNIP3 signaling-mediated autophagy and decreasing oxidative stress.
Subject(s)
Animals , Rats , Acupuncture Therapy , Altitude , Apoptosis , Autophagy , Bloodletting , Hypoxia/metabolism , Membrane Proteins/pharmacology , Mitochondrial Proteins/pharmacology , Oxidative Stress , Rats, Sprague-DawleyABSTRACT
Acetaminophen (APAP) overdose is a major cause of liver injury. Neural precursor cell expressed developmentally downregulated 4-1 (NEDD4-1) is an E3 ubiquitin ligase that has been implicated in the pathogenesis of numerous liver diseases; however, its role in APAP-induced liver injury (AILI) is unclear. Thus, this study aimed to investigate the role of NEDD4-1 in the pathogenesis of AILI. We found that NEDD4-1 was dramatically downregulated in response to APAP treatment in mouse livers and isolated mouse hepatocytes. Hepatocyte-specific NEDD4-1 knockout exacerbated APAP-induced mitochondrial damage and the resultant hepatocyte necrosis and liver injury, while hepatocyte-specific NEDD4-1 overexpression mitigated these pathological events both in vivo and in vitro. Additionally, hepatocyte NEDD4-1 deficiency led to marked accumulation of voltage-dependent anion channel 1 (VDAC1) and increased VDAC1 oligomerization. Furthermore, VDAC1 knockdown alleviated AILI and weakened the exacerbation of AILI caused by hepatocyte NEDD4-1 deficiency. Mechanistically, NEDD4-1 was found to interact with the PPTY motif of VDAC1 through its WW domain and regulate K48-linked ubiquitination and degradation of VDAC1. Our present study indicates that NEDD4-1 is a suppressor of AILI and functions by regulating the degradation of VDAC1.
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Objective:To explore the protective effect and mechanism of the antioxidant N-acetylcysteine (NAC) regulating silent information regulator 3 (Sirt3) on acute kidney injury (AKI) in septic mice.Methods:Male C57BL/6 mice were randomly ( random number) divided into the sham operation group (sham), cecal ligation and perforation group (CLP), CLP + NAC (50 mg/kg) and CLP + NAC (100 mg/kg) groups, with 10 mice in each group. The mice were sacrificed 24 h after CLP, and blood and kidney tissue samples were collected. HE staining was used to evaluate the pathological damage of the kidney tissue of mice in each group. ELISA was used to detect serum creatinine (Scr), urea nitrogen (BUN), kidney injury molecule 1 (KIM-1) and neutrophil gelatinase-associated apolipoprotein (NGAL) levels. Immunohistochemistry was used to detect the expression of Sirt3 protein in kidney tissue. RT-qPCR was used to detect the level of Sirt3 mRNA. Mitochondrial damage of renal tubular epithelial cells was observed under transmission electron microscope, and the mitochondrial density was calculated. Meanwhile, the levels of superoxide dismutase (SOD), glutathione peroxidase (GSH-Px), catalase (CAT) and malondialdehyde (MDA) in the renal cortex were also detected. Results:Compared with the sham group, in the CLP group, the pathological damage of renal tissue was significantly aggravated ( P<0.001), and the levels of renal function indicators (Scr, BUN, KIM-1 and NGAL) were all increased significantly (all P<0.001). The protein and mRNA expression of Sirt3 were all significantly decreased (all P<0.001), the mitochondrial structure damage of renal tubular epithelial cells was increased, and the mitochondrial density was significantly decreased ( P<0.001). The levels of antioxidant enzymes (SOD, GSH-Px and CAT) in the renal cortex were all significantly decreased (all P<0.001), while the lipid peroxide MDA was significantly increased ( P<0.001). Compared with the CLP group, the renal injury score and renal function indexes (Scr, BUN, KIM-1 and NGAL levels) in the 50 mg/kg NAC pretreatment group were decreased, and the levels of SOD, GSH-Px and CAT in renal tissue were increased, but the differences were not significant. However, pretreatment with 100 mg/kg NAC significantly reduced the pathological damage of kidney tissue caused by CLP ( P<0.001), and significantly decreased the levels of Scr, BUN, KIM-1 and NGAL (all P<0.001). The expression of Sirt3 protein [(50.20±2.79) vs.(20.00±0.75), P<0.001] and mRNA [(0.57±0.07) vs. (0.41±0.07), P<0.001] were all significantly increased. The mitochondrial structure of renal tubular epithelial cells was more stable, and the mitochondrial density was significantly increased [(0.60±0.05) vs. (0.43±0.06), P<0.001]. The levels of SOD [(67.37±3.79) U/mg vs. (21.09±0.89) U/mg, P<0.001], GSH-Px [(265.61±9.61) U/mg vs. (180.00±3.31) U/mg, P<0.001] and CAT [(8.58±0.65) U/mg vs. (5.19±0.58) U/mg, P<0.001] were all significantly increased, while the expression level of MDA was significantly reduced [(40.36 ±1.79) vs. (83.81 ±1.70), P<0.001]. Conclusions:NAC can significantly reduce renal pathological damage, improve renal function, maintain mitochondrial structure stability and reduce oxidative stress levels in septic mice by up-regulating Sirt3 protein expression, and has a significant protective effect on CLP-induced AKI.
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Liraglutide is an analog of glucagon⁃like peptide⁃1 and plays an important role in the treatment of diabetes. But the specific mechanism of liraglutide in improving the function of pancreatic β cells is still unclear. Therefore, high glucose (33 mmol/ L) was used to induce islet MIN6 cells for 48 hours to establish a high glucose injury model in this study. The CCK⁃8 assay was used to detect cell viability, and the results showed that the viability of MIN6 cells in the high glucose group decreased (P<0. 05) compared with the control group, and the cell viability increased after liraglutide treatment (P<0. 05). Using the mouse insulin detection kit and ATP content detection kit, we found that both the insulin re⁃ lease (P<0. 01) and ATP content decreased (P<0. 001) in the high glucose group compared with the control group, and after liraglutide treatment both insulin release (P < 0. 05) and ATP content (P < 0. 001) increased. We used the mitochondrial membrane channel pore (MPTP) fluorescence detection kit in MIN6 cells and found that the green fluorescence intensity of the high glucose group was significant⁃ ly decreased (P<0. 001) compared with the control group, and after liraglutide treatment the green fluo⁃ rescence intensity was significantly increased (P<0. 001). The DCFH⁃DA probe combined with flow cy⁃ tometry was used to detect the level of reactive oxygen species (ROS). We found that compared with the control group, the ROS level in the high glucose group was significantly increased (P<0. 001), and de⁃ creased by liraglutide treatment (P<0. 01). Intracellular malondialdehyde (MDA) contents, superoxide dismutase (SOD) and catalase (CAT), and lactate dehydrogenase (LDH) activities in the cell superna⁃ tant were measured, and the levels of MDA and LDH were significantly increased (P<0. 05), and the levels of SOD and CAT were significantly decreased (P<0. 01) in the high glucose group compared with the control group. After liraglutide treatment, the levels of MDA and LDH were decreased (P<0. 05), and the levels of SOD and CAT were increased (P<0. 05). The results of Western blotting showed that the expression of UCP2 was upregulated in the high glucose group (P<0. 01) compared with the control group, and after liraglutide treatment the expression of UCP2 decreased (P<0. 05). The results indica⁃ ted that liraglutide has significant effects in high⁃glucose induced mitochondrial damage, oxidative stress and insulin secretion in MIN6 cells, which will provide a theoretical basis for clinical utilization of liraglu⁃ tide.
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Aim To evaluate and compare the toxicity of psoralen on two-dimensional(2D)and three-dimensional(3D)cultured human hepatocyte HepG2 models. Methods The 3D cell model of HepG2 cells was constructed by low adsorption U-shaped bottom porous plate method. After treated with psoralen for 24 hours, the cell viabilities of 2D and 3D HepG2 cells were detected by CCK-8 assay, LDH leakage was detected by kit, and the mitochondrial membrane potential was detected by TMRM staining. The effect of psoralen on the mRNA of mitochondrial fusion-fission proteins DRP1, Mfn-2 and OPA1 was detected by Q-PCR. Results 3D model maintained a high level of albumin and urea secretion for a long time. And the expression levels of CYP1A2, CYP2E1, CYP3A4 and UGT1A1 in 3D model were higher than those in 2D model. In 3D model lower concentrations of psoralen showed a significant decrease in cell viability, a significant increase in LDH leakage, and a decrease in mitochondrial membrane potential. Q-PCR results showed that psoralen induced a marked increase in the expression of mitochondrial fission protein DRP1, while a significant decrease in mitochondrial fusion protein OPA1. Conclusions A 3D HepG2 cell model is successfully constructed and applied to the evaluation of psoralen hepatotoxicity; the 3D cell culture model is more sensitive to psoralen toxicity, and mitochondria may play a key role in psoralen-induced cell damage.
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Alzheimer's disease (AD) is one of the most common neurodegenerative diseases among the elderly and it accounts for nearly 80% of all dementias. The pathogenesis of AD is complicated and enigmatic thus far. The mitochondrial cascade hypothesis assumes that mitochondrial damage may mediate, drive, or contribute to a variety of AD pathologies and may be the main factor in late-onset AD. Currently, there are no widely recognized drugs able to attenuate mitochondrial damage in AD. Notably, increasing evidence supports the efficacy of acupuncture for improving the mitochondrial structure and protecting mitochondrial functions in AD. This review reports the mechanisms by which acupuncture regulates mitochondrial dynamics, energy metabolism, calcium homeostasis and apoptosis. In conclusion, these findings suggest that AD mitochondrial dysfunction represents a reasonable therapeutic target and acupuncture could play a significant role in preventing and treating AD.
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Aged , Humans , Acupuncture Therapy , Alzheimer Disease/drug therapy , Apoptosis , Mitochondria/metabolismABSTRACT
BACKGROUND Leishmania parasites cause leishmaniasis that range from self-limiting cutaneous lesions to more serious forms of the disease. The search for potential drug targets focusing on biochemical and metabolic pathways revealed the sterol biosynthesis inhibitors (SBIs) as a promising approach. In this class of inhibitors is found ketoconazole, a classical inhibitor of 14α-methysterol 14-demethylase. OBJECTIVE The present study aimed to better understand the biological response of Leishmania (Leishmania) amazonensis promastigotes at the cellular level after ketoconazole treatment. METHODS Herein, techniques, such as fluorimetry, flow cytometry, fluorescence microscopy, electron and scanning microscopy were used to investigate the cellular structures and to identify organelles affected by ketoconazole treatment. FINDINGS The study demonstrated, for the first time, the effect of ketoconazole on mitochondrion functioning and its probable relationship to cell cycle and death on L. (L.) amazonensis promastigotes (IFLA/BR/67/PH8 strain). MAIN CONCLUSIONS Ketoconazole-induced mitochondrial damages led to hyperpolarisation of this single organelle and autophagic vacuoles formation, as a parasite survival strategy. These damages did not reflect directly on the parasite cell cycle, but drove the parasites to death, making them susceptible to ketoconazole treatment in in vitro models.
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Objective:To investigate the protective effect of external diaphragm pacing on the prevention of ventilator-induced diaphragm dysfunction (VIDD) in rabbits and its mechanism.Methods:Eighty-five New Zealand white rabbits were randomly (random number) divided into the blank control group (BC, n=5), spontaneous breathing group (SB, n=20), volume control ventilation group (VC, n=20), external diaphragm pacing group (EDP, n=20), external diaphragm pacing and volume control ventilation group (EDP+ VC, n=20). After successful modeling, the rabbits in each group were treated accordingly except for the BC group. Rabbitss in the BC group were not mechanically ventilated, and the diaphragm was removed immediately after anesthetizing. Whole diaphragms of 5 rabbits per time point per other group were also collected after anesthesia at post treatment hour (PTH) 6 and on post treatment day (PTD) 1, 3, and 7. Diaphragm weight/body weight and diaphragm isometric contractile force of each group were measured. The pathological changes of diaphragmatic tissues were observed by HE staining. The protein expressions of Cyt c, RyR1, caspase-3, and p-mTORC1 were measured by Western blot. Repeated measures analysis of variance was used for the comparison between multiple groups of variables at different time points, and LSD- t test was used for the further comparison between two groups at the same time point, a P<0.05 was considered statistically significant. Results:Compared with the BC group, the VC group showed diaphragmatic pathological changes conformed to VIDD: DW/BW was decreased obviously; HE staining revealed obvious changes in diaphragmatic tissue; Diaphragmatic contractility was also significantly decreased; The expression of Cyt c and caspase-3 were increased while the expression of RyR1 and p-mTORC1 were decreased gradually with the extension of treatment time ( P<0.05). Compared the EDP+VC group with the VC group, with the extension of treatment time, DW, DW/BW, pathological damages and diaphragmatic contractility were improved [PTD 1: (0.80±0.05)kg vs (0.56±0.04) kg, PTD 3: (1.06±0.05) kg vs (0.47±0.03) kg, PTD 7: (1.24±0.10) kg vs (0.39±0.07) kg, all P<0.05; PTD 1: (2.05±0.54) vs (1.86±0.72), PTD 3: (2.19±0.61) vs (1.74±0.40), PTD 7: (2.46±0.62) vs (1.53±0.85), all P<0.05; PTD 1: (2.39±0.42) N/cm 2vs (1.91±0.25) N/cm 2, PTD 3: (2.57±0.62) N/cm 2vs (1.72±0.50) N/cm 2, PTD 7: (2.77±0.55) N/cm 2vs (1.54±0.33) N/cm 2, all P<0.05]. The expression of Cyt c and caspase-3 were decreased while the expression of RyR1 and p-mTORC1 were increased gradually in the EDP+VC group ( P<0.05). Conclusions:External diaphragm pacer plays a protective role in ventilator-induced diaphragm dysfunction, which can inhibit mitochondrial damage, reduce oxidative damage, and mitigate diaphragmatic atrophy and injury.
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Aim To explore the biological role and related mechanism of rosuvastatin (RS) in mitochondrial damage of neurons after cerebral ischemia/reperfusion (CIR) through UCP2-SIRT3 signaling pathway. Methods Human neuroblastoma cell (SH-SY5Y cell) cerebral infarction reperfusion model (OGD/R) was established, different concentrations of RS (40 and 2. 5 (mol • L
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Idiosyncratic drug-induced liver injury (iDILI) encompasses the unexpected harms that prescription and non-prescription drugs, herbal and dietary supplements can cause to the liver. iDILI remains a major public health problem and a major cause of drug attrition. Given the lack of biomarkers for iDILI prediction, diagnosis and prognosis, searching new models to predict and study mechanisms of iDILI is necessary. One of the major limitations of iDILI preclinical assessment has been the lack of correlation between the markers of hepatotoxicity in animal toxicological studies and clinically significant iDILI. Thus, major advances in the understanding of iDILI susceptibility and pathogenesis have come from the study of well-phenotyped iDILI patients. However, there are many gaps for explaining all the complexity of iDILI susceptibility and mechanisms. Therefore, there is a need to optimize preclinical human
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Objective To investigate the relationship between different tidal volume (VT) mechanical ventilation (MV) and autophagy and mitochondrial damage in rats. Methods A total of 120 clean-grade male Sprague-Dawley (SD) rats were divided into five groups (n = 24) by random number table method, and then given 0 (spontaneous breathing), 10, 20, 30, 40 mL/kg VT for MV. The rats in each group were subdivided into four subgroups of 1, 2, 3, and 4 hours according to ventilation time, with 6 rats in each subgroup. The lung tissue and bronchoalveolar lavage fluid (BALF) were harvested, and alveolar macrophages (AMs) and type Ⅱ alveolar epithelial cells (AECⅡ) were cultured in vitro. The mRNA and protein expressions of autophagy-associated protein microtubule-associated protein 1 light chain 3B -Ⅱ (LC3B -Ⅱ) and autophagy-related genes Beclin1 and p62 were determined by reverse transcription-polymerase chain reaction (RT-PCR) or Western Blot. Lung autophagosome formation was observed under transmission electron microscope. The levels of adenosine triphosphate (ATP), reactive oxygen species (ROS) and mitochondrial membrane potential (MMP) in lung tissue were determined for assessing mitochondrial damage. Results There were no significant differences in the mRNA and protein expressions of LC3B -Ⅱ, p62 and Beclin1 at 1 hour after ventilation among the groups. With the prolonged ventilation time, the mRNA and protein expressions of LC3B -Ⅱ, p62 and Beclin1 in MV groups were increased gradually, peaked at 2-3 hours, and they were increased significantly in 30 mL/kg VT group as compared with those in spontaneous respiration group with statistical significances [ventilation for 2 hours: LC3B -Ⅱ mRNA (2-ΔΔCt) was 2.44±0.24 vs. 1.12±0.04, LC3B -Ⅱ/LC3B -Ⅰ was 1.42±0.16 vs. 0.57±0.03, p62 mRNA (2-ΔΔCt) was 2.96±0.14 vs. 1.14±0.02, Beclin1 mRNA (2-ΔΔCt) was 2.80±0.13 vs. 1.14±0.02; ventilation for 3 hours: p62/β-actin was 1.14±0.15 vs. 0.55±0.04, Beclin1/β-actin was 1.27±0.06 vs. 0.87±0.04, all P < 0.05]. Autophagosomes and autolysosomes were found in AECⅡ after ventilation for 2 hours at 30 mL/kg VT by transmission electron microscopy, but not in AECⅠ. Compared with spontaneous breathing group, ATP synthesis in AMs was significantly decreased at 2 hours of ventilation in 30 mL/kg VT group (A value: 0.82±0.05 vs. 1.00±0.00, P < 0.05), ROS accumulate in AMs and AECⅡ were significantly increased [ROS in AMs: (33.83±4.00)% vs. (6.90±0.62)%, ROS in AECⅡ: (80.68±0.90)% vs. (2.16±0.19)%, both P < 0.05]. With the increase in VT and the prolongation of ventilation time, ATP and ROS levels in AMs and AECⅡ were gradually decreased, the ATP (A value) in AMs at 4 hours of ventilation in 40 mL/kg VT group was 0.41±0.05, the ROS in AMs was (12.95±0.88)%, and the ROS in AECⅡ was (40.43±2.29)%. With the increase in VT and the prolongation of ventilation time, MMP levels were gradually increased, the MMP (green/red fluorescence intensity ratio) in AMs at 2 hours of ventilation in 30 mL/kg VT group was 1.11±0.17, the MMP in AECⅡwas 0.96±0.04, and the MMP (green/red fluorescence intensity ratio) at 4 hours of ventilation in 40 mL/kg VT group was 0.51±0.07 and 0.49±0.06, respectively. Conclusion The MV with high VT could induce autophagy activation and mitochondrial damage in lung tissue of rats, and the longer the ventilation time, the more obvious autophagy in the lung.
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Objective To investigate the effects of human adult T lymphoblastic leukemia virus typeⅠ (HTLV-1) infection on the production of reactive oxygen species (ROS) and mitochondrial damage in host cells. Methods A cell model of HTLV-1 infection was established by co-culturing HTLV-1-positive cell line MT2 with HeLa cells. ROS, mitochondrial membrane potential ( MMP) and total mitochondria were detected using specific fluorescence probe labeling method. Cell apoptosis was detected by Annexin V-FITC/PI method. Western blot was performed to detect viral proteins Tax and p19, as well as mitochondrial pro-teins TIM23 and TOM20. After the treatment of MT2 cells with different concentrations of reverse transcrip-tion inhibitors ( ZDV) , relative viral loads were detected by quantitative real-time PCR and Western blot, and the mass of mitochondria was analyzed by flow cytometry. Results After co-culturing HeLa cells with MT2 cells for 24 h, the ROS level in host cells increased without obvious cell apoptosis, while the mitochon-drial membrane potential, mitochondrial protein expression and total mitochondria decreased significantly. When the replication of HTLV-1 in MT2 cells was inhibited by ZDV, the ROS level and total mitochondria increased. Conclusions HTLV-1 infection can cause oxidative stress in host cells, resulting in mitochon-drial damage. Autophagy might be activated to degrade mitochondrial damage and maintain cell homeostasis during the infection.
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Aim: To investigate the effects of resveratrol (Res) pretreatment on focal cerebral ischemia/reperfusion (I/R) injury and the possible mechanism. Methods: Transient focal cerebral ischemia was introduced into mice by right middle cerebral artery occlusion (MCAO) technique. For Res treatment, C57BL/6J mice were given an intraperitoneal injection with ' Res per day for 5 days. After 24 h of reperfusion, infarct volume, neurological function were assessed. Western blot was used to analyse the expression of silent information regulator 1(SIRT1), mitophagy-relat-ed proteins, and the distribution of cytochrome C (CytC). Flow cytometry assay was introduced to test mitochondrial membrane potential (MMP). A micro-plate reader was used to detect the cellular adenosine triphosphate (ATP) levels. Transmission electron microscopy (TEM) was conducted to observe mitochondrial morphology. Results: Res pretreatment reduced infarct volume and neurological deficit, improved the expression of SIRT1 and mitophagy. Meanwhile, Res attenuated CytC release, recovered MMP, and improved ATP levels. TEM results showed Res could protect the mitochondria from I/R injury-induced destruction. However, as 3-MA was used to inhibit the activation of mitophagy, the protective effects of Res on neurological and mitochondrial function were reversed. Conclusions: Res pretreatment could relieve cerebral I/R injury. The mechanism might be associated with the regulation of mitophagy to maintain mitochondrial structural and functional integrity.
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OBJECTIVE@#To investigate the effect of miR-186 inhibition on the expression of hypoxia-inducible factor-1α (HIF-α) and mitochondrial function in hypoxic vascular endothelial cells.@*METHODS@#Human umbilical vein endothelial cells (HUVECs) cultured in routine or hypoxic conditions for 6 h were examined for the expression of miR-186. A miR-186 inhibitor was transfected in the HUVECs, and the cells were subsequently cultured in hypoxic condition for 6 h to observe the changes in the mitochondrial structure under an electron microscope. The changes in the mRNA and protein expressions of HIF-1α in response to miR-186 interference were tested using real-time fluorescent quantitative PCR and Western blotting.@*RESULTS@#The expression of miR-18 was mildly increased in HUVECs after hypoxic exposure for 6 h (=0.0188). Interference of miR-186 expression obviously promoted the mRNA and protein expressions of HIF-1α in HUVECs. In hypoxic conditions, miR-186 interference significantly reduced mitochondrial damage in HUVECs as observed under electron microscope (=0.0297).@*CONCLUSIONS@#Inhibition of miR-186 protects vascular endothelial cells against hypoxic injuries by promoting HIF-α expression to lessen mitochondrial damage, suggesting the possibility of targeted miR-186 interference for treatment of hemorrhagic shock.