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1.
Ageing is associated with a decrease in the ability of cells to cope with environmental challenges. This is due partly to the attenuation of a primordial stress response, the so-called heat shock (HS) response, which induces the expression of heat shock proteins (HSPs), composed of chaperones and proteases. The attenuation of the HS response during ageing may be responsible for the accumulation of damaged proteins as well as abnormal regulation of cell death. Maintenance of the HS response by repeated mild heat stress causes anti-ageing hormetic effects on cells and organisms. Here, we describe the molecular mechanism and the state of the HS response as well as the role of specific HSPs during ageing, and discuss the possibility of hormetic modulation of ageing and longevity by repeated mild stress. 相似文献
2.
Telomeres are DNA-protein complexes at the ends of chromosomes that control genomic integrity but appear to become shorter with age and stress. To test whether stress causes telomere attrition, we exposed the offspring of wild-caught house mice (Mus musculus) to stressful conditions and examined the changes in telomere length over six months. We found that females exposed to males and reproductive stress (either with or without crowding) had significantly shorter telomeres than controls, and males exposed to crowding stress had shorter telomeres than males that were not crowded. Our results indicate that stress alters telomere dynamics, causing attrition and hindering restoration, and these effects are sex dependent. Telomeres may thus provide a biomarker for assessing an individual's cumulative exposure or ability to cope with stressful conditions. 相似文献
3.
The role of ascorbic acid role in the differentiation of sclerotia in Sclerotinia minor 总被引:1,自引:0,他引:1
Sclerotinia minor in culture produces ascorbic acid in levels dependent on oxidative growth conditions and stage of development. During differentiation reduced/oxidized ascorbate ratio decreased by 12 and 6 fold at high and low oxidative stress, respectively. Exogenous ascorbate caused a concentration-dependent decrease of oxidative stress (lipid peroxidation), inhibition of sclerotial differentiation (up to 100%) and delay of differentiatlon (up to 10 days). Ascorbic acid may be produced to help the fungus reduce oxidative stress during growth. The data of this study support our theory proposing that oxidative stress is the inducing factor of sclerotial differentiation in fungi.This revised version was published online in October 2005 with corrections to the Cover Date. 相似文献
4.
Xiaotang Ma Wenjun Wang Bin Zhao Yanfang Chen Can Chen Ji C. Bihl 《Journal of cellular and molecular medicine》2018,22(3):1873-1882
Oxidative stress is one of the mechanisms of ageing‐associated vascular dysfunction. Angiotensin‐converting enzyme 2 (ACE2) and microRNA (miR)‐18a have shown to be down‐regulated in ageing cells. Our previous study has shown that ACE2‐primed endothelial progenitor cells (ACE2‐EPCs) have protective effects on endothelial cells (ECs), which might be due to their released exosomes (EXs). Here, we aimed to investigate whether ACE2‐EPC‐EXs could attenuate hypoxia/reoxygenation (H/R)‐induced injury in ageing ECs through their carried miR‐18a. Young and angiotensin II‐induced ageing ECs were subjected to H/R and co‐cultured with vehicle (medium), EPC‐EXs, ACE2‐EPCs‐EXs, ACE2‐EPCs‐EXs + DX600 or ACE2‐EPCs‐EXs with miR‐18a deficiency (ACE2‐EPCs‐EXsanti‐miR‐18a). Results showed (1) ageing ECs displayed increased senescence, apoptosis and ROS production, but decreased ACE2 and miR‐18a expressions and tube formation ability; (2) under H/R condition, ageing ECs showed higher rate of apoptosis, ROS overproduction and nitric oxide reduction, up‐regulation of Nox2, down‐regulation of ACE2, miR‐18a and eNOS, and compromised tube formation ability; (3) compared with EPC‐EXs, ACE2‐EPC‐EXs had better efficiencies on protecting ECs from H/R‐induced changes; (4) The protective effects were less seen in ACE2‐EPCs‐EXs + DX600 and ACE2‐EPCs‐EXsanti‐miR‐18a groups. These data suggest that ACE‐EPCs‐EXs have better protective effects on H/R injury in ageing ECs which could be through their carried miR‐18a and subsequently down‐regulating the Nox2/ROS pathway. 相似文献
5.
Ling Wang Zeyuan Lu Juan Zhao Madison Schank Dechao Cao Xindi Dang Lam Nhat Nguyen Lam Ngoc Thao Nguyen Sushant Khanal Jinyu Zhang Xiao Y. Wu Mohamed El Gazzar Shunbin Ning Jonathan
P. Moorman Zhi Q. Yao 《Aging cell》2021,20(12)
Oxidative stress caused by excess reactive oxygen species (ROS) accelerates telomere erosion and mitochondrial injury, leading to impaired cellular functions and cell death. Whether oxidative stress‐mediated telomere erosion induces mitochondrial injury, or vice versa, in human T cells—the major effectors of host adaptive immunity against infection and malignancy—is poorly understood due to the pleiotropic effects of ROS. Here we employed a novel chemoptogenetic tool that selectively produces a single oxygen (1O2) only at telomeres or mitochondria in Jurkat T cells. We found that targeted 1O2 production at telomeres triggered not only telomeric DNA damage but also mitochondrial dysfunction, resulting in T cell apoptotic death. Conversely, targeted 1O2 formation at mitochondria induced not only mitochondrial injury but also telomeric DNA damage, leading to cellular crisis and apoptosis. Targeted oxidative stress at either telomeres or mitochondria increased ROS production, whereas blocking ROS formation during oxidative stress reversed the telomeric injury, mitochondrial dysfunction, and cellular apoptosis. Notably, the X‐ray repair cross‐complementing protein 1 (XRCC1) in the base excision repair (BER) pathway and multiple mitochondrial proteins in other cellular pathways were dysregulated by the targeted oxidative stress. By confining singlet 1O2 formation to a single organelle, this study suggests that oxidative stress induces dual injury in T cells via crosstalk between telomeres and mitochondria. Further identification of these oxidation pathways may offer a novel approach to preserve mitochondrial functions, protect telomere integrity, and maintain T cell survival, which can be exploited to combat various immune aging‐associated diseases. 相似文献
6.
In order to investigate the effect of ascorbic acid (AsA) and ascorbic acid 2-phosphate (Asc 2-P), a long-acting vitamin C derivative, on the growth and differentiation of human osteoblast-like cells, we supplemented the culture medium of MG-63 cells with various concentrations (0.25 to 1 mM) of these factors. Asc 2-P significantly stimulated nascent cell growth at all concentrations in the presence of fetal bovine serum (FBS). On the other hand, AsA showed a growth repressive effect depending on its concentration, and that of FBS. Asc 2-P also increased expression of osteoblast differentiation markers, such as collagen synthesis and alkaline phosphatase (ALP) activity. These stimulative activities of Asc 2-P were attenuated by inhibitors of collagen synthesis, indicating that these effects were dependent on collagen synthesis. Electron micrographs of the cells showed the formation of a three-dimensional tissue-like structure endowed with a mature extracellular matrix in the presence of Asc 2-P. 相似文献
7.
Shen W Liu K Tian C Yang L Li X Ren J Packer L Head E Sharman E Liu J 《Journal of cellular biochemistry》2008,104(4):1232-1243
Mitochondrial dysfunction due to oxidative stress and concomitant impaired beta-cell function may play a key role in type 2 diabetes. Preventing and/or ameliorating oxidative mitochondrial dysfunction with mitochondria-specific nutrients may have preventive or therapeutic potential. In the present study, the oxidative mechanism of mitochondrial dysfunction in pancreatic beta-cells exposed to sublethal levels of oleic acid (OA) and the protective effects of mitochondrial nutrients [R-alpha-lipoic acid (LA) and acetyl-L-carnitine (ALC)] were investigated. Chronic exposure (72 h) of insulinoma MIN6 cells to OA (0.2-0.8 mM) increased intracellular oxidant formation, decreased mitochondrial membrane potential (MMP), enhanced uncoupling protein-2 (UCP-2) mRNA and protein expression, and consequently, decreased glucose-induced ATP production and suppressed glucose-stimulated insulin secretion. Pretreatment with LA and/or ALC reduced oxidant formation, increased MMP, regulated UCP-2 mRNA and protein expression, increased glucose-induced ATP production, and restored glucose-stimulated insulin secretion. The key findings on ATP production and insulin secretion were verified with isolated rat islets. These results suggest that mitochondrial dysfunction is involved in OA-induced pancreatic beta-cell dysfunction and that pretreatment with mitochondrial protective nutrients could be an effective strategy to prevent beta-cell dysfunction. 相似文献
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Oxygen free radicals have a major impact on senescence of primary human cells. In replicative senescence, which is induced by uncapping of telomeres, the rate of telomere shortening is largely determined by telomere-specific accumulation of DNA damage induced by reactive oxygen species (ROS). More intense ROS-generating stressors can induce premature senescence via generation of telomere-independent DNA damage. Interestingly, ROS levels were also elevated when premature senescence was triggered by pathways downstream or independent of DNA damage. This has led to the suggestion that ROS generation could be a specific component of the signalling pathways inducing senescence. However, the available data are compatible with the concept that senescence is triggered as a DNA damage response. ROS appear to be involved as inducers of DNA damage rather than as specific signalling molecules. The upregulation of ROS production often seen in premature senescence might be related to retrograde response initiated by mitochondria. 相似文献
10.
Vascular endotheliocytes BAE-2 underwent the gradually proceeding cell death until 48 h after reoxygenation (Reox) following 3 h anoxia (Anox), but protected by pre-Anox administration with L-ascorbic acid (Asc)-2-O-phosphate (Asc2P), an autooxidation-resistant Asc derivative, but not by Asc itself. This cytoprotection with Asc2P was achieved in a glucose (Glc)-lacking buffer more advantageously than in a Glc-containing buffer where less efficiency had been demonstrated for Asc entry into BAE-2 cells than in a Glc-lacking buffer. Superoxide anion radicals were detected explosively in the extracellular space at 2-5 min after Reox following the Anox treatment of HUVE endotheliocytes, and were thereafter retained at levels as high as approximately one-half of the maximum level until 60 min after Reox, as shown by cytochrome c reduction assay. Superoxide anions at 3 and 60 min after Reox were suppressed by pre-Anox administration with Asc2P, but not with Asc or dehydro-Asc, and were not suppressed by post-Anox administration with Asc2P; the cytoprotection may need the intracellular accumulation of the ROS-scavenging effector Asc that is converted from Asc2P until 3 min after Reox. The ROS-generator tert-butylhydroperoxide (t-BuOOH) also induced both the diminished cell viability and nuclear DNA strand cleavages of BAE-2 endotheliocytes, which were also protected dose-dependently with Asc2P. The cytoprotection was attributed to reduction of intracellular ROS including hydroperoxide and hydrogen peroxide with Asc2P as shown by fluorometry with the redox indicator CDCFH-DA. Thus Anox/Reox-induced cell death can be prevented by Asc2P that suppresses ROS-generation immediately after Reox following Anox more efficiently in the intracellular sphere rather than in the extracellular space. 相似文献
11.
Nonthakorn Apirajkamol Bill James Karl H. J. Gordon Tom K. Walsh Angela McGaughran 《Ecology and evolution》2020,10(12):5680-5693
Stress is a widespread phenomenon that all organisms must endure. Common in nature is oxidative stress, which can interrupt cell homeostasis to cause cell damage and may be derived from respiration or from environmental exposure through diet. As a result of the routine exposure from respiration, many organisms can mitigate the effects of oxidative stress, but less is known about responses to oxidative stress from other sources. Helicoverpa armigera is a major agricultural pest moth that causes significant damage to crops worldwide. Here, we examined the effects of oxidative stress on H. armigera by chronically exposing individuals to paraquat—a free radical producer—and measuring changes in development (weight, developmental rate, lifespan), and gene expression. We found that oxidative stress strongly affected development in H. armigera, with stressed samples spending more time as caterpillars than control samples (>24 vs. ~15 days, respectively) and therefore living longer overall. We found 1,618 up‐ and 761 down‐regulated genes, respectively, in stressed versus control samples. In the up‐regulated gene set, was an over‐representation of biological processes related to cuticle and chitin development, glycine metabolism, and oxidation–reduction. Oxidative stress clearly impacts physiology and biochemistry in H. armigera and the interesting finding of an extended lifespan in stressed individuals could demonstrate hormesis, the phenomenon whereby toxic compounds can actually be beneficial at low doses. Collectively, our findings provide new insights into physiological and gene expression responses to oxidative stress in invertebrates. 相似文献
12.
Ji‐Eun Jung Jeong‐Seok Kim Nan‐Hee Lee Ho‐Keun Yi 《Cell biochemistry and function》2015,33(7):479-486
This study investigated whether multiple bioactivity of terrein such as anti‐inflammatory and anti‐oxidant inhibits age‐related inflammation by promoting an antioxidant response in aged human diploid fibroblast (HDF) cells. HDF cells were cultured serially for in vitro replicative senescence. To create the ageing cell phenotype, intermediate stage (PD31) HDF cells were brought to stress‐induced premature senescence (SIPS) using hydrogen peroxide (H2O2). Terrein increased cell viability even with H2O2 stress and reduced inflammatory molecules such as intracellular adhesion molecule‐1 (ICAM‐1), cyclooxygenase‐2 (COX‐2), interleukin‐1beta (IL‐1β) and tumour necrosis factor‐alpha (TNF‐α). Terrein reduced also phospho‐extracellular kinase receptor1/2 (p‐EKR1/2) signalling in aged HDF cells. SIPS cells were attenuated for age‐related biological markers including reactive oxygen species (ROS), senescence associated beta‐galactosidase (SA β‐gal.) and the aforementioned inflammatory molecules. Terrein induced the induction of anti‐oxidant molecules, copper/zinc‐superoxide defence (Cu/ZnSOD), manganese superoxide dismutase (MnSOD) and heme oxygenase‐1 (HO‐1) in SIPS cells. Terrein also alleviated reactive oxygen species formation through the Nrf2/HO‐1/p‐ERK1/2 pathway in aged cells. The results indicate that terrein has an alleviative function of age‐related inflammation characterized as an anti‐oxidant. Terrein might be a useful nutraceutical compound for anti‐ageing. Copyright © 2015 John Wiley & Sons, Ltd. 相似文献
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Katarzyna Kornicka Krzysztof Marycz Monika Marędziak Krzysztof A. Tomaszewski Jakub Nicpoń 《Journal of cellular and molecular medicine》2017,21(2):387-401
Human adipose tissue is a great source of adult mesenchymal stem cells (MSCs) which are recognized from their ability to self‐renew and differentiation into multiple lineages. MSCs have promised a vast therapeutic potential in treatment many diseases including tissue injury and immune disorders. However, their regenerative potential profoundly depends on patients’ age. Age‐related deterioration of MSC is associated with cellular senescence mainly caused by increased DNA methylation status, accumulation of oxidative stress factors and mitochondria dysfunction. We found that DNA methyltransferase (DNMT) inhibitor i.e. 5‐Azacytidine (5‐AZA) reversed the aged phenotype of MSCs. Proliferation rate of cells cultured with 5‐AZA was increased while the accumulation of oxidative stress factors and DNA methylation status were decreased. Simultaneously the mRNA levels of TET proteins involved in demethylation process were elevated in those cells. Moreover, cells treated with 5‐AZA displayed reduced reactive oxygen species (ROS) accumulation, ameliorated superoxide dismutase activity and increased BCL‐2/BAX ratio in comparison to control group. Our results indicates that, treating MSCs with 5‐AZA can be justified therapeutic intervention, that can slow‐down and even reverse aged‐ related degenerative changes in those cells. 相似文献
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16.
Telomeres shorten in human somatic cells with each round of DNA replication, and this shortening is thought to ultimately trigger replicative senescence. Telomere shortening is caused partly by the inability of semiconservative DNA replication to copy a linear strand of DNA to its very end. Post-replicative processing of telomeric ends, producing single-stranded G-rich 3' overhangs, has also been suggested to contribute to telomere shortening. This suggestion implies that a positive correlation should exist between the length of 3' overhangs and the rate of telomere shortening. We confirmed shortening of overhangs as human lung (MRC5) and foreskin (BJ) fibroblasts approach senescence by measuring overhang length using in-gel hybridization. However, a large study of fibroblast strains from 21 donors maintained under conditions which lead to two orders of magnitude of variation in telomere shortening rate failed to show any correlation between telomere overhang length and shortening rate, suggesting that overhang length is neither a cause nor a correlate of telomere shortening. 相似文献
17.
Ascorbic acid (AA) has been reported as a treatment for cancer patients. Intravenous (iv) administration of high-dose AA increases plasma AA levels to pharmacologic concentrations and generates reactive oxygen species (ROS) to exert anti-tumor activity via enhancement of oxidative stress. However, AA is very unstable in aqueous solutions and it is impossible to preserve AA for a long period in a solution. 2-O-α-D-Glucopyranosyl-l-ascorbic acid (AA-2G), which is a glucoside derivative of AA, has been found to exhibit much higher stability than AA in aqueous solutions and it shows vitamin C activity after enzymatic hydrolysis to AA. To evaluate the effectiveness of AA-2G for cancer treatment, we examined the antitumor activity of AA-2G to murine colon carcinoma (colon-26) cells and in tumor-bearing mice. AA-2G did not show cytotoxicity to colon-26 cells, whereas AA exhibited a significant cytotoxic effect in a concentration-dependent manner. In colon-26 tumor-bearing mice, iv administration of high-dose AA-2G as well as that of AA significantly inhibited tumor growth. Experiments on the biodistribution and clearance of AA-2G in tumor-bearing mice showed that AA-2G was rapidly hydrolyzed to AA and exhibited significant antitumor activity. Treatment of tumor-bearing mice with AA-2G tended to increase plasma malondialdehyde level. These results indicated that the antitumor activity of AA-2G was caused by ROS generated by AA released by rapid hydrolysis of AA-2G. 相似文献
18.
Jonathan D. Blount Emma I. K. Vitikainen Iain Stott Michael A. Cant 《Biological reviews of the Cambridge Philosophical Society》2016,91(2):483-497
Life‐history theory assumes that reproduction and lifespan are constrained by trade‐offs which prevent their simultaneous increase. Recently, there has been considerable interest in the possibility that this cost of reproduction is mediated by oxidative stress. However, empirical tests of this theory have yielded equivocal support. We carried out a meta‐analysis to examine associations between reproduction and oxidative damage across markers and tissues. We show that oxidative damage is positively associated with reproductive effort across females of various species. Yet paradoxically, categorical comparisons of breeders versus non‐breeders reveal that transition to the reproductive state is associated with a step‐change reduction in oxidative damage in certain tissues and markers. Developing offspring may be particularly sensitive to harm caused by oxidative damage in mothers. Therefore, such reductions could potentially function to shield reproducing mothers, gametes and developing offspring from oxidative insults that inevitably increase as a consequence of reproductive effort. According to this perspective, we hypothesise that the cost of reproduction is mediated by dual impacts of maternally‐derived oxidative damage on mothers and offspring, and that mothers may be selected to diminish such damage. Such oxidative shielding may explain why many existing studies have concluded that reproduction has little or no oxidative cost. Future advance in life‐history theory therefore needs to take account of potential transgenerational impacts of the mechanisms underlying life‐history trade‐offs. 相似文献
19.
Diego Gil Sergio Alfonso‐Iiguez Lorenzo Prez‐Rodríguez Jaime Muriel Raquel Monclús 《Journal of evolutionary biology》2019,32(1):111-125
Stress during early development can induce substantial long‐term effects in organisms. In the case of birds, despite growth compensations, nestlings reared under harsh conditions typically show reduced survival chances in adulthood. It has been proposed that environmental early‐life stressors could affect longevity via effects on telomere length, possibly mediated through oxidative stress. However, the link between these processes is not clear. In this study, we experimentally manipulated brood size in spotless starlings (Sturnus unicolor) to test the causal relationship between early stress, oxidative and corticosterone‐mediated stress and telomere shortening. Our results show that experimentally enlarged brood sizes led to a reduction in morphometric development on nestlings, the effect being stronger for females than males. Additionally, basal corticosterone levels increased with increasing brood size in female nestlings. Neither plasma antioxidant status nor malondialdehyde levels (a marker of lipid peroxidation) were affected by experimental brood size, although the levels of a key intracellular antioxidant (glutathione) decreased with increasing brood size. We found that the treatment showed a quadratic effect on nestling telomere lengths: these were shortened either by increases or by decreases in the original brood size. Our study provides experimental evidence for a link between developmental stress and telomere length, but does not support a direct causal link of this reduction with corticosterone or oxidative stress. We suggest that future studies should focus on how telomere length responds to additional markers of allostatic load. 相似文献
20.
Three genes encode catalase in Arabidopsis. Although the role of CAT2 in photorespiration is well established, the importance of the different catalases in other processes is less clear. Analysis of cat1, cat2, cat3, cat1 cat2, and cat2 cat3 T‐DNA mutants revealed that cat2 had the largest effect on activity in both roots and leaves. Root growth was inhibited in all cat2‐containing lines, but this inhibition was prevented by growing plants at high CO2, suggesting that it is mainly an indirect effect of stress at the leaf level. Analysis of double mutants suggested some overlap between CAT2 and CAT3 functions in leaves and CAT1 and CAT2 in seeds. When plants had been grown to a similar developmental stage in short days or long days, equal‐time exposure to oxidative stress caused by genetic or pharmacological inhibition of catalase produced a much stronger induction of H2O2 marker genes in short day plants. Together, our data (a) underline the importance of CAT2 in basal H2O2 processing in Arabidopsis; (b) suggest that CAT1 and CAT3 are mainly “backup” or stress‐specific enzymes; and (c) establish that day length‐dependent responses to catalase deficiency are independent of the duration of oxidative stress. 相似文献