首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 78 毫秒
1.
衰老及相关基因群   总被引:1,自引:0,他引:1  
综述20世纪与基因相关的衰老原理的探索及其进展,整体动物水平的衰老研究归纳了衰老了诸多表象但疏于对衰老本质的探讨。线粒体-自由基衰老学说阐述了线粒体DNA的损伤与衰老有很大的相关性,由Hayflic k分裂限制衍生的端粒衰老学说给衰老机制提供了重要信息,目前狭隘的基因程序化衰老学说已和损伤衰老概念有机的联系在了一起。总之,自由基衰老学说得到了氧化衰老学说和糖基化衰老学说的补充逐渐形成了生化副反应与基因衰老学说的大统一衰老机制板块理论。  相似文献   

2.
衰老的分子机制复杂,目前的研究尚未能对衰老的关键轴心获得一致而明晰的理论认识,各种衰老假说相继被提出,其中具有代表性的为端粒学说。端粒-p53-线粒体衰老轴线自从被提出,已经获得越来越多的实验论证,较多的研究也表明线粒体DNA突变与衰老有着密切的相关性,但突变与衰老之间的因果关系存在较大争议。我们简要综述了近年来线粒体DNA突变与衰老关系的相关研究进展。  相似文献   

3.
衰老与线粒体功能衰退和氧化还原失衡紧密相关。随着年龄的增加,肌肉线粒体的DNA丰度和蛋白质的合成不断的下降,线粒体代谢过程中的副产物自由基增加导致脂质,蛋白质和核酸等大分子的氧化损伤不断累积。衰老相关的线粒体功能的下降和氧化还原失衡影响运动功能,导致胰岛素抵抗和神经退行性疾病,因而对于调节寿命起到重要的作用。因而线粒体可能是决定寿命的重要因素。大量研究证实长期运动训练可以很大程度预防和改善衰老相关疾病,其机制可能是通过促进线粒体生成和激活内源性抗氧化防御体系而提高线粒体功能和调控氧化还原平衡。因此,长期的运动训练预防衰老相关疾病和提高老年人的生命质量很可能是通过调控线粒体功能和氧化还原平衡而发挥作用。  相似文献   

4.
植物种子衰老与线粒体关系的研究进展   总被引:1,自引:0,他引:1  
种子的衰老是一个复杂的从量变到质变的生物学过程。种子衰老与线粒体功能异常密切相关,衰老的线粒体学说认为,线粒体中活性氧的过量产生是种子衰老的主要原因。深入了解种子衰老过程中线粒体的变化对于揭示种子衰老机理和种子安全保存具有重要意义。本文主要介绍了当前有关种子衰老过程中线粒体结构、呼吸作用和抗氧化系统的研究现状,并对种子衰老与线粒体关系研究中存在的问题进行了讨论。  相似文献   

5.
从老龄生物体内活性氧自由基逐渐升高的角度来看,衰老的自由基学说还是很有说服力的。正是由于自由基对生物大分子及细胞、组织和器官的不断破坏,才让机体最终走向衰亡。不过,这个学说只说明衰老过程的中间环节有自由基的参与,但它并没有给出衰老的根本原因,因为它未能解释为什么衰老会使自由基增多,而且自由基增多的情况也在  相似文献   

6.
《生命世界》2005,(8):24-24
美国佛罗里达大学的一项研究发现,因肥胖和缺乏锻炼(而不是来自自由基的氧化压力)导致的线粒体 DNA 突变可能是衰老过程中的一个关键因子。研究人员培养出了无法检测并修复 DNA 复制过程中错误的小鼠,它们DNA 的突变数量增加了,而氧化压力并没有增加,但是小鼠细胞的凋亡水平  相似文献   

7.
拥有健康的晚年是每一个人的祈盼,这也是目前应对即将到来的社会老龄化危机而需要解决的重要课题.实现健康衰老需要对人类衰老发生的机制有深入的了解,比如在此过程中扮演着重要角色的线粒体的研究.线粒体是细胞能量和自由基代谢中心,也是细胞凋亡调控中心,并在信号转导和基因表达调控中发挥重要作用.线粒体一旦受损,一方面能量代谢发生紊乱,另一方面产生大量自由基,影响细胞的正常生长,并导致细胞甚至机体的衰老.正常情况下,细胞通过自噬溶酶体机制选择性清除受损伤和不需要的线粒体,这是线粒体质量控制的重要机制.研究发现,线粒体质量控制异常可能在衰老发生过程中起关键作用.限食及增强运动能有效促进线粒体质量控制,改善线粒体功能并延缓衰老.  相似文献   

8.
拥有健康的晚年是每一个人的祈盼,这也是目前应对即将到来的社会老龄化危机而需要解决的重要课题.实现健康衰老需要对人类衰老发生的机制有深入的了解,比如在此过程中扮演着重要角色的线粒体的研究.线粒体是细胞能量和自由基代谢中心,也是细胞凋亡调控中心,并在信号转导和基因表达调控中发挥重要作用.线粒体一旦受损,一方面能量代谢发生紊乱,另一方面产生大量自由基,影响细胞的正常生长,并导致细胞甚至机体的衰老.正常情况下,细胞通过自噬溶酶体机制选择性清除受损伤和不需要的线粒体,这是线粒体质量控制的重要机制.研究发现,线粒体质量控制异常可能在衰老发生过程中起关键作用.限食及增强运动能有效促进线粒体质量控制,改善线粒体功能并延缓衰老.  相似文献   

9.
泛议衰老   总被引:3,自引:0,他引:3  
黄燕  赵寿元 《生命科学》2002,14(2):65-69
衰老是机体在退化时期功能下降及生理紊乱的综合表现,与机体的自由基水平,染色体端粒长度和衰老过程中起作用的重要基因有密切关系。作者重点介绍自由学说、饮食限制学说、端粒学说,以及衰老相关基因WRN、koltho和胰岛素样生长因子1(IGF-1)的信号传导途径、从遗传学的角度对衰老机理作一阐述。  相似文献   

10.
线粒体DNA(mitochondrial DNA,mtDNA)复制控制区(又称D-环区)是线粒体非编码区中较为重要的区域,参与并调节线粒体DNA的复制与转录。然而,与核基因组不同的是,线粒体DNA的复制与转录并不是相互独立的,而是存在着密切的联系。从目前的研究看来,复制控制区的某些变化很可能会引起mtDNA复制、转录的变化,从而导致线粒体功能的变化,最终引起线粒体疾病或衰老的发生。  相似文献   

11.
According to the free radical theory of aging, oxygen-derived free radicals causes the age-associated impairment at the cellular and tissue levels. The mitochondrial theory of aging points to mitochondria, and specially mitochondrial DNA, as the major targets of free radical attack upon aging. Thus, oxidative damage to mtDNA accumulate with age in human and rodent tissues and also is inversely related to maximum life span of mammals. Mitochondrial deficits, such as a decrease in mitochondrial membrane potential, occur upon aging due to oxidative damage. The age-related mitochondrial oxidative stress may be prevented by late onset administration of certain antioxidants, such as Ginkgo biloba extract EGb 761. These antioxidants may also delay the physiological impairment associated with aging.  相似文献   

12.
Free radical-induced damage to DNA: mechanisms and measurement   总被引:25,自引:0,他引:25  
Free radicals are produced in cells by cellular metabolism and by exogenous agents. These species react with biomolecules in cells, including DNA. The resulting damage to DNA, which is also called oxidative damage to DNA, is implicated in mutagenesis, carcinogenesis, and aging. Mechanisms of damage involve abstractions and addition reactions by free radicals leading to carbon-centered sugar radicals and OH- or H-adduct radicals of heterocyclic bases. Further reactions of these radicals yield numerous products. Various analytical techniques exist for the measurement of oxidative damage to DNA. Techniques that employ gas chromatography (GC) or liquid chromatography (LC) with mass spectrometry (MS) simultaneously measure numerous products, and provide positive identification and accurate quantification. The measurement of multiple products avoids misleading conclusions that might be drawn from the measurement of a single product, because product levels vary depending on reaction conditions and the redox status of cells. In the past, GC/MS was used for the measurement of modified sugar and bases, and DNA-protein cross-links. Recently, methodologies using LC/tandem MS (LC/MS/MS) and LC/MS techniques were introduced for the measurement of modified nucleosides. Artifacts might occur with the use of any of the measurement techniques. The use of proper experimental conditions might avoid artifactual formation of products in DNA. This article reviews mechanistic aspects of oxidative damage to DNA and recent developments in the measurement of this type of damage using chromatographic and mass spectrometric techniques.  相似文献   

13.
When biomolecules such as proteins, lipids, and DNA are subjected to oxidative attack by free radicals or other reactive species, a number of measurable biomarkers may be produced. The study of oxidative DNA damage is valuable in research concerning cancer and aging. The current review includes methodology involving various separation science techniques for the analysis of DNA oxidation biomarkers, mainly 8-hydroxy-2'-deoxyguanosine. This review will present recent analytical developments with respect to sample preparation and instrumental considerations, noting key outcomes and biological relevance where appropriate.  相似文献   

14.
Reactive species generated by chemicals and UV radiation can cause sequence-specific DNA damage and play important roles in mutagenesis, carcinogenesis and aging. We have investigated sequence specificity of oxidative stress-mediated DNA damage by using 32P-labeled DNA fragments obtained from the human c-Ha-ras-1 and p53 genes. Free hydroxyl radical causes DNA damage with no marked site specificity. Reactive nitrogen species, sulfate radicals, nitrogen-centered radicals, benzoyloxyl radical and alkoxyl radical show different sequence specificity. Benzoyloxyl radical specifically causes damage to the 5'-G in GG sequence. UVA radiation also causes DNA damage at this site through electron transfer in the presence of certain photosensitizers. The 5'-G in GG sequence is easily oxidized because a large part of the highest occupied molecular orbital is distributed on this site. On the basis of these findings, the sequence specificity of DNA damage is presumably determined by (a) redox potential of reactive species; (b) ionization potential of DNA bases; and (c) site-specific binding of metal ion to DNA. Here we discuss the mechanisms of sequence-specific DNA damage in relation to carcinogenesis and aging.  相似文献   

15.
Vitamin E and genome stability   总被引:8,自引:0,他引:8  
Free radicals and reactive oxygen species (ROS) which are generated continuously cause mutagenic alterations resulting in cancer, aging and abnormalities in the nervous system. Accumulating evidence indicates that Vitamin E, the most potent lipid peroxyl radical scavenger, may reduce free radical induced chromosomal damages through inhibition of free radical formation, and activation of endonuclease that can be triggered by intracellular oxidative stress, and by increasing the rate of removal of damaged DNA. Although some studies suggest a potential usefulness of Vitamin E in the prevention of mutagenic effects caused by genotoxic free radicals, other studies report no effects. Thus the data are not conclusive enough to be used as a basis to change the current recommended dietary allowances (RDA). Future research should address molecular mechanisms underlying the protective effects of Vitamin E and develop appropriate biologically relevant biomarkers of DNA damage to further help in determining the dietary levels of Vitamin E needed to protect the genetic pool from internally and externally induced DNA damages.  相似文献   

16.
The aetiology of most neurodegenerative disorders is multifactorial and consists of an interaction between environmental factors and genetic predisposition. Free radicals derived primarily from molecular oxygen have been implicated and considered as associated risk factors for a variety of human disorders including neurodegenerative diseases and aging. Damage to tissue biomolecules, including lipids, proteins and DNA, by free radicals is postulated to contribute importantly to the pathophysiology of oxidative stress. The potential of environmental exposure to metals, air pollution and pesticides as well as diet as risk factors via the induction of oxidative stress for neurodegenerative diseases and aging is discussed. The role of genetic background is discussed on the light of the oxidative stress implication, focusing on both complex neurodegenerative diseases (Alzheimer's disease, Parkinson's disease, amyotrophic lateral sclerosis) and monogenic neurological disorders (Huntington's disease, Ataxia telangiectasia, Friedreich Ataxia and others). Emphasis is given to role of the repair mechanisms of oxidative DNA damage in delaying aging and protecting against neurodegeneration. The emerging interplay between environmental-induced oxidative stress and epigenetic modifications of critical genes for neurodegeneration is also discussed.  相似文献   

17.
Antioxidant lipoate and tissue antioxidants in aged rats   总被引:6,自引:0,他引:6  
Oxidative metabolism produces free radicals that must be removed from the cellular environment for the cell to survive. The levels of nonenzymic antioxidants involved in the elimination of free radicals were investigated in an attempt to correlate any changes in the levels of enzymic antioxidants during aging with changes in free radical mediated cellular damage. Antioxidants were measured in liver and kidney of young and aged rats with respect to DL-alpha-lipoic acid supplemented rats. In both organs lipid peroxidation damage (a marker of free radical mediated damage) increased with age, and a significant decrease in antioxidant systems was observed. Moreover, DL-alpha-lipoic acid treated aged rats showed a decrease in the level of lipid peroxides and an increase in the antioxidant status. The results of this study provide evidence that DL-alpha-lipoic acid treatment can improve antioxidants during aging and minimize the age-associated disorders in which free radicals are the major cause.  相似文献   

18.
Production of free radicals in animals is accompanied with a number of pathologic conditions, some of which may be manifested through DNA damage. Studies of mechanisms of oxidative DNA damage by free radicals in vivo are hindered by the lack of good animal models with significant overgeneration of or increased sensitivity to free radicals. An inbred rat strain (OXYS) is characterized by inherited overgeneration of free radicals, lipid peroxidation, protein oxidation, DNA rearrangements, and pathological conditions paralleling several human degenerative diseases. We have used monoclonal antibodies against a common pre-mutagenic base lesion 8-oxoguanine (8-oxoG) in combination with indirect immunofluorescence microscopy and image analysis to follow the relative age-dependent amounts and distribution of 8-oxoG in liver cells from OXYS and Wistar rats. 8-OxoG increased with age in both strains of rats, with OXYS rats always displaying statistically significantly higher levels of oxidative DNA damage than Wistar rats. Statistical analysis indicates that 8-oxoG does not uniformly accumulate in all cells with advancing age or increasing free radical load, but rather concentrates in a minor fraction of cells with a high damage level.  相似文献   

19.
The aging brain, metals and oxygen free radicals.   总被引:4,自引:0,他引:4  
In this overview we bring together certa in facts and concepts that support the theory that the aging of "disease-free" brain is a consequence of the accumulated cellular-molecular modifications caused by oxygen free radicals. The relevance of transition metals, especially iron ions, in the production of oxygen free radicals, initiation of oxidative chain-reactions and in site-specific molecular modifications is documented. Mitochondria are identified as the major source of oxygen free radicals, and mitochondrial DNA is a likely target. Special attention is given to iron-sulfur clusters as sources of reactive iron and sites of modifications. Potential mechanisms by which oxygen free radicals can alter membrane receptors and intracellular signaling are cited. Although the evidence is still correlative, the oxygen free radical theory has strong experimental support and has promise for facilitating a better understanding of the "disease-free", aging brain.  相似文献   

20.
DNA damage produced by free radicals is probably the most frequent lesion encountered by cells (Wallace, S.S., Environmental and Molecular Mutagenesis 12, 431-477, 1988 (1)). One of the most common effects is the formation of 7-hydro-8-oxodeoxyguanine due to oxygen radicals interacting with the normal guanine base. Such chemical changes appear to be important in mutagenesis, cancer and aging. We have used computer simulation techniques to model the effect of inclusion of such a modified base within a duplex strand of DNA. We find that such modifications can be stabilized within a normal sequence. The conformation of the modified base relative to the sugar residue depends on many local interactions not accessible to the isolated nucleoside. We have also studied the essential dynamics of both normal and modified sequences and show that there are only subtle changes to the dynamics on inclusion of such a modification.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号