Revision of th distribution of chromosome aberrations induced by chemical mutagens using the BUDR label

Cell distribution was analysed with the help of the BrDU label for the number of chromosome aberrations and breaks induced by one-center (thiophosphamide and phosphamide) and two-center (dipine and fotrine) mutagens at the stage G0 in the Ist mitosis of human lymphocytes harvested at different times of culturing (from 56 to 96 h). The comparison was made between the type of aberration distribution in cells and the dependence of their frequency on the harvesting point for various mutagens. Poisson aberration distribution in cells for two-center mutagens was found to correspond to their constant frequency observed at different times of harvesting. On the other hand, for one-center mutagens, a geometrical distribution of chromosome breaks corresponded to an exponential decrease in their frequency in time. It is suggested that two-center chemical mutagens and ionizing radiation cause largely short-live damages which are realized into chromosome aberrations rather quickly (during one cell cycle). One-center mutagens, however, cause such damages that the probability of their transformation into chromosome aberrations is decreasing rather slowly in time, under the exponential law, and their realization into chromosome aberrations can occur in subsequent cell cycle.     

The genetics and specificity of the constitutive excision repair system of Bacillus subtilis

An isogenic set of DNA repair-proficient and -deficient strains of B. subtilis, cured of all prophages, were constructed and analyzed for their sensitivities to selected mutagens. The results demonstrated that the lethal damage caused by ultraviolet (UV) radiation and by 4-nitroquinoline-1-oxide (4NQO) were repaired by the bacterial excision and/or recombination repair systems. In contrast, the lethal damages caused by ethyl methane sulfonate (EMS) and methyl methane sulfonate (MMS) were removed from the DNA by the recombination repair system of the bacteria, and not by the excision repair system. Significantly, the bacteria required both a functional recombination repair system and a functional excision repair system in order to remove the DNA damage caused by the bifunctional alkylating agent mitomycin C (MC).     

Carcinogenic aging

In ours and other studies, data have been obtained testifying to the fact that, under the action of various classes of chemical carcinogenic agents (polycyclic aromatic hydrocarbons, nitrous compouds, aromatic amines), other mutagens, ionizing radiation, extremely low frequency (50 Hz), electromagnetic fields (EMFs), constant illumination, and smoking, in the basic homeostatic systems of an organism (nervous, endocrine, immune, and energy homeostasis) premature hormonal, and metabolic shifts occur similar to those arising during physiological aging. These shifts create favorable conditions for the promotion and progression stages of carcinogenesis. The use of genetically modified animals (mutant, transgenic, or knockout) opens new possibilities for analyzing the role of individual genes in the interrelationships between processes of natural and accelerated, by environmental factors, aging. For genetically modified mice with phenotypic signs of accelerated aging, as a rule, the frequency of new-growth development increases, then for animals with decelerated aging, an increase in the latent period of tumor development and/or a decrease in the frequency of their appearance is noted. The application of geroprotectors under conditions of increased risk of accelerated aging resulting genetically or from adverse environmental factors (carcinogens, mutagens, peculiarities in diet) can be a first line prevention against cancer.     

Number of aberrations per cell as a parameter of chromosome instability. 2. Comparative analysis of the factors of different nature

The average number of aberrations per aberrant cell was concluded to carry out information on chromosome instability peculiarities induced by different mutagens as it was shown in our previous work. The purpose of the current study was to present comparative analysis of intercellular distribution of number of aberrations and their theoretical approximations. Distribution of numbers of aberrations per cell in Allium cepa L. and Allium fistulosum L. root tip cells induced by different mutagenic factors (gamma-irradiation, thiotepa, formaldehyde and seed aging) have been studied. The results were approximated to theoretical Poisson, geometric and negative binomial distributions. The intercellular distribution of aberrations did not correspond to any of the used theoretical distributions when A. cepa seeds were gamma-irradiated. There was some, but not regular, accordance with theoretical distributions when chemical mutagens thiotepa in A. cepa and formaldehyde in A. fistulosum and seed aging in both species were evaluated. During seed aging frequency of aberrant cells increased more quickly in A. fistulosum in comparison with A. cepa.     

Ethanol feeding enhances age-related deterioration of the rat hepatic mitochondrion

Chronic ethanol feeding damages the hepatic mitochondrion by increasing mitochondrial DNA (mtDNA) oxidation, lowering mtDNA yields and impairing mitochondrial respiration. These effects are also seen during aging. By employing a 21-day chronic feeding regimen, we investigated the effects of ethanol consumption on mtDNA content and mitochondrial respiration in 2-, 12-, and 24-mo-old male rats. Aging resulted in decreased mtDNA content, increased mtDNA damage (as indicated by inhibition of Taq polymerase progression), and a decline in state 3 respiration; effects that were further exacerbated by ethanol feeding. Additionally, ethanol consumption caused an increase in the levels of citrate synthase while not impacting mitochondrial protein content. In conclusion, ethanol and aging combine to cause deterioration in the structural and functional integrity of the hepatic mitochondrion. The additive effects of aging and ethanol feeding may have serious consequences for hepatic energy metabolism in aged animals, and their detrimental combination may serve as one of the molecular mechanisms underlying the progression of alcoholic liver disease.     

Regulation of base excision repair proteins by ubiquitylation

Human cellular DNA is under constant attack from both endogenous and exogenous mutagens, and consequently the base excision repair (BER) pathway plays a vital role in repairing damaged DNA bases, sites of base loss (apurinic/apyrimidinic sites) and DNA single strand breaks of varying complexity. BER thus maintains genome stability, and prevents the development of human diseases, such as premature aging, neurodegenerative diseases and cancer. Indeed, there is accumulating evidence that misregulation of BER protein levels is observed in cells and tissues from patients with these diseases, and that post-translational modifications, particularly ubiquitylation, perform a key role in controlling BER protein stability. This review will summarise the presently available data on ubiquitylation of some of the key BER proteins, and the functional consequences of this modification.     

Aging‐like skin changes in metabolic syndrome model mice are mediated by mineralocorticoid receptor signaling

Aging is accelerated, at least in part, by pathological condition such as metabolic syndrome (MetS), and various molecular pathways such as oxidative stress are common mediators of aging and MetS. We previously developed the aging‐like skin model by single ultraviolet (UV) irradiation on the MetS model mice. Recent studies revealed that mineralocorticoid receptor (MR) signaling plays a pivotal role for various tissue inflammation and damages in MetS. Although previous studies reported that MR is expressed in the skin and that overexpression of MR in the skin resulted in the skin atrophy, the physiological or pathological functions of MR in the skin are not fully elucidated. Here, we show the involvement of MR signaling in the aging‐like skin changes in our own model. Elevations of oxidative stress and inflammation markers were observed in the MetS mice, and the UV‐evoked aging‐like skin damages were attenuated by topical antioxidant. MR expression was higher in the MetS mouse skin, and notably, expression of its effecter gene Sgk1 was significantly upregulated in the aging‐like skin in the UV‐irradiated MetS mice. Furthermore, topical application of MR antagonist spironolactone suppressed Sgk1 expression, oxidative stress, inflammation, and the aging‐like changes in the skin. The 2‐week UV onto the non‐MetS mice, the more usual photoaging model, resulted in the skin damages mostly equivalent to the MetS mice with single UV, but they were not associated with upregulation of MR signaling. Our studies suggested an unexpected role of MR signaling in the skin aging in MetS status.     

Mitochondrial mutations may increase oxidative stress: Implications for carcinogenesis and aging?

The sensitivity of mitochondrial DNA to damage by mutagens predisposes mitochondria to injury on exposure of cells to genotoxins or oxidative stress. Damage to the mitochondrial genome causing mutations or loss of mitochondrial gene products, or to some nuclear genes encoding mitochondrial membrane proteins, may accelerate release of reactive species of oxygen. Such aberrant mitochondria may contribute to cellular aging and promotion of cancer.     

Cardio-protective determinants are conserved in aged human myocardium after ischemic preconditioning

Ischemic preconditioning (IPrec) improves post-ischemic dysfunctions of the myocardium along with activation of protein kinase C isozymes including PKCdelta. Moreover, expression of cardio-protective determinants can reduce ischemic damages. Because IPrec is limited in aged hearts, we assessed in an experimental model the impact of aging on PKCdelta and selected protective proteins in the preconditioned myocardium from adult (< or =55) and older (> or =70 years) humans. Adult myocardium showed PKCdelta up-regulation after IPrec along with improved post-ischemic contractility. Although there was no functional benefit, PKCdelta increased in older myocardium as well. Subsequent mRNA analyses demonstrated that IPrec stabilizes the mRNA expression of protective proteins (Hsp70, Bcl-2/-xL, IAPs) in both aging groups. Moreover, older hearts revealed increase in post-ischemic Hsp90beta. Our study indicates, that IPrec conserves the expression of cardio-protective determinants in aged hearts despite limited functional recovery.     

家蚕化学诱变剂及诱导突变体的筛选

在家蚕Bombyx mori基因组计划完成之后,其功能基因组研究成为该领域的最重要课题。突变体是功能基因组学研究的重要材料,因此,通过人为诱导获取大量的突变系统是及其重要的手段。本研究用化学诱变剂ENU、MNU、DES、5-BU、EMS诱导处理家蚕标准品种C108,筛选获得了非滞育红卵,长圆筒茧、小茧、丝胶茧及绵茧突变体,致死突变体及无鳞毛蛾翅突变体。结果还表明： MNU、DES诱变家蚕的突变效率高,注射翅原基比腹部更方便且效果好,化学诱导雄体比雌体的效果好; 在时期上,注射蛹和蛾都有诱导效果。上述突变体大多为致死性突变,推测其可能与致死性基因突变有关。同时,本研究为应用TILLING技术鉴定家蚕更多目的基因突变体提供了有效的材料。     

Genotype- and age-associated in vivo cytogenetic alterations following mutagenic exposures in mice

We studied mice from eight genetic strains at two ages (young, 10 weeks; and old, more than 80 weeks) for cytogenetic alterations (sister chromatid exchange (SCE), micronuclei, and metaphase indices) following challenges by two known mutagens: N-nitrosoethyl urea (ENU, 17 mg/kg) and cyclophosphamide (CP, 4.5 mg/kg) on bone marrow cells in vivo. The data were used to evaluate the effect of age, genotype, and differential aging patterns of genotypes in relative susceptibility to chromosomal breakage and instability in otherwise normal individuals. The older animals had a higher frequency of micronuclei, reduced metaphase indices, and lower SCE/cell as compared with their younger counterparts. Treatment with both mutagens significantly increased micronuclei and SCEs/cell in almost all strains at both ages but had little effect on the frequency of cells in metaphase. Among individual differences for SCEs/cell at most treatment combinations were not significant. In general, the induced SCEs (treatment-control) are significantly higher in older animals, variable among strains, and relatively higher as a result of CP than the ENU treatment. When the age effect was evaluated as the difference of SCE/cell in old and SCE/cell in young animals of each genotype-treatment combination, an age-dependent pattern was evident. In the presence of a mutagen the pattern in aging response was highly variable and strain (genotype) dependent. This variability may be viewed as subtle inherent genetic predisposition of sensitivity to mutagens that could be evaluated only using sensitive measures (e.g., SCE and not micronuclei) following more than one mutagenic challenges. These subtle differences could become pronounced when these parameters are evaluated at different ages on the same genotype.(ABSTRACT TRUNCATED AT 250 WORDS)     

PERSPECTIVE: THE EVOLUTIONARY BIOLOGY OF AGING,SEXUAL REPRODUCTION,AND DNA REPAIR

Three recent books on the evolutionary biology of aging and sexual reproduction are reviewed, with particular attention focused on the provocative suggestion by Bernstein and Bernstein (1991) that senescence and genetic recombination are related epiphenomena stemming from the universal challenge to life posed by DNA damages and the need for damage repair. Embellishments to these theories on aging and sex are presented that consider two relevant topics neglected or underemphasized in the previous treatments. The first concerns discussion of cytoplasmic genomes (such as mtDNA), which are transmitted asexually and therefore do not abide by the recombinational rules of nuclear genomes; the second considers the varying degrees of cellular and molecular autonomy which distinguish unicellular from multicellular organisms, germ cells from somatic cells, and sexual from asexual genomes. Building on the Bernsteins' suggestions, two routes to immortality for cell lineages appear to be available to life: an asexual strategy (exemplified by some bacteria), whereby cell proliferation outpaces the accumulation of DNA damages, thereby circumventing Muller's ratchet; and a sexual strategy (exemplified by germlines in multicellular organisms), whereby recombinational repair of DNA damages in conjunction with cell proliferation and gametic selection counter the accumulation of nuclear DNA damages. If true, then elements of both the recombinational strategy (nuclear DNA) and replacement strategy (cytoplasmic DNA) may operate simultaneously in the germ-cell lineages of higher organisms, producing at least some gametes that are purged of the DNA damages accumulated during the lifetime of the somatic parent. For multicellular organisms, production of functionally autonomous and genetically screened gametic cells is a necessary and sufficient condition for the continuance of life.     

Induction of micronuclei in tadpoles of Rana temporaria and Xenopus laevis by the pyrethroid Fastac 10 EC.

The mutagenic properties of the pyrethroid Fastac 10 EC were estimated using the micronucleus test in tadpoles of Rana temporaria and Xenopus laevis. The frequency of erythrocytes with micronuclei was examined in blood smears obtained from animals kept for 14 days in water containing 3 different concentrations of Fastac 10 EC. The study was accompanied by a positive control using the known mutagens cyclophosphamide and N-methyl-N-nitrosourea. The results obtained showed that at high concentrations Fastac 10 EC has a clastogenic activity and/or damages the mitotic spindle, as manifested by a significant increase in the frequency of the micronucleated red blood cells. It was also demonstrated that tadpoles of Rana temporaria are more sensitive to the mutagenic effect of the pyrethroid than are those of Xenopus laevis.     

TOR-driven aging: Speeding car without brakes

This article discusses that the traditional analogy of an aging organism with a rusting (albeit self-repairing) car is misleading. The true analogy is a speeding car that enters a low-speed zone and damages itself because it does not and cannot slow down. For such a car without brakes (and actually without a driver), aging from rusting never occurs. Using simple analogies (although turning gerontology upside down), this article discusses the origin of aging, how overactivation of the mTOR (Target of Rapamycin) pathway causes aging, why aging causes damage (organ damage) not damage causes aging, the link between aging and age-related diseases, slow aging versus aging tolerance and suppression of aging with rapamycin.     

香烟烟雾水溶液中的活性氧及其对姊妹染色单体互换的影响

SCE频率分析是研究环境诱变剂和致癌剂引起人类遗传物质损伤的有效手段。以人类外周血林巴细胞姊妹染色单体交换（SCE）为指标,评价了香烟烟雾水溶液的遗传毒性。首先,定量测定了香烟烟雾水溶液中含有H2O2、O2-等活性氧,从而间接证明了其潜在的遗传毒性。然后,将一定量的香烟烟雾水溶液加入人外周血淋巴细胞培养液中,结果表明实验组SCE频率明显高于空白对照组,因此直接证明了香烟烟雾水溶液的遗传毒性。     

Regulation of Survival Networks in Senescent Cells: From Mechanisms to Interventions

Cellular senescence is a state of stable cell cycle arrest arising in response to DNA and mitochondrial damages. Senescent cells undergo morphological, structural and functional changes that are influenced by a number of variables, including time, stress, tissue, and cell type. The heterogeneity of the senescent phenotype is exemplified by the many biological properties that senescent cells can cover. The advent of innovative model organisms has demonstrated a functional role of senescent cells during embryogenesis, tissue remodeling, tumorigenesis and aging. Importantly, prolonged and aberrant persistence of senescent cells is often associated with tissue dysfunction and pathology, and is partially the consequence of mechanisms that enhance survival and resistance to cell death. Here, we describe the main molecular players involved in promoting survival of senescent cells, with particular emphasis on the regulation of senescence-associated anti-apoptotic pathways. We discuss the consequences these pathways have in providing resistance to intrinsic and extrinsic pro-apoptotic signals. Finally, we highlight the importance of these pathways in the development of targets for senolytic interventions.     

Effets de la zearalenone sur la cellule bactérienne

Zearalenone, a macrocyclic lactone, shows a limited antibacterial activity which can be demonstrated in Grampositive spore-forming bacteria. In a sensitive Bacillus thuringiensis (Berliner), the mycotoxin disturbs various bacterial metabolisms: physiological damages (decreased growth rate, inhibition of sporulation and enzyme synthesis) and cellular alterations (filamentous forms or snake-cells) are noted. On the other hand, although zearalenone has been found to give a positive response in the presumptive screening test for mutagens measured by DNA-attacking ability on Bacillus subtilis, this mycotoxin failed to demonstrate mutagenicity in routine test using liver homogenate and Salmonella typhimurium strains.