[Experimental Evidence of Proliferation and Reproduction of Highly Differentiated Sertoli Cells].

The main results of studies regarding the biology of Sertoli cells under various experimental conditions are considered. Possible potential mechanisms underlying the transition of highly differentiated Sertoli cells to dedifferentiation, limited by proliferation and reproduction and not accompanied by significant phenotypic changes, are discussed.

[Effect of Ultrasmall Gold Nanoparticles on the Murine Native Sperm Chromatin].

The effects of ultrasmall (2-3 nm) gold nanoparticles on native epididymal sperm chromatin of CBAxC57BL/6 hybrid mice and 129/IMG mice with a mutation in the DNA-polymerase iota gene were studied. It is shown that for both mouse strains after sperm incubation in a solution containing Au nanoparticles, at 23, 37 and 60 degrees C for 30 min followed by 1 hour treatment in dithiothreitol solution, a decrease in the number of nuclei with fully decondensed chromatin was observed compared with the control. Though, the manifestation of this effect in the population of 129/IMG mice mature sperm, was weaker. Also we have demonstrated that sperm of both strains that were incubated in a sol of Au nanoparticles at 60 degrees C behave differently under the action of dithiothreitol. A considerable part (-80%) of sperm of CBAxC57BL/6 hybrid mice treated with Au nanoparticles showed high resistance to the action of dithiothreitol, whereas in the case of 129/IMG mice only -30% did, and a partial or complete chromatin decondensation takes place in the remaining sperm. In general, using the method of nuclear chromatin decondensation in vitro for the native sperm, the patterns that we have identified in earlier studies on previously demembranized sperm are confirmed.

[Bovine sperm chromatin is not protected from the effects ultrasmall gold nanoparticles].

The response of ejaculated bovine spermatozoa to gold nanoparticles was studied by the standard method of nuclear chromatin decondensation in vitro. After the treatment of semen samples with a hydrosol containing gold nanoparticles with an average diameter of 3.0 nm and a concentration of 1 x 10(15) particles/mL, the ability of sperm nuclei to decondense in the presence of sodium dodecyl sulfate (SDS) and dithiothreitol (DTT) dramatically changed compared to the control. The frequencies of gametes with nondecondensed ("intact"), partially decondensed, and completely decondensed nuclei correlated as 40 : 32 : 28% and 0 : 36 : 64% in the experiment and the control, respectively. Moreover, the appearance of a sufficiently large number of gametes with destructed and almost completely destroyed nuclei was noticed in the spermatozoa treated with gold nanoparticles. This article suggests the putative mechanisms of action of ultrasmall gold nanoparticles on the structural and functional integrity of the deoxyribonucleoprotein (DNP) complex of mature male gametes.

[Effect of gold nanoparticles on mouse spermatogenesis].

The response of the mouse male germ cells exposed to gold nanoparticles (approximately 2.5 nm) was studied. Our investigation demonstrates that treatment with Au nanoparticles for four days does not impair the architecture of the spermatogenic epithelium. Cytogenetic evaluation using micronucleus assay showed that gold nanoparticles can affect the chromosomes of early primary spermatocytes. However, gold nanoparticles did not induce chromosome abnormalities in spermatogonial stem cells. Further, the cauda epididymal sperm was isolated on the 14th day after treatment and was incubated in SDS solution (Na sodium dodecyl) and then in a solution containing DTT (dithiothreitol) to induce nuclear chromatin decondensation. Observations showed that after four days of treatment of spermiogenic (postmeiotic) cells with gold nanoparticles the decondensation process had no differences from the control. On the contrary, in the experiment with the same cells and period of fixation but with a single exposure to gold nanoparticles, the number of mature gametes with totally decondensed nuclei reached 100% as opposed to 44% in the controls.

Regeneration potential of transplanted adult mouse sertoli cells.

The regeneration potential of differentiated Sertoli cells subjected to thermal treatment was studied by the method of cell transplantation. Cells from mice with artificial cryptorchism (1.5 months after fixation of the testes in the body) and after culturing (10 days, 37°C) were transplanted. Transplantation of Sertoli cells from 2-3-month-old and 2-day-old mice served as controls. The cells were transplanted into the testes of recipient mice, from which sex cells and Sertoli cells were removed by busulfan and cadmium salt treatment. Adult mouse Sertoli cells exposed to thermal treatment exhibited much higher regeneration potential than intact cells. Two months after transplantation, mature Sertoli cells subjected to thermal treatment populated the recipient testicular tubules, formed new tubules, and in some cases supported the development of sex cells similarly as immature cells from newborn mice.

[Ageing of the spermatogenesis system].

This review summarizes the data characterizing the effect of ageing on the development of male germ cells and their hereditary structures. We have studied causes of spermatogenesis reduction at late stages of ontogenesis. We have focused on age-specific changes of the structural-functional integrity of stem spermatogonial cells and their microenvironment (niche). We also examined several unique and specific features of the spermatogenic system in senescence-accelerated mutant mice (SAM), with accelerated ageing.

Chromatin Diminution Process Regulates rRNA Gene Copy Number in Freshwater Copepods.

The results of quantitative PCR (qPCR) presented in the paper clearly demonstrate that the sixteen-fold genome reduction inCyclops kolensisduring chromatin diminution (from 15.3 pg to 0.98 pg) results in a dramatic decrease in ribosomal RNA gene copy numbers in the genome of a somatic cell line by more than two orders of magnitude. The results presented allow for the consideration of the chromatin diminution as a mechanism of rDNA copy number regulation.

[Response of the spermatogenic system to chemical mutagen dipin in SAMP1 senesce-accelerated mice].

Specific features of spermatogenesis were studied in senesce-accelerated mice of the line SAMP-1 after one-time injection of the chemical mutagen dipin. Quantitative and histomorphological changes in the spermatogenic epithelium proved to develop gradually. Cell loss and disorganization of spermatogenesis reached the peak as late as on days 28 and 35 after the injection. Differentiating spermatogonia manifested increased sensitivity to dipin. In prophase I of meiosis, developing spermatocytes proved to be less sensitive to the cytotoxic action of dipin at the pachytene than at the preleptotene-leptotene stages. Spermatogenesis in most seminiferous tubules was restored by day 56 after dipin treatment. At the end of the experiment (day 100), both quantitative parameters and morphological pattern of spermatogenesis did not differ significantly from those in the control. Thus, the cytotoxic action of dipin does not lead to irreversible structural disorganization of the spermatogenic epithelium in SAMP1 mice. Radioautography revealed a large proportion of highly differentiated Sertoli cells with 3H-thymidine-labeled nuclei in experimental animals. In some cases, structures resembling embryonic seminiferous tubules were revealed in the vicinity of rete testis in testis sections of experimental mice. These structures contained the cells morphologically similar to gonocytes and young Sertoli cells.

[Estimation of the frequencies of induced mutations in spermatogenic cells of senescence-accelerated prone mice of the SAMP1 strain].

The results obtained in this work demonstrate the dynamics of cytogenetic changes of spermatogenic cells in senescence-accelerated prone mice, strain SAMP1, after a single exposure to a chemical mutagen, dipin, at a genetically active dose of 30 mg/kg. In the time interval between days 3 and 28 the frequency of induced spermatogonial micronuclei does not significantly exceed the level of spontaneous mutagenesis. The lack of an experimental effect of micronuclei in this time interval is probably a consequence of mitotic delay and (or) of the death of a considerable part of genetically defective cells in the spermatogonial compartment. Different stages of meiosis exhibit different chemical sensibilities: the yield of round spermatids with micronuclei is maximum after treatment of early primary spermatocytes (preleptotene-leptotene stage) with dipin. The high sensibility of preleptotene and leptotene spermatocytes is confirmed by the sperm head shape abnormality assay. Chromosome damage caused by dipin in spermatogonial stem cells is irreversible, as evidenced by a sharp increase in the frequencies of spermatogonial and meiotic micronuclear aberrations within long periods after treatment. Increased genetic instability in the stem compartment does not lead to irreversible degradation of the system of development of male sex cells in senescence-accelerated SAMP1 mice.

[Analysis of spermatogenesis in senescence-accelerated mice].

A comparative analysis of age-related dynamics of spermatogenesis has been performed in mutant mouse lines predisposed or resistant to accelerated senescence (SAMP1 and SAMR1 respectively). The results show that quantitative and morphohistological trends in the development of sperm cells and Sertoli cells in both lines are similar in both lines. Their comparison with data obtained in our previous studies (Zakhidov et al., 2001; Gordeeva et al., 2001) shows that sharp quantitative and qualitative changes in the structure of the spermatogenic system have occurred in senescence-accelerated mice of new generations, which confirms the fact of dynamic instability of the germinal lineage. The role of stem spermatogonial cells in restoration of spermatogenesis in animals reaching the critical age is discussed.

[Cytogenetic aberrations in the cells of liver and spermatogenetic epithelium in senescence accelerated SAMP1 and SAMR1 mice]. / Tsitogeneticheskie aberratsii v kletkakh pecheni i spermatogennogo épiteliia u uskorenno stareiushchikh myshei linii SAMP1 i SAMR1.

It was shown that during ontogenesis, the mice prone to (SAMP1) and resistant against accelerates senescence did not differ substantially in the frequency of cytogenetic aberrations in the hepatocytes and spermatogenic cells (spermatozoa and circular spermatids). These data suggest that in the mice of both lines, the processes of appearance, development, and functioning of complex biological systems, such as liver and testis, take place against the background of high genetic instability. The role of genetic instability in senescence is discussed.

[A biological model of accelerated aging. III. Histological characteristics of age-related changes of spermatogenic epithelium in mice SAM (senescence-accelerated mouse)]. / Biologicheskaia model' uskorennogo stareniia. III. Gistologicheskaia kharakteristika vozrastnykh izmenenii spermatogennogo épiteliia u myshei linii SAM (senescence-accelerated mouse).

The data characterizing the age-related morphological changes in the spermatogenic epithelium of SAMP1 (senescence-accelerated prone) and SDAMR1 (senescence-accelerated resistant) mice are presented. In many tubules, "early spermatogenesis" was accompanied by the formation of many morphologically abnormal germ cells on histological sections of the gonads of sexually immature (three-four weeks) mice of both strains. At this stage, destructive processes in the spermatogenic epithelium were more pronounced in SAMR1 mice. In sexually mature (two-three months) SAMP1 and SAMR1 mice, spermatogenesis as a whole proceeded normally. The first signs of regressive changes in the inner structure of most tubules (disintegration, detachment of spermatogenic epithelium from basal membrane) and morphology of germ cells (pycnosis, nuclear and cytoplasmic vacuolization) were found in SAMP1 mice at the age of six-seven months. In the older age groups (9-10 and 12-15 months), all types of spermatogenic cells were represented in both SAMP1 and SAMR1 mice, but most of these cells were atypical. Mitotic figures were recorded in a population of highly differentiated Sertoli cells.

[Biological model of accelerated senescence. II. Age-related changes in the number of developing male germ cells and Sertoli cells in gonads of senescence-accelerated mice]. / Biologicheskaia model' uskorennogo stareniia. II. Vozrastzavisimye izmeneniia chisla razvivaiushchikhsia muzhskikh polovykh kletok i kletok Sertoli v gonadakh myshei linii SAM (senescence-accelerated mouse).

It was shown that in immature three- to four-week-old mice prone to accelerated senescence (SAMP1 strain), the number of spermatogonia, pachytene spermatocytes, and circular spermatids exceeded that in mice resistant to accelerated senescence (SAMR1 strain) by more than two times. Differences were found in the pattern of age-related changes in the number of meiotic and postmeiotic cells in the sexually mature SAMP1 and SAMR1 mice. In the gonads of SAMP1 and SAMR1 mice, the number of Sertoli cells was unstable.