Ag-positive nucleolar organizer regions (NORs) and associations of silver-stained acrocentric chromosomes were studied in 400 metaphases from 20 male and female subjects aged 20–50 and 80 or over. The number of Ag-positive NORs and the frequency of chromosome associations were found to be decreased significantly at 80 and thereafter in comparison with middle age. The use of G stain revealed a significant age-dependent decline in the numbers of argent-affine 13th and 21st chromosomes and the frequency of associations formed by the 13th and 22nd chromosomes. These phenomena seem to be determined by heterochromatinization of satellite stalks of the 13th, 21st and 22nd chromosomes during aging.
The effect of the synthetic peptide bioregulator Vilon on structural and facultative heterochromatin of cultured lymphocytes from old people has been studied. The data obtained indicate that Vilon (a) induces unrolling (deheterochromatinization) of total heterochromatin; (b) activates synthetic processes caused by the reactivation of ribosomal genes as a result of deheterochromatinization of nucleolus organizer regions; (c) releases the genes repressed due to the condensation of euchromatic regions forming facultative heterochromatin; (d) does not induce decondensation of pericentromeric structural heterochromatin. Our results indicate that Vilon causes progressive activation (deheterochromatinization) of the facultative heterochromatin with increased aging.
The functional characteristics of chromosomes (level of total heterochromatin, chromosome instability, and sister chromatid exchanges [SCEs]) were studied in cultured lymphocytes derived from 80- to 91-year-old and 18- to 30-year-old (control group) individuals under the single and combined effect of CoCl(2) and bioregulator Livagen. The results obtained showed that chromosome heterochromatinization (condensation of eu- and heterochromatin regions) had progressively increased with aging and led to inactivation of a number of once functioning "active genes." The peptide bioregulator Livagen could induce reactivation (deheterochromatinization) of chromatin to modify heterochromatinized chromosomal regions in cultured lymphocytes of aged individuals. Our results indicated that metal ions (CoCl(2)) caused a significant increase in the level of chromosomal aberrations in old donors in comparison with the control group (P < 0.05). The peptide bioregulator Livagen was effective in decreasing the number of changes induced by the CoCl(2) 3.4 +/- 0.6% (control group 4.2 +/- 0.7%). Co(2+) ions single and Co(2+) ions in combination with the Livagen changed the distribution of SCE over chromosomes: pericentromeric heterochromatin was more sensitive to the effect of CoCl(2) (15.4 +/- 1.8% SCE), while SCE were mostly registered in telomeric heterochromatin under the combined effect of CoCl(2) and Livagen 12.0 +/- 1.2% SCE (control group 4.5 +/- 0.6% and 2.8 +/- 0.5% SCE, respectively). Thus, we have first demonstrated that Co(2+) ions separately and in combination with the bioregulator Livagen have different chromosomal target regions as demonstrated by SCE induction, deheterochromatinization of precentromeric and telomeric heterochromatin in lymphocytes from old individuals.
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