[Proliferative senescence of embryo fibroblasts of Japanese senescence accelerated mice (SAM) is accompanied by parallel decreasing of response to various growth factors].

The Japanese senescence accelerated mice (SAM) are a group of the low-longevity mouse lines and represent a new convenient model for studying the senescence process. We studied the proliferation of embryo fibroblasts of SAMP1 and SAMR1 mouse lines. It was shown that fibroblasts of the shortest longevity line SAMP1 have a markedly decreased proliferative potential of the mean 8.

[Positive and negative regulation of replication in hybrid cells].

DNA replication blockage in various differentiated cells was investigated on the model of heterokaryons. Two distinct types of DNA synthesis regulation in heterokaryons "differentiated cell + proliferating cell" were revealed: I. Neutrophils and nucleated erythrocytes efficiently prevented the entry of non-malignant proliferating cells nuclei into the S-period but usually failed to substantially inhibit the replication in malignant cells nuclei.

[DNA synthesis in heterokaryons obtained by the fusion of polymorphonuclear leukocytes and cultured cells possessing different proliferative potentials].

Heterokaryons between terminally differentiated polymorphonuclear leukocytes (PL) and culture cells of different proliferative potentials: mouse and rat embryo fibroblasts (EFM, EFR); immortal cells NIH 3T3 and E2; malignant cells NCC2, L929, He239 and SV 3T3,--were obtained by means of electrofusion. Radioautographic study of 3H-thymidine incorporation in the nuclei of heterokaryons showed that all the cells taken for fusion were able to induce reactivation of DNA synthesis in PL nuclei, however, with different rates: 7-37% for EFM and NIH 3T3 and 20-40% for malignant cells. The presence of oncogenes Elan in E2 cells and ras in NCC2 cells increased the rate of PL reactivation approximately twice as compared with the cells of original lines (EFR and NIH 3T3, correspondingly).

[The nature of a proliferation block in differentiated cells with heterokaryons as a model: various types of absence of proliferation in cells in terminal differentiation].

Heterokaryons obtained by fusion of proliferating and terminally differentiated cells were studied. The data obtained suggest that mechanisms of proliferation arrest are different in macrophages on one hand and nucleate erythrocytes and polymorph leukocytes on the other. Macrophages appeared to be devoid of factors preventing replication in nontransformed and spontaneously immortalized cells.