Senescence and immortalization of human cells.
Duncan, Emma L. 1; Wadhwa, Renu 2; Kaul, Sunil C. 1,*
[Review] Biogerontology. 1(2):103-121, 2000.

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Following a limited number of population doublings (PD), human diploid somatic cells enter the terminal proliferation arrest state of senescence. This is an intrinsic mechanism which involves p53- and pRB/p16INK4-mediated pathways. The most popular candidate for the counting mechanism which measures the age of a cell in PD is telomere shortening. Recent studies have shown that senescence can also be induced independently of a PD level by various factors; this premature senescence also appears to involve the activity of p53 and/or p16INK4. Immortalization of cells requires abrogation of p53 and pRB-mediated terminal proliferation arrest and/or activation of a telomere maintenance mechanism. The central role of telomeres in human cell senescence and immortalization has received much attention; however there is evidence that senescence can occur independently of telomere length and that genes that are not necessarily involved in telomere maintenance are involved in immortalization.

(C)2000 Kluwer Academic Publishers