Differentiation of immortal cells inhibits telomerase activity.

Sharma, Harsh W.; Sokoloski, John A.; Perez, José R.; Maltèse, Jean-Yves; Sartorelli, Alan C.; Stein, C. A.; Nichols, Gwen; Khaled, Zahangir; Telang, Nitin T.; Narayanan, Ramaswamy

doi:10.1073/pnas.92.26.12343

Cited by 242 publications

(165 citation statements)

References 12 publications

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“…Indeed, although some variations of their expression could occur (Reichman et al, 1997), mRNAs encoding the other known enzymatic subunits are nearly ubiquitously expressed in telomerase negative cells Takakura et al, 1998). Down-regulation of telomerase activity has been found to be a frequent response to the induction of di erentiation of immortalized cell lines and generally linked to a decrease of mRNA encoding the catalytic subunit of the enzyme, TERT (Holt et al, 1996;Kruk et al, 1996;Sharma et al, 1995;Xu et al, 1999). We also found that downregulation of telomerase activity both in vivo, in mouse cortices, and in vitro, during NPC di erentiation, was directly linked to the down regulation of mTERT mRNA synthesis.…”

Section: Discussionmentioning

confidence: 56%

Fibroblast growth factor 2 up regulates telomerase activity in neural precursor cells

et al. 2000

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Section: Discussionmentioning

confidence: 56%

Fibroblast growth factor 2 up regulates telomerase activity in neural precursor cells

et al. 2000

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“…Recent studies argue that telomerase activity is regulated in the cell cycle, because the activity is linked to the proliferative potential and declines when the cells exit the cell cycle in the process of di erentiation (Sharma et al, 1995;Holt et al, 1996;Albannell et al, 1996;Bestilny et al, 1996). By using a synchronized cell population, it was also shown that telomerase activity was regulated in the cell cycle (Zhu et al, 1996).…”

Section: Discussionmentioning

confidence: 99%

“…One of underlying questions is whether telomerase activity could be regulated during the course of cell growth and di erentiation. Recently, it was shown that telomerase activity was downregulated when cell growth was inhibited by cell cycle inhibitors (Zhu et al, 1996) or the cells became quiescent in vitro (Sharma et al, 1995;Albannell et al, 1996;Bestilny et al, 1996;Holt et al, 1996). These previous studies suggest that telomerase activity is regulated in the process of cell growth and differentiation.…”

Section: Introductionmentioning

confidence: 99%

Telomerase activity in a specific cell subset co-expressing integrinβ1/EGFR but not p75NGFR/bcl2/integrin β4 in normal human epithelial cells

Kikuchi

Ahmed

et al. 1998

Oncogene

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Telomerase activity is correlated with the immortality of various cultured cells and cancer cells. The activity, however, is also demonstrated in various normal regenerating cells which normally have a ®nite life span in vivo and in vitro, though its biological implication remains unclear. Using cultured normal human epithelial cells, we show that telomerase activity is associated with epithelial cell subsets which actively proliferate in vitro. Unlike in most cancer cell lines, telomerase activity was evidently up-regulated when the cells entered into S phase in primary human epithelial cells. To characterize the cells which have telomerase activity, the primary human epithelial cell population of uterine cervix was dissociated into several distinctive cellular subsets by means of immunocytochemical cell fractionation. Telomerase activity was found to be closely associated with the subset which expressed predominantly integrin b1 and epidermal growth factor receptor. We further identi®ed the telomerase-negative subpopulation which contained a small subset that strongly coexpresses p75 NGFR low a nity nerve growth factor receptor, integrin b4 and bcl-2 protein. The location of the p75 NGFR -expressing cells contrasts to that of the Ki-67 positive cells in vivo and is distinctive of telomerase positive cycling cells, indicating that these cells remain at the G0 phase. The present study supports the notion that telomerase activity is linked to cell cycle regulation, implying that telomerase is activated upon cell proliferation in regenerating normal human epithelial cells.

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“…In the absence of telomerase activity and hTERT expressiona state reported for the majority of somatic cellstelomeric DNA erodes progressively with each round of cell division and eventually leads cells into senescence or into crisis, which results in cell death (Harley et al, 1990). In contrast, undifferentiated progenitor cells in many different self-renewing tissues express telomerase, supporting the hypothesis that differentiating cells turn off telomerase, which may contribute to limiting their replicative potential (Sharma et al, 1995). An unlimited replicative potential is one hallmark of cancer cells (Hanahan and Weinberg, 2000).…”

Section: Introductionmentioning

confidence: 85%

“…Here, we have shown that induction of TAp73 expression by E2F1 triggers hTERT repression in H1299 cells. Furthermore, hTERT expression is known to be downregulated both by cellular stress and during the terminal differentiation of progenitor cells when TAp73 expression is induced, suggesting that TAp73 might also play a causal role in hTERT regulation under these conditions (Sharma et al, 1995;Xu et al, 1996). Considering that p73 loss predisposes mice to various types of cancer (Flores et al, 2005), it is intriguing to speculate that p73 haploinsufficiency might result in elevated levels of mTERT, thus selecting for cells that have acquired the proper genetic hits to become cancerous.…”

Section: Regulation Of Htert By P73 M Beitzinger Et Almentioning

confidence: 99%

Regulation of telomerase activity by the p53 family member p73

Beitzinger

Oswald

Beinoraviciute-Kellner

et al. 2005

Oncogene

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The terminal ends of eukaryotic chromosomes, termed telomeres, progressively shorten during each round of cell division eventually leading cells into senescence. Tumor cells typically overcome this barrier to unlimited proliferation by activation of the human telomerase reverse transcriptase (hTERT) gene. In contrast, in most human somatic cells hTERT expression is tightly repressed by multiple tumor suppressors. Here, we studied the regulation of hTERT by the p53 family member p73. We show that forced expression of p73 or activation of endogenous p73 by E2F1 results in the downregulation of telomerase activity. Vice versa, siRNA-mediated knockdown of p73 induces hTERT expression. Responsiveness to p73 is conferred by Sp1 binding sites within the hTERT core promoter. In tumor cells, p73 isoforms lacking the transactivation domain (DNp73) are frequently overexpressed and believed to function as oncogenes. We show that DNp73 antagonizes the repressive effect of the proapoptotic p53 family members on hTERT expression and, in addition, induces hTERT expression in telomerase-negative cells by interfering with E2F-RB-mediated repression of the hTERT core promoter. These data provide evidence that the p73 gene functions as an important regulator of telomerase activity with implications for embryonic development, cellular differentiation and tumorigenesis.

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Differentiation of immortal cells inhibits telomerase activity.

Cited by 242 publications

References 12 publications

Fibroblast growth factor 2 up regulates telomerase activity in neural precursor cells

Fibroblast growth factor 2 up regulates telomerase activity in neural precursor cells

Telomerase activity in a specific cell subset co-expressing integrinβ1/EGFR but not p75NGFR/bcl2/integrin β4 in normal human epithelial cells

Regulation of telomerase activity by the p53 family member p73

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