2008
DOI: 10.1038/emboj.2008.72
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Quantitative proliferation dynamics and random chromosome segregation of hair follicle stem cells

Abstract: Regulation of stem cell (SC) proliferation is central to tissue homoeostasis, injury repair, and cancer development. Accumulation of replication errors in SCs is limited by either infrequent division and/or by chromosome sorting to retain preferentially the oldest 'immortal' DNA strand. The frequency of SC divisions and the chromosome-sorting phenomenon are difficult to examine accurately with existing methods. To address this question, we developed a strategy to count divisions of hair follicle (HF) SCs over … Show more

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Cited by 127 publications
(174 citation statements)
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“…2F) (SI Materials and Methods) and indicated approximately three divisions per bulge cell in one hair cycle, as we previously reported (10). Intriguingly, this model did not fit the KO experimental data indicating that the bulge cells do not have a homogeneous response to p21 KO ( Fig.…”
Section: P21 Reduces Proliferation Of Hfscs In Vitro and Controls Thesupporting
confidence: 59%
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“…2F) (SI Materials and Methods) and indicated approximately three divisions per bulge cell in one hair cycle, as we previously reported (10). Intriguingly, this model did not fit the KO experimental data indicating that the bulge cells do not have a homogeneous response to p21 KO ( Fig.…”
Section: P21 Reduces Proliferation Of Hfscs In Vitro and Controls Thesupporting
confidence: 59%
“…Intriguingly, p57 and p27 involved in HSC quiescence (4,5), were up-regulated in the bulge relative to nonbulge (CD34 − /α6 + ) at all hair cycle stages (Fig. 1B), suggesting that they may be responsible for the overall low rates of bulge cell division (10). Moreover, p57 and p15 mRNAs were found at higher levels in the catagen and telogen bulge than in the anagen.…”
Section: Resultsmentioning
confidence: 93%
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“…Bromodeoxyuridine pulse during the early stage of HF regeneration indicates that the first cells to incorporate bromodeoxyuridine are the cells of the hair germ (HG), followed by bulge SCs, suggesting a two-step mechanism of HF regeneration in which the first cells to be activated are the HG cells, followed by bulge SCs (Greco et al 2009). After an initial burst of proliferation that accompanies the early stage of HF regeneration, bulge SCs continue to divide at a lower rate during all of the growing stages of the hair cycle and then stop dividing during catagen (Sotiropoulou et al 2008;Waghmare et al 2008). Lineage tracing of single bulge SCs shows their ability to migrate from the bulge to the HG and their multipotency at a clonal level (Zhang et al 2009b).…”
Section: Bulge Stem Cellsmentioning
confidence: 99%