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A quiescent cell population replenishes mesenchymal stem cells to drive accelerated growth in mouse incisors.

Nature communications (2018-01-27)
Zhengwen An, Maja Sabalic, Ryan F Bloomquist, Teresa E Fowler, Todd Streelman, Paul T Sharpe
RESUMEN

The extent to which heterogeneity within mesenchymal stem cell (MSC) populations is related to function is not understood. Using the archetypal MSC in vitro surface marker, CD90/Thy1, here we show that 30% of the MSCs in the continuously growing mouse incisor express CD90/Thy1 and these cells give rise to 30% of the differentiated cell progeny during postnatal development. In adulthood, when growth rate homeostasis is established, the CD90/Thy1+ MSCs decrease dramatically in number. When adult incisors are cut, the growth rate increases to rapidly re-establish tooth length and homeostasis. This accelerated growth rate correlates with the re-appearance of CD90/Thy+ MSCs and re-establishment of their contribution to cell differentiation. A population of Celsr1+ quiescent cells becomes mitotic following clipping and replenishes the CD90/Thy1 population. A sub-population of MSCs thus exists in the mouse incisor, distinguished by expression of CD90/Thy1 that plays a specific role only during periods of increased growth rate.

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Sigma-Aldrich
Anticuerpo anti-fosfo-histona H3 (Ser10), marcador de mitosis, Upstate®, from rabbit
Sigma-Aldrich
Anti-CELSR1 Antibody, from rabbit, purified by affinity chromatography