Publication date: 5 December 2017
Source:Cell Reports, Volume 21, Issue 10
Author(s): Arthur Luhur, Kasun Buddika, Ishara Surangi Ariyapala, Shengyao Chen, Nicholas Samuel Sokol
Although the intrinsic mechanisms that control whether stem cells divide symmetrically or asymmetrically underlie tissue growth and homeostasis, they remain poorly defined. We report that the RNA-binding protein fragile X mental retardation protein (FMRP) limits the symmetric division, and resulting expansion, of the stem cell population during adaptive intestinal growth in Drosophila. The elevated insulin sensitivity that FMRP-deficient progenitor cells display contributes to their accelerated expansion, which is suppressed by the depletion of insulin-signaling components. This FMRP activity is mediated solely via a second conserved RNA-binding protein, LIN-28, known to boost insulin signaling in stem cells. Via LIN-28, FMRP controls progenitor cell behavior by post-transcriptionally repressing the level of insulin receptor (InR). This study identifies the stem cell-based mechanism by which FMRP controls tissue adaptation, and it raises the possibility that defective adaptive growth underlies the accelerated growth, gastrointestinal, and other symptoms that affect fragile X syndrome patients.
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Teaser
Luhur et al. report that FMRP acts via LIN-28 in progenitor cells to dampen the adaptive expansion of intestinal tissue in the fruit fly, raising the possibility that defective LIN28-mediated adaptive growth underlies some of the symptoms that affect fragile X syndrome patients.http://ift.tt/2j9dwBB
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