Abstract
A very important open question in stem cells regulation is how the fine balance between GSCs self-renewal and differentiation is orchestrated at the molecular level. In the past several years much progress has been made in understanding the molecular mechanisms underlying intrinsic and extrinsic controls of GSC regulation but the complex gene regulatory networks that regulate stem cell behavior are only partially understood. HP1 is a dynamic epigenetic determinant mainly involved in heterochromatin formation, epigenetic gene silencing and telomere maintenance. Furthermore, recent studies have revealed the importance of HP1 in DNA repair, sister chromatid cohesion and, surprisingly, in positive regulation of gene expression. Here, we show that HP1 plays a crucial role in the control of GSC homeostasis in Drosophila. Our findings demonstrate that HP1 is required intrinsically to promote GSC self-renewal and progeny differentiation by directly stabilizing the transcripts of key genes involved in GSCs maintenance.
Highlights
In view of this, a very important goal of stem cell research is to understand the molecular mechanisms that coordinate the stem cell homeostasis at both transcriptional and post-transcriptional levels
Functional inactivation of Heterochromatin protein 1 (HP1) by in vivo RNA interference (RNAi) causes severe germ line defects that result in agametic ovarioles and female sterility
Immunostaining experiments performed by a specific anti-HP1 antibody on wild type ovaries, showed that HP1 localizes in the nucleus of both somatic and germline cells, from the anterior tip of the germarium (GSCs and CBs) until late stages of oogenesis (Fig. 1a)
Summary
A very important goal of stem cell research is to understand the molecular mechanisms that coordinate the stem cell homeostasis at both transcriptional and post-transcriptional levels. We show that HP1 exerts its functions positively regulating the stability of key mRNAs involved in the control of female germ line stem cells development.
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