Stereotypical Architecture of the Stem Cell Niche is Spatiotemporally Established by MiR-125-dependent Coordination of Notch and Steroid Signaling

Overview

Journal Development

Specialty Biology

Date 2018 Jan 24

PMID 29361571

Citations 20

Authors

Andriy S Yatsenko

Halyna R Shcherbata

Affiliations

Soon will be listed here.

Abstract

Stem cell niches act as signaling platforms that regulate stem cell self-renewal and sustain stem cells throughout life; however, the specific developmental events controlling their assembly are not well understood. Here, we show that during ovarian germline stem cell niche formation, the status of Notch signaling in the cell can be reprogrammed. This is controlled via steroid-induced , which targets a negative regulator of Notch signaling, Tom. Thus, acts as a spatiotemporal coordinator between paracrine Notch and endocrine steroid signaling. Moreover, a dual security mechanism for Notch signaling activation exists to ensure the robustness of niche assembly. Particularly, stem cell niche cells can be specified either via lateral inhibition, in which a niche cell precursor acquires Notch signal-sending status randomly, or via peripheral induction, whereby Delta is produced by a specific cell. When one mechanism is perturbed due to mutations, developmental defects or environmental stress, the remaining mechanism ensures that the niche is formed, perhaps abnormally, but still functional. This guarantees that the germline stem cells will have their residence, thereby securing progressive oogenesis and, thus, organism reproduction.

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