Germline Stem Cells and Their Regulation in the Nematode Caenorhabditis Elegans

Overview

Journal Adv Exp Med Biol

Specialties Biology
General Medicine

Date 2013 May 23

PMID 23696350

Citations 32

Authors

Aaron Kershner

Sarah L Crittenden

Kyle Friend

Erika B Sorensen

Douglas F Porter

Judith Kimble

Affiliations

Soon will be listed here.

Abstract

C. elegans germline stem cells exist within a stem cell pool that is maintained by a single-celled mesenchymal niche and Notch signaling. Downstream of Notch signaling, a regulatory network governs stem cells and differentiation. Central to that network is the FBF RNA-binding protein, a member of the widely conserved PUF family that functions by either of two broadly conserved mechanisms to repress its target mRNAs. Without FBF, germline stem cells do not proliferate and they do not maintain their naïve, undifferentiated state. Therefore, FBF is a pivotal regulator of germline self-renewal. Validated FBF targets include several key differentiation regulators as well as a major cell cycle regulator. A genomic analysis identifies many other developmental and cell cycle regulators as likely FBF targets and suggests that FBF is a broad-spectrum regulator of the genome with >1,000 targets. A comparison of the FBF target list with similar lists for human PUF proteins, PUM1 and PUM2, reveals ∼200 shared targets. The FBF hub works within a network controlling self-renewal vs. differentiation. This network consists of classical developmental cell fate regulators and classical cell cycle regulators. Recent results have begun to integrate developmental and cell cycle regulation within the network. The molecular dynamics of the network remain a challenge for the future, but models are proposed. We suggest that molecular controls of C. elegans germline stem cells provide an important model for controls of stem cells more broadly.

Citing Articles

DOS-3 mediates cell-non-autonomous DAF-16/FOXO activity in antagonizing age-related loss of C. elegans germline stem/progenitor cells.

Zhang Z, Yang H, Fang L, Zhao G, Xiang J, Zheng J Nat Commun. 2024; 15(1):4904.

PMID: 38851828 PMC: 11162419. DOI: 10.1038/s41467-024-49318-6.

LST-1 is a bifunctional regulator that feeds back on Notch-dependent transcription to regulate germline stem cells.

Ferdous A, Lynch T, Costa Dos Santos S, Kapadia D, Crittenden S, Kimble J Proc Natl Acad Sci U S A. 2023; 120(39):e2309964120.

PMID: 37729202 PMC: 10523584. DOI: 10.1073/pnas.2309964120.

Analysis of the C. elegans Germline Stem Cell Pool.

Crittenden S, Seidel H, Kimble J Methods Mol Biol. 2023; 2677:1-36.

PMID: 37464233 DOI: 10.1007/978-1-0716-3259-8_1.

The in vivo functional significance of PUF hub partnerships in C. elegans germline stem cells.

Ferdous A, Costa Dos Santos S, Kanzler C, Shin H, Carrick B, Crittenden S Development. 2023; 150(9).

PMID: 37070766 PMC: 10259659. DOI: 10.1242/dev.201705.

Bipartite interaction sites differentially modulate RNA-binding affinity of a protein complex essential for germline stem cell self-renewal.

Qiu C, Wine R, Campbell Z, Hall T Nucleic Acids Res. 2021; 50(1):536-548.

PMID: 34908132 PMC: 8754657. DOI: 10.1093/nar/gkab1220.