GLP-1 Notch—LAG-1 CSL control of the germline stem cell fate is mediated by transcriptional targets lst-1 and sygl-1

Abstract: Stem cell systems are essential for the development and maintenance of polarized tissues. Intercellular signaling pathways control stem cell systems, where niche cells signal stem cells to maintain the stem cell fate/self-renewal and inhibit differentiation. In the C. elegans germline, GLP-1 Notch signaling specifies the stem cell fate, employing the sequence-specific DNA binding protein LAG-1 to implement the transcriptional response. We undertook a comprehensive genome-wide approach to identify transcription… Show more

“…A widely observed phenomenon in this system is redundancy, making synthetic screens of particular promise going forward [ 50 , 52 , 71 , 77 ]. Furthermore, while connections within these networks are well-supported, quantitative experiments have recently revealed a substantial role for GLP-1-independent regulation of network members [ 68 ]. Other inputs that influence the size of the PZ are signals from the Sh1 pair of somatic gonad sheath cells.…”

“…The Notch pathway acts through LAG-1 CSL DNA binding protein as a transcriptional effector [ 68 , 83 ], and activates the target genes sygl-1 and lst-1 [ 31 , 68 , 84 ]. Exhaustive genetic screening for germ line proliferation defects and sterility had failed to turn up the link between Notch signaling and FBF-mediated stem cell fate.…”

“…Two linking genes— lst-1 and sygl-1 —were recently identified by an elegant candidate screen for genes transcriptionally regulated by Notch signaling and post-transcriptionally by FBF binding that function redundantly to maintain GSC self-renewal [ 52 ]. They were later validated as quite possibly the only direct targets of Notch signaling that mediate germ stem cell fate by genome-wide approaches, including the direct binding of promoters by LAG-1 and RNA-seq for GLP-1-responsive transcripts [ 68 ].…”

“…Following on from that question, several secondary targets of Notch signaling in germ cells have been identified, without known roles in the germ line [ 68 ]; any activity in the stem cell self-renewal program is yet to be discovered. Perhaps more crucially, a downstream target of Notch activation that transcriptionally regulates other genes that are indirect targets of Notch (like lip-1 and fbf-2 ) has yet to be described.…”

“…GSCs are nestled in the distalmost plexus of DTC cellular processes [ 26 , 27 ]. They are characterized by nuclear LAG-1 protein [ 68 ], and the active transcription of direct targets of Notch signaling sygl-1 and lst-1 [ 31 , 54 , 68 , 84 , 93 ]. They appear to be isolated from the rest of the germ line by a diffusion barrier in the cytoplasmic core of the germ line rachis [ 9 ], and extend as far proximal as the interface between the DTC and Sh1 [ 10 ].…”

Recent Advances in the Genetic, Anatomical, and Environmental Regulation of the C. elegans Germ Line Progenitor Zone

“…A widely observed phenomenon in this system is redundancy, making synthetic screens of particular promise going forward [ 50 , 52 , 71 , 77 ]. Furthermore, while connections within these networks are well-supported, quantitative experiments have recently revealed a substantial role for GLP-1-independent regulation of network members [ 68 ]. Other inputs that influence the size of the PZ are signals from the Sh1 pair of somatic gonad sheath cells.…”

“…The Notch pathway acts through LAG-1 CSL DNA binding protein as a transcriptional effector [ 68 , 83 ], and activates the target genes sygl-1 and lst-1 [ 31 , 68 , 84 ]. Exhaustive genetic screening for germ line proliferation defects and sterility had failed to turn up the link between Notch signaling and FBF-mediated stem cell fate.…”

“…Two linking genes— lst-1 and sygl-1 —were recently identified by an elegant candidate screen for genes transcriptionally regulated by Notch signaling and post-transcriptionally by FBF binding that function redundantly to maintain GSC self-renewal [ 52 ]. They were later validated as quite possibly the only direct targets of Notch signaling that mediate germ stem cell fate by genome-wide approaches, including the direct binding of promoters by LAG-1 and RNA-seq for GLP-1-responsive transcripts [ 68 ].…”

“…Following on from that question, several secondary targets of Notch signaling in germ cells have been identified, without known roles in the germ line [ 68 ]; any activity in the stem cell self-renewal program is yet to be discovered. Perhaps more crucially, a downstream target of Notch activation that transcriptionally regulates other genes that are indirect targets of Notch (like lip-1 and fbf-2 ) has yet to be described.…”

“…GSCs are nestled in the distalmost plexus of DTC cellular processes [ 26 , 27 ]. They are characterized by nuclear LAG-1 protein [ 68 ], and the active transcription of direct targets of Notch signaling sygl-1 and lst-1 [ 31 , 54 , 68 , 84 , 93 ]. They appear to be isolated from the rest of the germ line by a diffusion barrier in the cytoplasmic core of the germ line rachis [ 9 ], and extend as far proximal as the interface between the DTC and Sh1 [ 10 ].…”

Recent Advances in the Genetic, Anatomical, and Environmental Regulation of the C. elegans Germ Line Progenitor Zone

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