Non-autonomous regulation of germline stem cell proliferation by somatic MPK-1/MAPK activity in C. elegans

Robinson-Thiewes, Sarah; Dufour, Benjamin; Martel, P.; Lechasseur, Xavier; Brou, Amani Ange Danielle; Roy, Vincent; Chen, Yunqing; Kimble, Judith; Narbonne, Patrick

doi:10.1016/j.celrep.2021.109162

Cited by 11 publications

(9 citation statements)

References 71 publications

(122 reference statements)

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“…This is possibly due to the similarity between the coding sequences of iff-1 and its somatic ortholog iff-2 , resulting in the RNAi targeting both transcripts. It is also possible that reduction of translation in the germline has cell non-autonomous effects to signal reduction of translation in other tissues ( Lan et al., 2019 ; Robinson-Thiewes et al., 2021 ). Knockdown of either iff-1 or ifg-1 resulted in similar decreases in OPP incorporation across the whole worm ( Figure 3 H), despite having different roles promoting translation initiation and translation elongation, respectively.…”

Section: Discussionmentioning

confidence: 99%

Quantification of tissue-specific protein translation in whole C. elegans using O-propargyl-puromycin labeling and fluorescence microscopy

Somers

Fuqua

Bonnet

et al. 2022

Cell Reports Methods

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Section: Discussionmentioning

confidence: 99%

Quantification of tissue-specific protein translation in whole C. elegans using O-propargyl-puromycin labeling and fluorescence microscopy

Somers

Fuqua

Bonnet

et al. 2022

Cell Reports Methods

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“…Vice versa, the DDR in germ cells also influences the soma such as elevating somatic endurance amid unrepaired meiotic DNA damage (Ermolaeva et al, 2013; Soltanmohammadi et al, 2022). Furthermore, endocrine signals have been observed to non-cell-autonomously influence stem cell proliferation and the DDR in mammals and C. elegans (Cinat et al, 2021; Gronke et al, 2019; Robinson-Thiewes et al, 2021; Xuefeng Chen, et al, 2011; Zhang et al, 2019). Somatic signaling cues are important for germline development and determine epigenetic memories that can last through several generations.…”

Section: Discussionmentioning

confidence: 99%

Sensory neurons safeguard from mutational inheritance by controlling the CEP-1/p53-mediated DNA damage response in primordial germ cells

Uszkoreit

Meyer

Rechavi

et al. 2022

Preprint

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The genome integrity control in primordial germ cells (PGCs) is prerequisite for the inheritance of stable genomes. The PGCs in C. elegans are embedded in a somatic niche that regulates its DNA damage response (DDR). Here, we show that the AMPK-like kinases KIN-29 and AAK-2 are required for arresting PGCs carrying persistent DNA damage. We determined that the ASI neurons, which sense environmental conditions such as nutrient availability, secrete the TGF-beta-like ligand DAF-7 that is recognized by the DAF-1 receptor in PGCs. ASI-dependent DAF-7 signaling regulates the induction of CEP-1/p53 in the PGCs amid persistent DNA damage. Using single worm whole genome sequencing, we establish that defective ASI control of the CEP-1/p53-regulated DDR in PGCs ultimately results in the inheritance of de novo germline mutations. Our results indicate that sensory neurons safeguard from the inheritance of germline mutations suggesting the possibility that perception of the environment could direct genetic inheritance.One sentence summaryThe ASI sensory neurons regulate the CEP-1/p53-dependent DNA damage response of primordial germ cells via TGF-beta signaling and influence inherited mutational burden.

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“…In parallel, the presence of sperm, through release of MSPs, promotes oocyte ovulation, maintaining a high oocyte demand. This presumably activates MPK-1/ERK in the animal’s gut and/or somatic gonad, which nonautonomously promotes GSC proliferation, and sustains an elevated niche output and oocyte production [ 41 ]. (B) When sperm is depleted, ovulation is suppressed and oocytes initially accumulate in the proximal gonad, thereby reducing the demand for new oocytes.…”

Section: Regulation Of Stem Cell Proliferation Ratesmentioning

confidence: 99%

“…elegans hermaphrodites despite their sustained feeding and systemically activated IIS [ 34 , 35 ]. Genetic and epistasis analyses revealed that ERK/MAPK signaling promoted GSC proliferation in parallel to IIS and that the localized homeostatic regulation relied on ERK/MAPK suppression to inhibit GSC proliferation [ 35 , 41 ]. As such, nutrition through IIS and homeostatic signaling through ERK/MAPK act in concert to promote the highest levels of GSC proliferation in C .…”

Section: Regulation Of Stem Cell Proliferation Ratesmentioning

confidence: 99%

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Formation of benign tumors by stem cell deregulation

Valet

Narbonne²

2022

PLoS Genet

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Within living organisms, stem cells respond to various cues, including to niche signals and growth factors. Niche signals originate from the stem cell’s microenvironment and promote the undifferentiated state by preventing differentiation, allowing for stem cell self-renewal. On the other hand, growth factors promote stem cell growth and proliferation, while their sources comprise of a systemic input reflecting the animal’s nutritional and metabolic status, and a localized, homeostatic feedback signal from the tissue that the stem cells serve. That homeostatic signal prevents unnecessary stem cell proliferation when the corresponding differentiated tissues already have optimal cell contents. Here, we recapitulate progresses made in our understanding of in vivo stem cell regulation, largely using simple models, and draw the conclusion that 2 types of stem cell deregulations can provoke the formation of benign tumors. Namely, constitutive niche signaling promotes the formation of undifferentiated “stem cell” tumors, while defective homeostatic signaling leads to the formation of differentiated tumors. Finally, we provide evidence that these general principles may be conserved in mammals and as such, may underlie benign tumor formation in humans, while benign tumors can evolve into cancer.

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Non-autonomous regulation of germline stem cell proliferation by somatic MPK-1/MAPK activity in C. elegans

Cited by 11 publications

References 71 publications

Quantification of tissue-specific protein translation in whole C. elegans using O-propargyl-puromycin labeling and fluorescence microscopy

Quantification of tissue-specific protein translation in whole C. elegans using O-propargyl-puromycin labeling and fluorescence microscopy

Sensory neurons safeguard from mutational inheritance by controlling the CEP-1/p53-mediated DNA damage response in primordial germ cells

Formation of benign tumors by stem cell deregulation

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