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1. Depolarization induces calcium-dependent BMP4 release from mouse embryonic palate mesenchymal cells

   https://doi.org/10.1038/s41467-024-53642-2  

   Follmer, Mikaela L; Isner, Trevor J; Ozekin, Yunus H; Levitt, Claire H; Burek, Carolyn L; Benninger, Richard_K P; Bates, Emily Anne (December 2024, Nature Communications)

   Bone Morphogenetic Protein (BMP) signaling is essential for craniofacial development, though little is known about the mechanisms that govern BMP secretion. We show that depolarization induces calcium-dependent BMP4 release from mouse embryonic palate mesenchyme. We show endogenous transient changes in intracellular calcium occur in cranial neural crest cells, the cells from which embryonic palate mesenchyme derives. Waves of transient changes in intracellular calcium suggest that these cells are electrically coupled and may temporally coordinate BMP release. These transient changes in intracellular calcium persist in palate mesenchyme cells from embryonic day 9.5 to 13.5 mice. Disruption of a potassium channel called Kcnj2 significantly decreases the amplitude of calcium transients and the ability of cells to secrete BMP. Kcnj2 knockout mice have cleft palate and reduced BMP signaling. Our data suggest that temporal control of developmental cues is regulated by ion channels, depolarization, and intracellular calcium for mammalian craniofacial morphogenesis. 

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2. Defining the role of TRPM4 in broadly responsive taste receptor cells

   https://doi.org/10.3389/fncel.2023.1148995  

   Dutta Banik, Debarghya; Medler, Kathryn F. (March 2023, Frontiers in Cellular Neuroscience)

   Peripheral taste receptor cells use multiple signaling pathways to transduce taste stimuli into output signals that are sent to the brain. We have previously identified a subpopulation of Type III taste cells that are broadly responsive (BR) and respond to multiple taste stimuli including bitter, sweet, umami, and sour. These BR cells use a PLCβ3/IP₃R1 signaling pathway to detect bitter, sweet, and umami stimuli and use a separate pathway to detect sour. Currently, the downstream targets of the PLCβ3 signaling pathway are unknown. Here we identify TRPM4, a monovalent selective TRP channel, as an important downstream component in this signaling pathway. Using live cell imaging on isolated taste receptor cells from mice, we show that inhibition of TRPM4 abolished the taste-evoked sodium responses and significantly reduced the taste-evoked calcium responses in BR cells. Since BR cells are a subpopulation of Type III taste cells, they have conventional chemical synapses that require the activation of voltage-gated calcium channels (VGCCs) to cause neurotransmitter release. We found that TRPM4-dependent membrane depolarization selectively activates L-type VGCCs in these cells. The calcium influx through L-type VGCCs also generates a calcium-induced calcium release (CICR) via ryanodine receptors that enhances TRPM4 activity. Together these signaling events amplify the initial taste response to generate an appropriate output signal. 

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3. Annelid adult cell type diversity and their pluripotent cellular origins

   https://doi.org/10.1038/s41467-024-47401-6  

   Álvarez-Campos, Patricia; García-Castro, Helena; Emili, Elena; Pérez-Posada, Alberto; del_Olmo, Irene; Peron, Sophie; Salamanca-Díaz, David A; Mason, Vincent; Metzger, Bria; Bely, Alexandra E; et al (December 2024, Nature Communications)

   Abstract Many annelids can regenerate missing body parts or reproduce asexually, generating all cell types in adult stages. However, the putative adult stem cell populations involved in these processes, and the diversity of cell types generated by them, are still unknown. To address this, we recover 75,218 single cell transcriptomes of the highly regenerative and asexually-reproducing annelidPristina leidyi. Our results uncover a rich cell type diversity including annelid specific types as well as novel types. Moreover, we characterise transcription factors and gene networks that are expressed specifically in these populations. Finally, we uncover a broadly abundant cluster of putative stem cells with a pluripotent signature. This population expresses well-known stem cell markers such asvasa,piwiandnanoshomologues, but also shows heterogeneous expression of differentiated cell markers and their transcription factors. We find conserved expression of pluripotency regulators, including multiple chromatin remodelling and epigenetic factors, inpiwi+cells. Finally, lineage reconstruction analyses reveal computational differentiation trajectories frompiwi+cells to diverse adult types. Our data reveal the cell type diversity of adult annelids by single cell transcriptomics and suggest that apiwi+ cell population with a pluripotent stem cell signature is associated with adult cell type differentiation. 

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4. Notch Is Required for Neural Progenitor Proliferation During Embryonic Eye Regrowth

   https://doi.org/10.3390/ijms26062637  

   Guerin, Dylan J; Gutierrez, Belen; Zhang, Baoyi; Tseng, Kelly Ai-Sun (March 2025, International Journal of Molecular Sciences)

   The ability of an organism to regrow tissues is regulated by various signaling pathways. One such pathway that has been studied widely both in the context of regeneration and development is the Notch signaling pathway. Notch is required for the development of the eye and regeneration of tissues in multiple organisms, but it is unknown if Notch plays a role in the regulation of Xenopus laevis embryonic eye regrowth. We found that Notch1 is required for eye regrowth and regulates retinal progenitor cell proliferation. Chemical and molecular inhibition of Notch1 significantly decreased eye regrowth by reducing retinal progenitor cell proliferation without affecting retinal differentiation. Temporal inhibition studies showed that Notch function is required during the first day of regrowth. Interestingly, Notch1 loss-of-function phenocopied the effects of the inhibition of the proton pump, vacuolar-type ATPase (V-ATPase), where retinal proliferation but not differentiation was blocked during eye regrowth. Overexpression of a form of activated Notch1, the Notch intracellular domain (NICD) rescued the loss of eye regrowth due to V-ATPase inhibition. These findings highlight the importance of the Notch signaling pathway in eye regeneration and its role in inducing retinal progenitor cell proliferation in response to injury. 

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5. Intracellular pH dynamics regulates intestinal stem cell lineage specification

   https://doi.org/10.1038/s41467-023-39312-9  

   Liu, Yi; Reyes, Efren; Castillo-Azofeifa, David; Klein, Ophir D.; Nystul, Todd; Barber, Diane L. (December 2023, Nature Communications)

   Abstract Intracellular pH dynamics is increasingly recognized to regulate myriad cell behaviors. We report a finding that intracellular pH dynamics also regulates adult stem cell lineage specification. We identify an intracellular pH gradient in mouse small intestinal crypts, lowest in crypt stem cells and increasing along the crypt column. Disrupting this gradient by inhibiting H⁺efflux by Na⁺/H⁺exchanger 1 abolishes crypt budding and blocks differentiation of Paneth cells, which are rescued with exogenous WNT. Using single-cell RNA sequencing and lineage tracing we demonstrate that intracellular pH dynamics acts downstream of ATOH1, with increased pH promoting differentiation toward the secretory lineage. Our findings indicate that an increase in pH is required for the lineage specification that contributes to crypt maintenance, establishing a role for intracellular pH dynamics in cell fate decisions within an adult stem cell lineage. 

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