More Like this

1. Numb positively regulates Hedgehog signaling at the ciliary pocket

   https://doi.org/10.1038/s41467-024-47244-1  

   Liu, Xiaoliang; Yam, Patricia T.; Schlienger, Sabrina; Cai, Eva; Zhang, Jingyi; Chen, Wei-Ju; Torres Gutierrez, Oscar; Jimenez Amilburu, Vanesa; Ramamurthy, Vasanth; Ting, Alice Y.; et al (April 2024, Nature Communications)

   Abstract Hedgehog (Hh) signaling relies on the primary cilium, a cell surface organelle that serves as a signaling hub for the cell. Using proximity labeling and quantitative proteomics, we identify Numb as a ciliary protein that positively regulates Hh signaling. Numb localizes to the ciliary pocket and acts as an endocytic adaptor to incorporate Ptch1 into clathrin-coated vesicles, thereby promoting Ptch1 exit from the cilium, a key step in Hh signaling activation. Numb loss impedes Sonic hedgehog (Shh)-induced Ptch1 exit from the cilium, resulting in reduced Hh signaling. Numb loss in spinal neural progenitors reduces Shh-induced differentiation into cell fates reliant on high Hh activity. Genetic ablation of Numb in the developing cerebellum impairs the proliferation of granule cell precursors, a Hh-dependent process, resulting in reduced cerebellar size. This study highlights Numb as a regulator of ciliary Ptch1 levels during Hh signal activation and demonstrates the key role of ciliary pocket-mediated endocytosis in cell signaling. 

   more » « less
2. Mechanotransductive N-cadherin binding induces differentiation in human neural stem cells

   https://doi.org/10.1016/j.mbm.2024.100099  

   Cavanaugh, McKay; Willits, Rebecca Kuntz (March 2025, Mechanobiology in Medicine)

   The neural stem cell niche is a complex microenvironment that includes cellular factors, secreted factors, and physical factors that impact stem cell behavior and development. Cellular interactions through cadherins, cell–cell binding proteins, have implications in embryonic development and mesenchymal stem cell differentiation. However, little is known about the influence of cadherins within the neural stem cell microenvironment and their effect on human stem cell maintenance and differentiation. Therefore, the purpose of this study was to develop synthetic substrates to examine the effect of cadherin mechanotransduction on human neural stem cells. Glass substrates were fabricated using silane, protein A, and recombinant N-cadherin; we used these substrates to examine the effect of N-cadherin binding on neural stem cell proliferation, cytoskeletal structure and morphology, Yes-associated protein-1 (YAP) translocation, and differentiation. Bound exogenous N-cadherin induced concentration-dependent increases in adherens junction formation, YAP translocation, and early expression of neurogenic differentiation markers. Strong F-actin ring structures were initiated by homophilic N-cadherin binding, eliciting neuronal differentiation of cells within 96 ​h without added soluble differentiation factors. Our findings show that active N-cadherin binding plays an important role for differentiation of human iPS-derived neural stem cells towards neurons, providing a new tool to differentiate cells in vitro. 

   more » « less
3. Review

   https://doi.org/10.3389/fnmol.2020.00062  

   Goyal, R; Spencer, KA; Borodinsky, LN (April 2020, Frontiers in molecular neuroscience)

   Ion channels are expressed throughout nervous system development. The type and diversity of conductances and gating mechanisms vary at different developmental stages and with the progressive maturational status of neural cells. The variety of ion channels allows for distinct signaling mechanisms in developing neural cells that in turn regulate the needed cellular processes taking place during each developmental period. These include neural cell proliferation and neuronal differentiation, which are crucial for developmental events ranging from the earliest steps of morphogenesis of the neural tube through the establishment of neuronal circuits. Here, we compile studies assessing the ontogeny of ionic currents in the developing nervous system. We then review work demonstrating a role for ion channels in neural tube formation, to underscore the necessity of the signaling downstream ion channels even at the earliest stages of neural development. We discuss the function of ion channels in neural cell proliferation and neuronal differentiation and conclude with how the regulation of all these morphogenetic and cellular processes by electrical activity enables the appropriate development of the nervous system and the establishment of functional circuits adapted to respond to a changing environment. 

   more » « less
4. Expansion of a neural crest gene signature following ectopic MYCN expression in sympathoadrenal lineage cells in vivo

   https://doi.org/10.1371/journal.pone.0310727  

   Ibarra-García-Padilla, Rodrigo; Nambiar, Annika; Hamre, Thomas A; Singleton, Eileen W; Uribe, Rosa A (September 2024, PLOS ONE)

   Liu, Tao (Ed.)

   Neural crest cells (NCC) are multipotent migratory stem cells that originate from the neural tube during early vertebrate embryogenesis. NCCs give rise to a variety of cell types within the developing organism, including neurons and glia of the sympathetic nervous system. It has been suggested that failure in correct NCC differentiation leads to several diseases, including neuroblastoma (NB). During normal NCC development, MYCN is transiently expressed to promote NCC migration, and its downregulation precedes neuronal differentiation. Overexpression of MYCN has been linked to high-risk and aggressive NB progression. For this reason, understanding the effect overexpression of this oncogene has on the development of NCC-derived sympathoadrenal progenitors (SAP), which later give rise to sympathetic nerves, will help elucidate the developmental mechanisms that may prime the onset of NB. Here, we found that overexpressing human EGFP-MYCN within SAP lineage cells in zebrafish led to the transient formation of an abnormal SAP population, which displayed expanded and elevated expression of NCC markers while paradoxically also co-expressing SAP and neuronal differentiation markers. The aberrant NCC signature was corroborated within vivotime-lapse confocal imaging in zebrafish larvae, which revealed transient expansion ofsox10reporter expression in MYCN overexpressing SAPs during the early stages of SAP development. In these aberrant MYCN overexpressing SAP cells, we also found evidence of dampened BMP signaling activity, indicating that BMP signaling disruption occurs following elevated MYCN expression. Furthermore, we discovered that pharmacological inhibition of BMP signaling was sufficient to create an aberrant NCC gene signature in SAP cells, phenocopying MYCN overexpression. Together, our results suggest that MYCN overexpression in SAPs disrupts their differentiation by eliciting abnormal NCC gene expression programs, and dampening BMP signaling response, having developmental implications for the priming of NBin vivo. 

   more » « less
5. Calcium State-Dependent Regulation of Epithelial Cell Quiescence by Stanniocalcin 1a

   https://doi.org/10.3389/fcell.2021.662915  

   Li, Shuang; Liu, Chengdong; Goldstein, Allison; Xin, Yi; Ke, Caihuan; Duan, Cunming (April 2021, Frontiers in Cell and Developmental Biology)

   Yao, Guang (Ed.)

   The molecular mechanisms regulating cell quiescence-proliferation balance are not well defined. Using a zebrafish model, we report that Stc1a, a secreted glycoprotein, plays a key role in regulating the quiescence-proliferation balance of Ca²⁺transporting epithelial cells (ionocytes). Zebrafishstc1a, but not the otherstcgenes, is expressed in a Ca²⁺state-dependent manner. Genetic deletion ofstc1a, but notstc2b, increased ionocyte proliferation, leading to elevated body Ca²⁺levels, cardiac edema, body swelling, and premature death. The increased ionocyte proliferation was accompanied by an increase in the IGF1 receptor-mediated PI3 kinase-Akt-Tor signaling activity in ionocytes. Inhibition of the IGF1 receptor, PI3 kinase, Akt, and Tor signaling reduced ionocyte proliferation and rescued the edema and premature death instc1a^–/–fish, suggesting that Stc1a promotes ionocyte quiescence by suppressing local IGF signaling activity. Mechanistically, Stc1 acts by inhibiting Papp-aa, a zinc metalloproteinase degrading Igfbp5a. Inhibition of Papp-aa proteinase activity restored ionocyte quiescence-proliferation balance. Genetic deletion ofpapp-aaor its substrateigfbp5ain thestc1a^–/–background reduced ionocyte proliferation and rescued the edema and premature death. These findings uncover a novel and Ca²⁺state-dependent pathway regulating cell quiescence. Our findings also provide new insights into the importance of ionocyte quiescent-proliferation balance in organismal Ca²⁺homeostasis and survival. 

   more » « less