Moore, J.L.* ; Bhaskar, D.* ; Gao, F.* ; Matte-Martone, C.* ; Du, S.* ; Lathrop, E.* ; Ganesan, S.* ; Shao, L.* ; Norris, R.* ; Campamà Sanz, N.* ; Annusver, K.* ; Kasper, M.* ; Cox, A.* ; Hendry, C.* ; Rieck, B. ; Krishnaswamy, S.* ; Greco, V.*
     
 
    
        
Cell cycle controls long-range calcium signaling in the regenerating epidermis.
    
    
        
    
    
        
        J. Cell Biol. 222:30 (2023)
    
    
    
		
		
			
				Skin homeostasis is maintained by stem cells, which must communicate to balance their regenerative behaviors. Yet, how adult stem cells signal across regenerative tissue remains unknown due to challenges in studying signaling dynamics in live mice. We combined live imaging in the mouse basal stem cell layer with machine learning tools to analyze patterns of Ca2+ signaling. We show that basal cells display dynamic intercellular Ca2+ signaling among local neighborhoods. We find that these Ca2+ signals are coordinated across thousands of cells and that this coordination is an emergent property of the stem cell layer. We demonstrate that G2 cells are required to initiate normal levels of Ca2+ signaling, while connexin43 connects basal cells to orchestrate tissue-wide coordination of Ca2+ signaling. Lastly, we find that Ca2+ signaling drives cell cycle progression, revealing a communication feedback loop. This work provides resolution into how stem cells at different cell cycle stages coordinate tissue-wide signaling during epidermal regeneration.
			
			
				
			
		 
		
			
				
					
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        Publikationstyp
        Artikel: Journalartikel
    
 
    
        Dokumenttyp
        Wissenschaftlicher Artikel
    
 
    
        Typ der Hochschulschrift
        
    
 
    
        Herausgeber
        
    
    
        Schlagwörter
        Transgenic Mice; Ca2+ Response; Expression; Differentiation; Activation; Keratinocytes; Pathway; Proliferation; Visualization; Specificity
    
 
    
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        Sprache
        englisch
    
 
    
        Veröffentlichungsjahr
        2023
    
 
    
        Prepublished im Jahr 
        0
    
 
    
        HGF-Berichtsjahr
        2023
    
 
    
    
        ISSN (print) / ISBN
        0021-9525
    
 
    
        e-ISSN
        1540-8140
    
 
    
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	    Band: 222,  
	    Heft: 7,  
	    Seiten: ,  
	    Artikelnummer: 30 
	    Supplement: ,  
	
    
 
  
        
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            Verlag
            Rockefeller University Press
        
 
        
            Verlagsort
            950 Third Ave, 2nd Flr, New York, Ny 10022 Usa
        
 
	
        
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            0000-00-00
        
 
        
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        Begutachtungsstatus
        Peer reviewed
    
 
    
        Institut(e)
        Helmholtz Pioneer Campus (HPC)
    
 
    
        POF Topic(s)
        30205 - Bioengineering and Digital Health
    
 
    
        Forschungsfeld(er)
        Pioneer Campus
    
 
    
        PSP-Element(e)
        G-510001-001
    
 
    
        Förderungen
        
Chan Zuckerberg Foundation
Sloan Fellowship
National Science Foundation Career Grant
Yale-Boehringer Ingelheim Biomedical Data Science Fellowship
NIH
Lo Graduate Fellowship for Excellence in Stem Cell Research
National Institute On Aging of the National Institutes of Health
National Institute Of Arthritis And Musculoskeletal And Skin Diseases of the NIH
Howard Hughes Medical Institute Scholar award
    
 
    
        Copyright
        
    
 	
    
    
    
    
    
        Erfassungsdatum
        2023-10-06