par Delgadillo-Silva, Luis Fernando;Tasöz, Emirhan;Singh, Sumeet Pal 
;Chawla, Prateek;Georgiadou, Eleni;Gompf, Anne;Rutter, Guy A;Ninov, Nikolay
Référence Science advances, 10, 26, page (eado4513)
Publication Publié, 2024-06-01
;Chawla, Prateek;Georgiadou, Eleni;Gompf, Anne;Rutter, Guy A;Ninov, NikolayRéférence Science advances, 10, 26, page (eado4513)
Publication Publié, 2024-06-01
Article révisé par les pairs
| Résumé : | Coordination of cellular activity through Ca2+ enables β cells to secrete precise quantities of insulin. To explore how the Ca2+ response is orchestrated in space and time, we implement optogenetic systems to probe the role of individual β cells in the glucose response. By targeted β cell activation/inactivation in zebrafish, we reveal a hierarchy of cells, each with a different level of influence over islet-wide Ca2+ dynamics. First-responder β cells lie at the top of the hierarchy, essential for initiating the first-phase Ca2+ response. Silencing first responders impairs the Ca2+ response to glucose. Conversely, selective activation of first responders demonstrates their increased capability to raise pan-islet Ca2+ levels compared to followers. By photolabeling and transcriptionally profiling β cells that differ in their thresholds to a glucose-stimulated Ca2+ response, we highlight vitamin B6 production as a signature pathway of first responders. We further define an evolutionarily conserved requirement for vitamin B6 in enabling the Ca2+ response to glucose in mammalian systems. |
