G protein-coupled receptor inhibition of beta-cell electrical excitability and insulin secretion depends on Na/K ATPase activation.
| Citation | Dickerson, Matthew T, et al. “G Protein-Coupled Receptor Inhibition of Beta-Cell Electrical Excitability and Insulin Secretion Depends on Na K ATPase Activation”. 2022. Nature Communications, vol. 13, no. 1, 2022, p. 6461. |
| Center | Vanderbilt University |
| Featured |
Featured
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| Author | Matthew T Dickerson, Prasanna K Dadi, Karolina E Zaborska, Arya Y Nakhe, Charles M Schaub, Jordyn R Dobson, Nicole M Wright, Joshua C Lynch, Claire F Scott, Logan D Robinson, David A Jacobson |
| Abstract |
G-coupled somatostatin or α2-adrenergic receptor activation stimulated β-cell NKA activity, resulting in islet Ca fluctuations. Furthermore, intra-islet paracrine activation of β-cell G-GPCRs and NKAs by δ-cell somatostatin secretion slowed Ca oscillations, which decreased insulin secretion. β-cell membrane potential hyperpolarization resulting from G-GPCR activation was dependent on NKA phosphorylation by Src tyrosine kinases. Whereas, β-cell NKA function was inhibited by cAMP-dependent PKA activity. These data reveal that NKA-mediated β-cell membrane potential hyperpolarization is the primary and conserved mechanism for G-GPCR control of electrical excitability, Ca handling, and insulin secretion. |
| Year of Publication |
2022
|
| Journal |
Nature communications
|
| Volume |
13
|
| Issue |
1
|
| Number of Pages |
6461
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| Date Published |
10/2022
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| ISSN Number |
2041-1723
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| DOI |
10.1038/s41467-022-34166-z
|
| Alternate Journal |
Nat Commun
|
| PMCID |
PMC9617941
|
| PMID |
36309517
|
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