Rise of palmitoylation: A new trick to tune NCX1 activity
<p>The cardiac Na+/Ca2+ Exchanger (NCX1) controls transmembrane calcium flux in numerous tissues. The only reversible post-translational modification established to regulate NCX1 is palmitoylation, which alters the ability of the exchanger to inactivate. Palmitoylation creates a binding site for the endogenous XIP domain, a region of the NCX1 intracellular loop established to inactivate NCX1. The binding site created by NCX1 palmitoylation sensitizes the transporter to XIP. Herein we summarize our recent knowledge on NCX1 palmitoylation and its association with cardiac pathologies, and discuss these findings in the light of the recent cryo-EM structures of human NCX1. </p>
History
School affiliated with
- Department of Life Sciences (Research Outputs)
- College of Health and Science (Research Outputs)
Publication Title
BBA - Molecular Cell ResearchVolume
1871Issue
5Pages/Article Number
119719Publisher
ElsevierExternal DOI
ISSN
0167-4889eISSN
1879-2596Date Submitted
2023-12-22Date Accepted
2024-03-27Date of First Publication
2024-04-03Date of Final Publication
2024-06-01Open Access Status
- Open Access
