A secretory pathway kinase regulates sarcoplasmic reticulum Ca2+ homeostasis and protects against heart failure

AJ Pollak, C Liu, A Gudlur, JE Mayfield, ND Dalton… - Elife, 2018 - elifesciences.org
AJ Pollak, C Liu, A Gudlur, JE Mayfield, ND Dalton, Y Gu, J Chen, J Heller Brown, PG Hogan…
Elife, 2018elifesciences.org
Ca2+ signaling is important for many cellular and physiological processes, including cardiac
function. Although sarcoplasmic reticulum (SR) proteins involved in Ca2+ signaling have
been shown to be phosphorylated, the biochemical and physiological roles of protein
phosphorylation within the lumen of the SR remain essentially uncharacterized. Our
laboratory recently identified an atypical protein kinase, Fam20C, which is uniquely
localized to the secretory pathway lumen. Here, we show that Fam20C phosphorylates …
Ca2+ signaling is important for many cellular and physiological processes, including cardiac function. Although sarcoplasmic reticulum (SR) proteins involved in Ca2+ signaling have been shown to be phosphorylated, the biochemical and physiological roles of protein phosphorylation within the lumen of the SR remain essentially uncharacterized. Our laboratory recently identified an atypical protein kinase, Fam20C, which is uniquely localized to the secretory pathway lumen. Here, we show that Fam20C phosphorylates several SR proteins involved in Ca2+ signaling, including calsequestrin2 and Stim1, whose biochemical activities are dramatically regulated by Fam20C mediated phosphorylation. Notably, phosphorylation of Stim1 by Fam20C enhances Stim1 activation and store-operated Ca2+ entry. Physiologically, mice with Fam20c ablated in cardiomyocytes develop heart failure following either aging or induced pressure overload. We extended these observations to show that non-muscle cells lacking Fam20C display altered ER Ca2+ signaling. Overall, we show that Fam20C plays an overarching role in ER/SR Ca2+ homeostasis and cardiac pathophysiology.
eLife