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FoxO4 controls sGCβ transcription in vascular smooth muscle.

Authors :
Galley, Joseph C.
Miller, Megan P.
Sanker, Subramaniam
Mingjun Liu
Sharina, Iraida
Martin, Emil
Gomez, Delphine
Straub, Adam C.
Source :
American Journal of Physiology: Heart & Circulatory Physiology; Mar2022, Vol. 322 Issue 3, pH417-H426, 10p
Publication Year :
2022

Abstract

Nitric oxide (NO) binds soluble guanylyl cyclase β (sGCβ) to produce cGMP and relax vascular smooth muscle cells (SMCs) needed for vasodilation. Although the regulation of NO-stimulated sGC activity has been well characterized at the posttranslational level, the mechanisms that govern sGC transcription remain incompletely understood. Recently, we identified Forkhead box subclass O (FoxO) transcription factors as essential for expression of sGC; however, the specific FoxO family member responsible for the expression of sGCb in SMC remains unknown. Using FoxO shRNA knockdown adenovirus treatment in rat aortic SMCs, we show that FoxO1 or FoxO3 knockdown causes greater than twofold increases in Gucy1a3 and Gucy1b3 mRNA expression, without changes in NO-dependent cGMP production or cGMP-dependent phosphorylation. FoxO4 knockdown produced a 50% decrease in Gucy1a3 and Gucy1b3 mRNA with 70% loss of sGCa and 50% loss of sGCb protein expression. Knockdown of FoxO4 expression decreased cGMP production and downstream protein kinase G-dependent phosphorylation more than 50%. Triple FoxO knockdown exacerbated loss of sGC-dependent function, phenocopying previous FoxO inhibition studies. Using promoter luciferase and chromatin immunoprecipitation assays, we find that FoxO4 acts as a transcriptional activator by directly binding several FoxO DNA motifs in the promoter regions of GUCY1B3 in human aortic SMCs. Collectively, our data show FoxO4 is a critical transcriptional regulator of sGCb expression in SMC. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
03636135
Volume :
322
Issue :
3
Database :
Complementary Index
Journal :
American Journal of Physiology: Heart & Circulatory Physiology
Publication Type :
Academic Journal
Accession number :
155899292
Full Text :
https://doi.org/10.1152/ajpheart.00551.2021