What question did this study set out to answer?

The research aims to explore the role of FGF12 in cardiac hypertrophy and its underlying mechanisms.

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April 16, 2026

FGF12 Alleviates Cardiac Hypertrophy by Inhibiting Phosphorylation of CaM/CaMKII/CREB1 Axis

Key Points

The research aims to explore the role of FGF12 in cardiac hypertrophy and its underlying mechanisms.
Investigated the localization and expression effects of FGF12 on CREB1 and metabolic genes.
Analyzed the phosphorylation levels within the calmodulin-ERK1/2-CREB1-MCU axis.
Utilized cellular models to assess cardiomyocyte function and mitochondrial homeostasis.
FGF12 suppresses the phosphorylation within the calmodulin-ERK1/2-CREB1 axis.
Nuclear FGF12 binding reduces CREB1 expression, influencing gene regulation.
Maintained cardiomyocyte function and improved mitochondrial health were observed.

Abstract

This study reveals a pathological mechanism associated with HCM linked to FGF12. FGF12, located outside the nucleus, suppresses the expression of metabolism-related genes by reducing the phosphorylation levels within the calmodulin-ERK1/2-CREB1-MCU axis. In contrast, the nuclear localization of FGF12 facilitates its binding to the promoter regions of CREB1, inhibiting CREB1 expression. This dual action maintains cardiomyocyte function and mitochondrial homeostasis. Our findings position FGF12 as a promising therapeutic target for HCM.

FGF12 Alleviates Cardiac Hypertrophy by Inhibiting Phosphorylation of CaM/CaMKII/CREB1 Axis

Key Points

Abstract

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