Interaction of Filamin C With Actin Is Essential for Cardiac Development and Function

菲拉明 细胞生物学 生物 肌动蛋白细胞骨架 肌动蛋白 细胞骨架 遗传学 细胞
作者
Xiaohai Zhou,Xi Fang,Sujay Subbayya Ithychanda,Taihu Wu,Yusu Gu,Chao Chen,Li Wang,Julius Bogomolovas,Jun Qin,Ju Chen
出处
期刊:Circulation Research [Ovid Technologies (Wolters Kluwer)]
标识
DOI:10.1161/circresaha.123.322750
摘要

Background: FLNC (filamin C), a member of the FLN family predominantly expressed in striated muscles, plays a crucial role in bridging the cytoskeleton and ECM (extracellular matrix) in cardiomyocytes, thereby maintaining heart integrity and function. Although genetic variants within the N-terminal ABD (actin-binding domain) of FLNC have been identified in patients with cardiomyopathy, the precise contribution of the actin-binding capability to FLNC’s function in mammalian hearts remains poorly understood. Methods: We conducted in silico analysis of the 3-dimensional structure of mouse FLNC to identify key amino acid residues within the ABD that are essential for FLNC’s actin-binding capacity. Subsequently, we performed coimmunoprecipitation and immunofluorescent assays to validate the in silico findings and assess the impact of these mutations on the interactions with other binding partners and the subcellular localization of FLNC. Additionally, we generated and analyzed knock-in mouse models in which the FLNC-actin interaction was completely disrupted by these mutations. Results: Our findings revealed that F93A/L98E mutations completely disrupted FLNC-actin interaction while preserving FLNC’s ability to interact with other binding partners ITGB1 (β1 integrin) and γ-SAG (γ-sarcoglycan), as well as maintaining FLNC subcellular localization. Loss of FLNC-actin interaction in embryonic cardiomyocytes resulted in embryonic lethality and cardiac developmental defects, including ventricular wall malformation and reduced cardiomyocyte proliferation. Moreover, disruption of FLNC-actin interaction in adult cardiomyocytes led to severe dilated cardiomyopathy, enhanced lethality and dysregulation of key cytoskeleton components. Conclusions: Our data strongly support the crucial role of FLNC as a bridge between actin filaments and ECM through its interactions with actin, ITGB1, γ-SAG, and other associated proteins in cardiomyocytes. Disruption of FLN-actin interaction may result in detachment of actin filaments from the extracellular matrix, ultimately impairing normal cardiac development and function. These findings also provide insights into mechanisms underlying cardiomyopathy associated with genetic variants in FLNC ABD and other regions.
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