FAM114A1 influences cardiac pathological remodeling by regulating angiotensin II signaling
Kadiam C. Venkata Subbaiah, Jiangbin Wu, Wai Hong Wilson Tang, Peng Yao
Kadiam C. Venkata Subbaiah, Jiangbin Wu, Wai Hong Wilson Tang, Peng Yao
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Research Article Cardiology

FAM114A1 influences cardiac pathological remodeling by regulating angiotensin II signaling

Abstract

Cardiac pathological remodeling, a primary contributor to heart failure (HF) and death, is an important target for HF therapy. However, the signaling pathways that govern cardiac remodeling are not fully elucidated. Here, we found that a functionally unannotated human myocardial infarction–associated (MI-associated) gene, family with sequence similarity 114 member A1 (FAM114A1), is induced in failing human and mouse hearts compared with nonfailing hearts. Homozygous KO of Fam114a1 (Fam114a1–/–) in the mouse genome reduces cardiomyocyte hypertrophy, inflammation, and cardiac fibrosis while restoring cardiac function in angiotensin II–induced (Ang II–induced) and MI-induced HF mouse models. Cardiac fibroblasts (CFs) exhibit the highest FAM114A1 expression among different cardiac cell types. FAM114A1 is a critical autonomous factor for CF proliferation, activation, and migration. Mechanistically, FAM114A1 interacts with angiotensin receptor–associated protein (AGTRAP) and regulates the expression of angiotensin type 1 receptor (AT1R) and downstream Ang II signaling transduction, and it subsequently influences profibrotic response. Our results indicate that FAM114A1 regulates Ang II signaling, thereby activating CFs and other cardiac cells and augmenting pathological cardiac remodeling. These findings provide potentially novel insights into the regulation of cardiac remodeling and identify FAM114A1 as a therapeutic target for the treatment of heart disease.

Authors

Kadiam C. Venkata Subbaiah, Jiangbin Wu, Wai Hong Wilson Tang, Peng Yao

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Figure 7

ADAMTS15, a differentially regulated gene in Fam114a1-null cardiac fibroblasts, is required for CF-to-MF activation.

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ADAMTS15, a differentially regulated gene in Fam114a1-null cardiac fibr...
(A) Heatmap of gene expression in CFs isolated from WT and Fam114a1–/– mice at baseline analyzed by RNA-Seq. P60 male mice, n = 3 per group, Padj < 0.05. (B) Volcano plot of differentially expressed genes in CFs isolated from WT and Fam114a1–/– mice at baseline analyzed by RNA-Seq. (C) Gene Ontology analysis of enriched pathways of downregulated genes in RNA-Seq. The top pathways are listed with enriched gene sets (cellular component). (D) qPCR validation of multiple downregulated genes in Fam114a1–/– mice derived CFs. 18S rRNA was used as a normalizer (n = 3). (E) Gene Ontology analysis of enriched pathways of upregulated genes in RNA-Seq (biological process). (F) IF quantification of COL1A1 and α-SMA protein expression after knockdown of Adamts15 in TGF-β–treated PMCFs. n = 100–120 cells from 3 biological replicates were analyzed. (G) Knockdown of Adamts15 reduced PMCF cell migration indicated by scratch assays (n = 6). Data are presented as mean ± SEM. Statistical significance was confirmed by unpaired Student t test for D and 1-way ANOVA with Tukey’s multiple-comparison test for F and G. *P < 0.05; **P < 0.01; ***P <0.001.