Abstract
Heart failure with preserved ejection fraction (HFpEF) is an emerging form of heart failure worldwide with no effective therapies in contrast with heart failure with reserved ejection fraction (HFrEF). To simulate multiple risk-factors associated with HFpEF in clinic, we developed a HFpEF mouse model by introducing cardiac hypertrophy with transverse aortic constriction (TAC) in ObOb ( Lep ob/ob ) mice, which has intrinsic systemic metabolic dysfunctions including obesity and insulin resistance. We first validated pathological changes in diastolic but not systolic parameters in the Ob-TAC vs. Ob-sham mice up to 10 weeks post-TAC by echocardiography. To evaluate the global transcriptome change in difference cell types, we conducted single nuclei RNA sequencing (snRNA-seq) from whole hearts of lean mice (c57), ObOb, and Ob-TAC mice (male only). 10x genomic 3’ GEM kit was used to generate the cDNA library and sequencing was done by Novaseq SP platform. A total of 13k nuclei were recovered from QC, nFeature RNA (&lt 2500) and mitochondrial gene (&lt 5%) filtering. By UMAP dimension reduction analysis, we annotated major cardiac cell types in the integrated snRNA-seq dataset, including 3 clusters of Cardiomyocytes (CMs). By pathway analysis of the differentially expressed genes in each CM clusters, we found that insulin resistance and glucagon pathway were enriched among the up regulated genes in CMs in HFpEF vs. lean control, while cell migration, signal transduction including insulin substrates were down regulated. Thus, we hypothesized that the altered crosstalk between glucagon and insulin signaling might contribute to the development of HFpEF in this mouse modal. This hypothesis was validated in a proof-of-concept study showing significant improvement of HFpEF features by inhibiting the glucagon receptors post-TAC with injection of a glucagon receptor antagonist.
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