Hypertrophic Cardiomyopathy (HCM) is characterized by ventricular hypertrophy and stiffness resulting in part from interstitial fibrosis. While associated with autosomal dominant mutations in sarcomere proteins, it has been reported that males and females may have different clinical presentations and disease courses. We have previously shown that minipigs carrying the R403Q mutation in MYH7 demonstrate a phenotype that recapitulates human non-obstructive HCM with increased hypertrophy, markers of cardiac stress, and diastolic dysfunction. Under the hypothesis that sex-dependent differences in cardiac physiology can independently modulate disease phenotype, we evaluated ventricular fibrosis and cardiac biomarkers in both male and female mutant pigs. Purpose-bred Yucatan R403Q MYH7 heterozygous mutant minipigs of either sex (M: n=8, F: n=6) and wild-type littermates (M: n=4, F: n=14) were used; for the purposes of these comparisons, cloned male pigs were also included (R403Q: 8). Males were castrated, and all pigs received soybean-based feed. Circulating levels of both cardiac troponin T (cTnT) and brain natriuretic peptide (BNP), markers of cardiac injury and stress, were assessed. Interstitial fibrosis was assessed in left ventricular free wall (LV-FW) and apical tissue samples utilizing picrosirius red staining and semi-automated quantification (HALO). Male HCM pigs died earlier (<9M of age, P<0.05) and had higher serum biomarkers than females (cTnT levels (M: 143±17 vs F: 44±7 ng/L, P<0.05; BNP 1536±335 vs 4881±414 ng/L, P<0.05) Consistent with the higher cTnT levels, male HCM pigs had greater fibrosis areas than females in both LV-FW (11±3% vs 7±2%, P<0.05) and apical regions (13±1% vs. 8±2%, respectively, P<0.05). All HCM pigs had significantly increased fibrotic area vs WT controls (R403Q: 10±3% vs WT: 3±2%, P<0.05). Our findings demonstrate that despite a common genotype, female and male carriers of the HCM pathogenic R403Q mutation present different disease phenotypes, with castrated males showing greater fibrotic burden. Future studies to understand the mechanistic drivers of these differences should not only help elucidate the role of sex in HCM disease progression, but also the development of sex-informed therapies.
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