Background: The novel MuRF1 inhibitor EMBL205 attenuates effectively developing skeletal muscle atrophy and dysfunction in animals with heart failure with preserved ejection fraction (HFpEF, ZSF1 rat model). The impact of EMBL205 on myocardial function in the HFpEF setting is currently unknown and was evaluated in ZSF1 rats. Methods: 20 wks-old female obese ZSF1 rats received EMBL205 (12 wks, conc. of 0.1% in chow; HFpEF-EMBL205). Age-matched untreated lean (con) and obese (HFpEF) ZSF1 rats served as controls. At 32 wks of age left ventricular (LV)-, aortic valve (AV) function and LV end diastolic pressure (LVEDP) was determined by echocardiography and invasive hemodynamic measurements. LV expression of collagen 1A (Col1A) and 3A (Col3A) was assessed by qRT-PCR, MMP2 expression was obtained by zymography and perivascular fibrosis was quantified in histological sections. Results: Development of HFpEF in ZSF1 obese animals is associated with cardiac enlargement and hypertrophy, as evident by increased myocardial weight, an increase in end diastolic volume (EDV) and LV anterior and posterior wall diameters. Diastolic LV-function is disturbed with elevation of E/é, an increased LVEDP and a preserved LV ejection fraction. AV peak velocity and peak gradient are significantly increased and AV opening area (AVA) significantly decreased. Col1A and Col3A expression are increased in HFpEF animals. EMBL205 treatment results in a significant reduction of myocardial weight and a trend towards lower EDV compared to HFpEF group. EMBL205 attenuates the increase in E/é, LVEDP, AV peak gradient and the decrease of AVA. EMBL205 significantly reduces Col3A expression and a trend for Col1A expression is seen. Increased perivascular fibrosis and MMP2 expression in HFpEF is extenuated by EMBL205 treatment (table 1). Conclusions: Application of EMBL205 attenuated the development of pathological myocardial alterations associated with HFpEF in ZSF1rats due to antifibrotic effects.
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