Project description:While phosphodiesterase-5 inhibition (PED5i) may prevent hypertrophy and failure in pressure-overloaded heart in an experimental model, the impact of PDE5i on volume-overload (VO)-induced hypertrophy is unknown. It is also unclear whether the hypertrophied right ventricle (RV) and left ventricle (LV) differ in their responsiveness to long-term PDE5i and if this therapy affects renal function. The goal of this study was to elucidate the effect of PDE5i treatment in VO due to aorto-caval fistula (ACF) and to compare PDE5i treatment with standard heart failure (HF) therapy with angiotensin-converting enzyme inhibitor (ACEi). ACF/sham procedure was performed on male HanSD rats aged 8 weeks. ACF animals were randomized for PDE5i sildenafil, ACEi trandolapril, or placebo treatments. After 20 weeks, RV and LV function (echocardiography, pressure-volume analysis), myocardial gene expression, and renal function were studied. Separate rat cohorts served for survival analysis. ACF led to biventricular eccentric hypertrophy (LV: +68%, RV: +145%), increased stroke work (LV: 3.6-fold, RV: 6.7-fold), and reduced load-independent systolic function (PRSW, LV: -54%, RV: -51%). Both ACF ventricles exhibited upregulation of the genes of myocardial stress and glucose metabolism. ACEi but not PDE5i attenuated pulmonary congestion, LV remodeling, albuminuria, and improved survival (median survival in ACF/ACEi was 41 weeks vs. 35 weeks in ACF/placebo, p = .02). PDE5i increased cyclic guanosine monophosphate levels in the lungs, but not in the RV, LV, or kidney. PDE5i did not improve survival rate and cardiac and renal function in ACF rats, in contrast to ACEi. VO-induced HF is not responsive to PDE5i therapy.

Project description:Current surgical management of volume overload-induced heart failure (HF) leads to variable recovery of left ventricular (LV) function despite a return of LV geometry. The mechanisms that prevent restoration of function are unknown but may be related to the timing of intervention and the degree of LV contractile impairment. This study determined whether reduction of aortocaval fistula (ACF)-induced LV volume overload during the compensatory stage of HF results in beneficial LV structural remodeling and restoration of pump function. Rats were subjected to ACF for 4 wk; a subset then received a load-reversal procedure by closing the shunt using a custom-made stent graft approach. Echocardiography or in vivo pressure-volume analysis was used to assess LV morphology and function in sham rats; rats subjected to 4-, 8-, or 15-wk ACF; and rats subjected to 4-wk ACF followed by 4- or 11-wk reversal. Structural and functional changes were correlated to LV collagen content, extracellular matrix (ECM) proteins, and hypertrophic markers. ACF-induced volume overload led to progressive LV chamber dilation and contractile dysfunction. Rats subjected to short-term reversal (4-wk ACF + 4-wk reversal) exhibited improved chamber dimensions (LV diastolic dimension) and LV compliance that were associated with ECM remodeling and normalization of atrial and brain natriuretic peptides. Load-independent parameters indicated LV systolic (preload recruitable stroke work, Ees) and diastolic dysfunction (tau, arterial elastance). These changes were associated with an altered ?/?-myosin heavy chain ratio. However, these changes were normalized to sham levels in long-term reversal rats (4-wk ACF + 11-wk reversal). Acute hemodynamic changes following ACF reversal improve LV geometry, but LV dysfunction persists. Gradual restoration of function was related to normalization of eccentric hypertrophy, LV wall stress, and ECM remodeling. These results suggest that mild to moderate LV systolic dysfunction may be an important indicator of the ability of the myocardium to remodel following the reversal of hemodynamic overload.

Project description:Heart failure due to chronic volume overload (VO) in rats and humans is characterized by disorganization of the cardiomyocyte desmin/mitochondrial network. Here, we tested the hypothesis that desmin breakdown is an early and continuous process throughout VO. Male Sprague-Dawley rats had aortocaval fistula (ACF) or sham surgery and were examined 24 h and 4 and 12 wk later. Desmin/mitochondrial ultrastructure was examined by transmission electron microscopy (TEM) and immunohistochemistry (IHC). Protein and kinome analysis were performed in isolated cardiomyocytes, and desmin cleavage was assessed by mass spectrometry in left ventricular (LV) tissue. Echocardiography demonstrated a 40% decrease in the LV mass-to-volume ratio with spherical remodeling at 4 wk with ACF and LV systolic dysfunction at 12 wk. Starting at 24 h and continuing to 4 and 12 wk, with ACF there is TEM evidence of extensive mitochondrial clustering, IHC evidence of disorganization associated with desmin breakdown, and desmin protein cleavage verified by Western blot analysis and mass spectrometry. IHC results revealed that ACF cardiomyocytes at 4 and 12 wk had perinuclear translocation of αB-crystallin from the Z disk with increased α, β-unsaturated aldehyde 4-hydroxynonelal. Use of protein markers with verification by TUNEL staining and kinome analysis revealed an absence of cardiomyocyte apoptosis at 4 and 12 wk of ACF. Significant increases in protein indicators of mitophagy were countered by a sixfold increase in p62/sequestosome-1, which is indicative of an inability to complete autophagy. An early and continuous disruption of the desmin/mitochondrial architecture, accompanied by oxidative stress and inhibition of apoptosis and mitophagy, suggests its causal role in LV dilatation and systolic dysfunction in VO.NEW & NOTEWORTHY This study provides new evidence of early onset (24 h) and continuous (4-12 wk) desmin misarrangement and disruption of the normal sarcomeric and mitochondrial architecture throughout the progression of volume overload heart failure, suggesting a causal link between desmin cleavage and mitochondrial disorganization and damage.

Project description:We reported the RNAseq analyses of right ventricle (RV) and left ventricle (LV) in neonatal volume overload (VO) and sham-operated SD rat. VO was induced by the fistula between abdominal aorta and inferior vena cava (AVF) within 24 hours postnatally (P1). RNAseq analyses of RV and LV free wall of P7 from VO and sham-operated rat. It demonstrated that the 1806 differentially expressed genes (DEGs) between RV and LV at the neonatal stage were primarily enriched in GTPase mediating signal transduction, insulin signaling pathway and thyroid hormone signaling pathway. VO produced 3 more times DEGs in LV than RV . GO analysis of these DEGs demonstrated that in the top 150 enriched terms, the LV comparison and RV comparison shared 34 terms (22.7%) in common. These commonly enriched terms were primarily associated with GTPase mediating signal transduction. KEGG analysis of these DEGs demonstrated that in the top 30 enriched terms, the LV comparison and RV comparison shared 14 terms (46.7%) in common. And insulin signaling pathway and thyroid hormone signaling pathway are the top two enriched terms in common. Regarding the differently enriched GO terms, they were primarily associated with lipid metabolism and ion channel in RV and primarily associated nucleic acid metabolism in LV. The top two differently enriched KEGG terms were arrhythmogenic right ventricular cardiomyopathy (ARVC) and adipocytokine signaling pathway in RV while microRNAs in cancer and longevity regulating pathway in LV. These results were further confirmed by the determination of metabolites.

Project description:We reported the RNAseq analyses of right ventricular free wall of myocardium in three groups of mice（3 in each group）at postnatal day 14 (P14). The mice in volume overload (VO) group underwent an abdominal surgery by puncture from aorta to inferior vena cava at P7, mice in Sham group underwent the same surgery except for the puncture. The mice in CsA group were VO mice who were also injected with cyclosporin A(CsA) for seven days. The results revealed that there were differentially expressed genes between VO and sham group at P14, Inhibiting the immune response with CsA caused the gene expression profile of VO mice to shift towards that of sham mice.

Project description:We reported the RNAseq analyses of right ventricualr free wall myocardium in young volume overload (VO) C57/BL6 mice.VO was induced by the fistula between abdominal aorta and inferior vena cava (AVF) on postnatal day 7(P7). RNAseq analyses of RV free wall at P14 and P21from VO and sham-operated mice revealed that there were 981 differentially expressed genes between VO and sham group at P14, this number increased to 1907 at P21, there were 3012 differentially expressed genes between P21 and P14 sham group, and the number increased to 3470 at the presence of VO. GO analysis showed that in the VO and sham comparison, the upregulated genes mainly mediated mitosis and cell division and the downregulated genes mainly mediated heart contraction at P14, and the upregulated genes mainly mediated immune response, and downregulated genes mainly mediated cellular respiration at P21. As expected, in the normal RV development during preadolescence (from P14 to P21), upregulated genes mainly mediated oxidative phosphorylation and cellular respiration and the downregulated genes mainly mediated vasculogenesis. VO changed the RV development, the upregulated genes mainly mediated heart contraction and the down regulated genes mainly mediated vasculogenesis and cell cycle. KEGG pathway analysis revealed that cell cycle pathway was upregulated and cardiac muscle contraction and thyroid hormone signaling pathway were downregulated between VO and sham group at P14, phagosome pathway was upregulated and citrate cycle (TCA) cycle and thermogenesis were downregulated at P21 between VO and sham group. In the normal RV development, TCA cycle and cardiac muscle contraction pathway were upregulated while VO changed that to the upregulations of cardiomyopathy pathways and thyroid hormone signaling pathway. All the above changes were further confirmed by the functional tests.

Project description:We reported the RNAseq analyses of left ventricualr free wall myocardium in young volume overload (VO) C57/BL6 mice.VO was induced by the fistula between abdominal aorta and inferior vena cava (AVF) on postnatal day 7(P7). RNAseq analyses of LV free wall at P14 and P21from VO and sham-operated mice revealed that there were 378 differentially expressed genes between VO and sham group at P14, this number decreased to 184 at P21, there were 1374 differentially expressed genes between P21 and P14 sham group, and the number chenged to 1167 at the presence of VO. GO analysis showed that in the VO and sham comparison, the upregulated genes mainly mediated cell−cell junction and the downregulated genes mainly mediated regulation of immune response at P14, and the upregulated genes mainly mediated cell growth, and downregulated genes mainly mediated response to interferon−beta at P21. As expected, in the normal LV development during preadolescence (from P14 to P21), upregulated genes mainly mediated muscle system process and regulation of membrane potential and the downregulated genes mainly mediated regulation of mitotic cell cycle. VO changed the LV development, the upregulated genes mainly mediated regulation of protein catabolic process and the down regulated genes mainly mediated antigen processing and presentation. KEGG pathway analysis revealed that glucagon signaling pathway was upregulated and phagosome pathway and chemokine signaling pathway were downregulated between VO and sham group at P14, protein processing in endoplasmic reticulum was upregulated and antigen processing and presentation were downregulated at P21 between VO and sham group. In the normal LV development, calcium signaling pathway and cardiac muscle contraction pathway were upregulated while VO changed that to the arginine and proline metabolism . All the above changes were further confirmed by the functional tests.

Project description:Sildenafil, a phosphodiesterase 5 (PDE5) inhibitor, has been shown to exert beneficial effects in heart failure. The purpose of this study was to test whether sildenafil suppressed transverse-tubule (T-tubule) remodeling in left ventricular (LV) failure and thereby providing the therapeutic benefits.A pressure overload-induced murine heart failure model was established in mice by thoracic aortic banding (TAB). One day after TAB, the mice received sildenafil (100 mg·kg(-1)·d(-1), sc) or saline for 5 weeks. At the end of treatment, echocardiography was used to examine LV function. Then the intact hearts were dissected out and placed in Langendorff-perfusion chamber for in situ confocal imaging of T-tubule ultrastructure from epicardial myocytes.TAB surgery resulted in heart failure accompanied by remarkable T-tubule remodeling. Sildenafil treatment significantly attenuated TAB-induced cardiac hypertrophy and congestive heart failure, improved LV contractile function, and preserved T-tubule integrity in LV cardiomyocytes. But sildenafil treatment did not significantly affect the chamber dilation. The integrity of LV T-tubule structure was correlated with cardiac hypertrophy (R(2)=0.74, P<0.01) and global LV function (R(2)=0.47, P<0.01).Sildenafil effectively ameliorates LV T-tubule remodeling in TAB mice, revealing a novel mechanism underlying the therapeutic benefits of sildenafil in heart failure.

Project description:We reported the RNAseq analyses of right ventricualr free wall myocardium in neonatal volume overload (VO) SD rat. VO was induced by the fistula between abdominal aorta and inferior vena cava (AVF) within 24 hours postnatally (P1). RNAseq analyses of RV free wall at P7 from VO and sham-operated rat revealed that there were 454 differentially expressed genes between VO and sham group at P7. GO analysis showed that in the VO and sham comparison, the upregulated genes mainly mediated immune system response and the downregulated genes mainly mediated apoptotic process at P7. VO has no effect to neonatal right ventricular cardiomyocyte proliferation.

Project description:BackgroundAlthough sex differences in heart failure (HF) prevalence and severity have been recognized, its molecular mechanisms are poorly understood. We used a tachycardia-induced cardiomyopathy model to determine the sex specific remodeling pattern in male and female adult pigs.MethodsWe compared the echocardiographic and molecular measures of myocardial remodeling in 19 male and 12 female pigs with chronic symptomatic systolic HF due to right ventricle (RV) pacing (170 bpm) and 6 male and 5 female sham-operated controls. Males achieved subsequent HF stages earlier than females.ResultsThe progression of symptomatic HF was associated with the reduction of the left ventricle (LV) ejection fraction in both sexes (all p < 0.05). A significant LV dilatation occurred only in males (p < 0.001). The HF development was accompanied by an increased pro-hypertrophic factor GATA4 and TGF-β1 messenger RNA (mRNA) expression in the LV only in male pigs (all p < 0.01). The total gelatinolytic activity in LV was higher in males than females (irrespective of HF, p < 0.05), and the HF progression was associated with a reduced total gelatinolytic activity (p < 0.05) in the LV only in males. No differences in LV myocardial collagen content were found between HF groups and sexes. Cardiomyocyte cross-sectional diameter was significantly smaller in male hearts as compared to female (p < 0.05).ConclusionsMale and female porcine hearts respond differently to RV pacing. Males, most likely due to a higher extracellular matrix turnover, demonstrated a significant LV dilatation, followed by a strong induction of pro-hypertrophic program, and an earlier development of symptomatic HF.