Cardiac hypertrophy, in its aspects of localized thickening of the interventricular septum and concentric increase of the left ventricle, constitutes a risk factor of heart failure. Myocardial hypertrophy, in the presence of different degree of myocardial fibrosis, is paralleled by significant molecular, cellular and histological changes inducing alteration of cardiac extracellular matrix composition as well as sarcomeres and cytoskeleton remodeling. Previous studies indicate Osteopontin (OPN) and more recently Survivin (SURV) overexpression as the hallmarks of heart failure although SURV function in the heart is not completely clarified.In this study we investigated the involvement of SURV in intracellular signaling of hypertrophic cardiomyocytes and the impact of its transcriptional silencing, laying the foundation for novel target gene therapy in cardiac hypertrophy. Oligonucleotide-based molecules, like theranostic optical-nanosensors (Molecular Beacons) and siRNAs, targeting SURV and OPN mRNAs, were developed. Their diagnostic and therapeutic potential was evaluated in vitro in hypertrophic FGF23-induced human cardiomyocytes and in vivo in transverse aortic constriction hypertrophic mouse model. Engineered erythrocyte was used as shuttle to selectively target and transfer siRNA molecules into unhealthy cardiac cells in vivo. The results highlight how the SURV knockdown could negatively influence the expression of genes involved in myocardial fibrosis in vitro and restores structural, functional and morphometric features in vivo. Together these data suggested that SURV is a key factor in inducing cardiomyocytes hypertrophy and its shutdown is crucial in slowing disease progression as well as reversing cardiac hypertrophy. In the perspective, targeted delivery of siRNAs through engineered erythrocytes can represent a promising therapeutic strategy to treat cardiac hypertrophy
Silencing survivin: a key therapeutic strategy for cardiac hypertrophy
Claudia KusmicConceptualization
;Monia TarantaFormal Analysis
;Lisa GherardiniFormal Analysis
;Gualtiero PelosiFormal Analysis
;Ambra GiannettiMethodology
;Sara TombelliMethodology
;Settimio GrimaldiMembro del Collaboration Group
;Francesco BaldiniMembro del Collaboration Group
;Maria Giovanna TrivellaConceptualization
;Caterina Cinti
Ultimo
Writing – Review & Editing
2021
Abstract
Cardiac hypertrophy, in its aspects of localized thickening of the interventricular septum and concentric increase of the left ventricle, constitutes a risk factor of heart failure. Myocardial hypertrophy, in the presence of different degree of myocardial fibrosis, is paralleled by significant molecular, cellular and histological changes inducing alteration of cardiac extracellular matrix composition as well as sarcomeres and cytoskeleton remodeling. Previous studies indicate Osteopontin (OPN) and more recently Survivin (SURV) overexpression as the hallmarks of heart failure although SURV function in the heart is not completely clarified.In this study we investigated the involvement of SURV in intracellular signaling of hypertrophic cardiomyocytes and the impact of its transcriptional silencing, laying the foundation for novel target gene therapy in cardiac hypertrophy. Oligonucleotide-based molecules, like theranostic optical-nanosensors (Molecular Beacons) and siRNAs, targeting SURV and OPN mRNAs, were developed. Their diagnostic and therapeutic potential was evaluated in vitro in hypertrophic FGF23-induced human cardiomyocytes and in vivo in transverse aortic constriction hypertrophic mouse model. Engineered erythrocyte was used as shuttle to selectively target and transfer siRNA molecules into unhealthy cardiac cells in vivo. The results highlight how the SURV knockdown could negatively influence the expression of genes involved in myocardial fibrosis in vitro and restores structural, functional and morphometric features in vivo. Together these data suggested that SURV is a key factor in inducing cardiomyocytes hypertrophy and its shutdown is crucial in slowing disease progression as well as reversing cardiac hypertrophy. In the perspective, targeted delivery of siRNAs through engineered erythrocytes can represent a promising therapeutic strategy to treat cardiac hypertrophyFile | Dimensione | Formato | |
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I.Cardiovaovascular 2021 s12265-021-10165-1.pdf
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