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KMID : 1377020230200050671
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Tissue Engineering and Regenerative Medicine
2023 Volume.20 No. 5 p.671 ~ p.681
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Silicate Ions Derived from Calcium Silicate Extract Decelerate Ang II-Induced Cardiac Remodeling
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Xin Li
Yanxin Zhang
Kim Jae-Hyoung
Qiaoyu Song
Chen Fan
Kang Jee-Hoon
Chen Yang
Jiang Chang
Zhihong Dong
Yumei Que
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Abstract
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BACKGROUND : Pathological cardiac hypertrophy is one of the main activators of heart failure. Currently, no drug can completely reverse or inhibit the development of pathological cardiac hypertrophy. To this end, we proposed a silicate ion therapy based on extract derived from calcium silicate (CS) bioceramics for the treatment of angiotensin II (Ang II) induced cardiac hypertrophy.
METHODS : In this study, the Ang II induced cardiac hypertrophy mouse model was established, and the silicate ion extract was injected to mice intravenously. The cardiac function was evaluated by using a high-resolution Vevo 3100 small animal ultrasound imaging system. Wheat germ Agglutinin, Fluo4-AM staining and immunofluorescent staining was conducted to assess the cardiac hypertrophy, intracellular calcium and angiogenesis of heart tissue, respectively.
RESULTS : The in vitro results showed that silicate ions could inhibit the cell size of cardiomyocytes, reduce cardiac hypertrophic gene expression, including atrial natriuretic peptide (ANP), brain natriuretic peptide (BNP) and ¥â-myosin heavy chain (¥â-MHC), decrease the content of intracellular calcium induced by Ang II. In vivo experiments in mice confirmed that intravenous injection of silicate ions could remarkably inhibit the cardiac hypertrophy and promote the formation of capillaries, further alleviating Ang II-induced cardiac function disorder.
CONCLUSION : This study demonstrated that the released silicate ions from CS possessed potential value as a novel therapeutic strategy of pathological cardiac hypertrophy, which provided a new insight for clinical trials.
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KEYWORD
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Cardiac hypertrophy, Silicate ions, Capillaries formation, Cardiac function, Intracellular calcium
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