miR-96 and miR-183 differentially regulate neonatal and adult postinfarct neovascularization
Raphael F.P. Castellan, Milena Vitiello, Martina Vidmar, Steven Johnstone, Dominga Iacobazzi, David Mellis, Benjamin Cathcart, Adrian Thomson, Christiana Ruhrberg, Massimo Caputo, David E. Newby, Gillian A. Gray, Andrew H. Baker, Andrea Caporali, Marco Meloni
Raphael F.P. Castellan, Milena Vitiello, Martina Vidmar, Steven Johnstone, Dominga Iacobazzi, David Mellis, Benjamin Cathcart, Adrian Thomson, Christiana Ruhrberg, Massimo Caputo, David E. Newby, Gillian A. Gray, Andrew H. Baker, Andrea Caporali, Marco Meloni
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Research Article Angiogenesis Vascular biology

miR-96 and miR-183 differentially regulate neonatal and adult postinfarct neovascularization

Abstract

Following myocardial infarction (MI), the adult heart has minimal regenerative potential. Conversely, the neonatal heart can undergo extensive regeneration, and neovascularization capacity was hypothesized to contribute to this difference. Here, we demonstrate the higher angiogenic potential of neonatal compared with adult mouse cardiac endothelial cells (MCECs) in vitro and use this difference to identify candidate microRNAs (miRs) regulating cardiac angiogenesis after MI. miR expression profiling revealed miR-96 and miR-183 upregulation in adult compared with neonatal MCECs. Their overexpression decreased the angiogenic potential of neonatal MCECs in vitro and prevented scar resolution and neovascularization in neonatal mice after MI. Inversely, their inhibition improved the angiogenic potential of adult MCECs, and miR-96/miR-183–KO mice had increased peri-infarct neovascularization. In silico analyses identified anillin (ANLN) as a direct target of miR-96 and miR-183. In agreement, Anln expression declined following their overexpression and increased after their inhibition in vitro. Moreover, ANLN expression inversely correlated with miR-96 expression and age in cardiac ECs of cardiovascular patients. In vivo, ANLN+ vessels were enriched in the peri-infarct area of miR-96/miR-183–KO mice. These findings identify miR-96 and miR-183 as regulators of neovascularization following MI and miR-regulated genes, such as anillin, as potential therapeutic targets for cardiovascular disease.

Authors

Raphael F.P. Castellan, Milena Vitiello, Martina Vidmar, Steven Johnstone, Dominga Iacobazzi, David Mellis, Benjamin Cathcart, Adrian Thomson, Christiana Ruhrberg, Massimo Caputo, David E. Newby, Gillian A. Gray, Andrew H. Baker, Andrea Caporali, Marco Meloni

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Figure 7

Effect of miR-183 cluster manipulation on HCECs.

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Effect of miR-183 cluster manipulation on HCECs. (A) Real-time qPCR show...
(A) Real-time qPCR showing an age-dependent increased expression of miR-96 and miR-183 and decreased expression of ANLN in human cardiac endothelial cells (HCECs) obtained from cardiac biopsies of participants. Commercially available human cardiac microvascular endothelial cells (HCMECs) from adult participants were used to test the effect of miR-183 cluster manipulation in human cardiac ECs. (B) Bar graph showing that overexpression of miR-96 and miR-183 prevents the formation of capillary-like structures and (C) reduces the percentage of EdU+ cells in HCMECs. On the other hand, inhibition of miR-96 and miR-183 increases the length of tube-like structures (D) and promotes proliferation (E) of cultured HCMECs. n = 4/group. *P < 0.05, **P < 0.01 vs. control (Student’s t test). Data are shown as mean ± SEM.