Literature DB >> 24903275

miR-21 normalizes vascular smooth muscle proliferation and improves coronary collateral growth in metabolic syndrome.

Rebecca Hutcheson1, Jennifer Chaplin2, Brenda Hutcheson1, Faye Borthwick3, Spencer Proctor3, Sarah Gebb4, Rashmi Jadhav2, Erika Smith2, James C Russell3, Petra Rocic5.   

Abstract

Inadequate cell proliferation is considered a major causative factor for impaired coronary collateral growth (CCG). Proangiogenic growth factors (GFs) stimulate cell proliferation, but their administration does not promote CCG in patients. These GFs are increased in patients with metabolic syndrome and in animal models, where CCG is impaired. Here, we investigated whether excessive cell proliferation underlies impaired CCG in metabolic syndrome. Normal [Sprague-Dawley (SD)] and metabolic syndrome [James C. Russell (JCR)] rats underwent repetitive ischemia (RI; transient, repetitive coronary artery occlusion and myocardial ischemia). We have shown that CCG was maximal at d 9 of RI in SD rats but did not occur in JCR rats. The increase in cell proliferation (PCNA, Ki-67, cyclin A, phospho- cdc2, p21Waf, p27Kip) was transient (∼4-fold, d 3 RI) in SD rats but greater and sustained in JCR rats (∼8- to 6-fold, d 3-9 RI). In JCR rats, this was associated with increased and sustained miR-21 expression and accumulation of proliferating synthetic vascular smooth muscle cells in the lumen of small arterioles, which failed to undergo outward expansion. Administration of anti-miR-21 blocked RI-induced cell proliferation and significantly improved CCG in JCR rats (∼60%). miR-21-dependent excessive cell proliferation in the later stages of collateral remodeling correlates with impaired CCG in metabolic syndrome. © FASEB.

Entities:  

Keywords:  arteriogenesis; cell cycle; insulin resistance; molecular mechanisms; transient repetitive ischemia

Mesh:

Substances:

Year:  2014        PMID: 24903275      PMCID: PMC4139908          DOI: 10.1096/fj.14-251223

Source DB:  PubMed          Journal:  FASEB J        ISSN: 0892-6638            Impact factor:   5.191


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