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A miR-192-EGR1-HOXB9 regulatory network controls the angiogenic switch in cancer.

Sherry Y WuRajesha RupaimooleFangrong ShenSunila PradeepChad V PecotCristina IvanArchana S NagarajaKshipra M GharpureElizabeth PhamHiroto HatakeyamaMichael H McGuireMonika HaemmerleViviana Vidal-AnayaCourtney OlsenCristian Rodríguez-AguayoJustyna FilantEhsan A EhsanipourShelley M HerbrichSourindra N MaitiLi HuangJi Hoon KimXinna ZhangHee-Dong HanGuillermo N Armaiz-PenaElena G SeviourSue TuckerMin ZhangDa YangLaurence J N CooperRouba Ali-FehmiMenashe Bar-EliJu-Seog LeePrahlad T RamKeith A BaggerlyGabriel Lopez-BeresteinMien-Chie HungAnil K Sood
Published in: Nature communications (2016)
A deeper mechanistic understanding of tumour angiogenesis regulation is needed to improve current anti-angiogenic therapies. Here we present evidence from systems-based miRNA analyses of large-scale patient data sets along with in vitro and in vivo experiments that miR-192 is a key regulator of angiogenesis. The potent anti-angiogenic effect of miR-192 stems from its ability to globally downregulate angiogenic pathways in cancer cells through regulation of EGR1 and HOXB9. Low miR-192 expression in human tumours is predictive of poor clinical outcome in several cancer types. Using 1,2-dioleoyl-sn-glycero-3-phosphatidylcholine (DOPC) nanoliposomes, we show that miR-192 delivery leads to inhibition of tumour angiogenesis in multiple ovarian and renal tumour models, resulting in tumour regression and growth inhibition. This anti-angiogenic and anti-tumour effect is more robust than that observed with an anti-VEGF antibody. Collectively, these data identify miR-192 as a central node in tumour angiogenesis and support the use of miR-192 in an anti-angiogenesis therapy.
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