Peptides derived from the integrin β cytoplasmic tails inhibit angiogenesis

Zhongyuan Cao, Xinfeng Suo, Yudan Chu, Zhou Xu, Yun Bao, Chunxiao Miao, Wenfeng Deng, Kaijun Mao, Juan Gao, Zhen Xu, Yan-Qing Ma

Integrins are essential regulators of angiogenesis. However, the antiangiogenic potential of peptides derived from the integrin cytoplasmic tails (CT) remains mostly undetermined. Here we designed a panel of membrane-penetrating peptides (termed as mβCTPs), each comprising a C-terminal NxxY motif from one of the conserved integrin β CTs, and evaluated their antiangiogenic ability using both in vitro and in vivo approaches. We found that mβ3CTP, mβ5CTP and mβ6CTP, derived respectively from the integrin β3, β5 and β6 CTs, but not others, exhibit antiangiogenic ability. Interestingly, we observed that the integrin β3, β5 and β6 CTs but not others are able to interact with β3-endonexin. In addition, the antiangiogenic core in mβ3CTP is identical to a previously identified β3-endonexin binding region in the integrin β3 CT, indicating that the antiangiogenic mβCTPs may function via their binding to β3-endonexin. Consistently, knockdown of endogenous β3-endonexin in HUVECs significantly suppresses tube formation, suggesting that β3-endonexin is proangiogenic. However, neither treatment with the antiangiogenic mβCTPs nor knockdown of endogenous β3-endonexin affects integrin-mediated HUVEC adhesion and migration, indicating that their antiangiogenic effect may not rely on directly regulating integrin activity. Importantly, both treatment with the antiangiogenic mβCTPs and knockdown of endogenous β3-endonexin in HUVECs inhibit VEGF expression and cell proliferation, thereby providing mechanistic explanations for the functional consequences. Our results suggest that the antiangiogenic mβCTPs can interact with β3-endonexin in vascular endothelial cells and suppress its function in regulating VEGF expression and cell proliferation, thus disclosing a unique pathway that may be useful for developing novel antiangiogenic strategies.