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Apelin inhibition prevents resistance and metastasis associated with anti-angiogenic therapy.

EMBO molecular medicine (2019-07-04)
Iris Uribesalgo, David Hoffmann, Yin Zhang, Anoop Kavirayani, Jelena Lazovic, Judit Berta, Maria Novatchkova, Tsung-Pin Pai, Reiner A Wimmer, Viktória László, Daniel Schramek, Rezaul Karim, Luigi Tortola, Sumit Deswal, Lisa Haas, Johannes Zuber, Miklós Szűcs, Keiji Kuba, Balazs Dome, Yihai Cao, Bernhard J Haubner, Josef M Penninger
RÉSUMÉ

Angiogenesis is a hallmark of cancer, promoting growth and metastasis. Anti-angiogenic treatment has limited efficacy due to therapy-induced blood vessel alterations, often followed by local hypoxia, tumor adaptation, progression, and metastasis. It is therefore paramount to overcome therapy-induced resistance. We show that Apelin inhibition potently remodels the tumor microenvironment, reducing angiogenesis, and effectively blunting tumor growth. Functionally, targeting Apelin improves vessel function and reduces polymorphonuclear myeloid-derived suppressor cell infiltration. Importantly, in mammary and lung cancer, Apelin prevents resistance to anti-angiogenic receptor tyrosine kinase (RTK) inhibitor therapy, reducing growth and angiogenesis in lung and breast cancer models without increased hypoxia in the tumor microenvironment. Apelin blockage also prevents RTK inhibitor-induced metastases, and high Apelin levels correlate with poor prognosis of anti-angiogenic therapy patients. These data identify a druggable anti-angiogenic drug target that reduces tumor blood vessel densities and normalizes the tumor vasculature to decrease metastases.