When tissue perfusion is impaired, the resulting reduction in O 2 availability activates hypoxia-inducible factor 1 (HIF-1), which mediates increased transcription of genes encoding multiple angiogenic factors including vascular endothelial growth factor, stromal-derived factor 1, placental growth factor, and angiopoietins, leading to the mobilization of bone marrow-derived angiogenic cells, increased angiogenesis, and arterial remodeling. These HIF- 1-dependent responses are impaired by aging or loss of function mutations at the locus encoding the HIF-1α subunit. in mouse models of limb ischemia and lung transplant rejection, the augmentation of HIF-1 activity by gene therapy or chemical inducers was associated with maintenance of tissue perfusion that prevented limb amputation and allograft rejection, respectively. Thus, targeting HIF-1 may be of therapeutic benefit in these clinical contexts and others in which impaired tissue perfusion plays a role in disease pathogenesis.
Marta Bosch‐Marcé, Hiroaki Okuyama, Jacob Wesley, Kakali Sarkar, Hideo Kimura, Ye V. Liu, Huafeng Zhang, Marianne Strazza, Sergio Rey, Lindsey Savino, Yi Zhou, Karin R. McDonald, Youn Na, Scott Vandiver, Alireza Rabi, Yuval Shaked, Robert S. Kerbel, Theresa LaVallee, Gregg L. Friedman
Brian Kelly, Sean F. Hackett, Kiichi Hirota, Yuji Oshima, Zheqing Cai, Shannon Berg-Dixon, Ashley Rowan, Zhijiang Yan, Peter A. Campochiaro, Gregg L. Friedman
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