Dual Role of the Leukocyte Integrin αMβ2 in Angiogenesis

Polymorphonuclear neutrophils (PMNs) and macrophages are crucial contributors to neovascularization, serving as a source of chemokines, growth factors, and proteases. α(M)β(2)(CD11b/CD18) and α(L)β(2)(CD11a/CD18) are expressed prominently and have been implicated in various responses of these cell types. Thus, we investigated the role of these β2 integrins in angiogenesis. Angiogenesis was analyzed in wild-type (WT), α(M)-knockout (α(M)(-/-)), and α(L)-deficient (α(L)(-/-)) mice using B16F10 melanoma, RM1 prostate cancer, and Matrigel implants. In all models, vascular area was decreased by 50-70% in α(M)(-/-) mice, resulting in stunted tumor growth as compared with WT mice. In contrast, α(L) deficiency did not impair angiogenesis and tumor growth. The neovessels in α(M)(-/-) mice were leaky and immature because they lacked smooth muscle cell and pericytes. Defective angiogenesis in the α(M)(-/-) mice was associated with attenuated PMN and macrophage recruitment into tumors. In contrast to WT or the α(L)(-/-) leukocytes, the α(M)(-/-) myeloid cells showed impaired plasmin (Plm)-dependent extracellular matrix invasion, resulting from 50-75% decrease in plasminogen (Plg) binding and pericellular Plm activity. Surface plasmon resonance verified direct interaction of the α(M)I-domain, the major ligand binding site in the β(2) integrins, with Plg. However, the α(L)I-domain failed to bind Plg. In addition, endothelial cells failed to form tubes in the presence of conditioned medium collected from TNF-α-stimulated PMNs derived from the α(M)(-/-) mice because of severely impaired degranulation and secretion of VEGF. Thus, α(M)β(2) plays a dual role in angiogenesis, supporting not only Plm-dependent recruitment of myeloid cells to angiogenic niches, but also secretion of VEGF by these cells.