Mechanisms of normal and tumor-derived angiogenesis

doi:10.1152/ajpcell.00389.2001

INVITED REVIEW
Mechanisms of normal and tumor-derived angiogenesis

Michael Papetti and Ira M. Herman

Department of Cellular and Molecular Physiology, Tufts University School of Medicine, Boston, Massachusetts 02111

Often those diseases most evasive to therapeutic intervention usurp the human body's own cellular machinery or deregulatenormal physiological processes for propagation. Tumor-inducedangiogenesis is a pathological condition that results from aberrantdeployment of normal angiogenesis, an essential process in whichthe vascular tree is remodeled by the growth of new capillariesfrom preexisting vessels. Normal angiogenesis ensures that developingor healing tissues receive an adequate supply of nutrients. Withinthe confines of a tumor, the availability of nutrients is limitedby competition among actively proliferating cells, and diffusionof metabolites is impeded by high interstitial pressure (JainRK. Cancer Res 47: 3039-3051, 1987). As a result, tumor cellsinduce the formation of a new blood supply from the preexistingvasculature, and this affords tumor cells the ability to surviveand propagate in a hostile environment. Because both normal andtumor-induced neovascularization fulfill the essential role ofsatisfying the metabolic demands of a tissue, the mechanisms bywhich cancer cells stimulate pathological neovascularization mimicthose utilized by normal cells to foster physiological angiogenesis.This review investigates mechanisms of tumor-induced angiogenesis.The strategies used by cancer cells to develop their own bloodsupply are discussed in relation to those employed by normal cellsduring physiological angiogenesis. With an understanding of bloodvessel growth in both normal and abnormal settings, we are bettersuited to design effective therapeutics forcancer.

blood vessel; growth; cancer; endothelium; pericyte

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INVITED REVIEW Mechanisms of normal and tumor-derived angiogenesis

INVITED REVIEW
Mechanisms of normal and tumor-derived angiogenesis

				T. Takahashi, K. Takahashi, P. L. St. John, P. A. Fleming, T. Tomemori, T. Watanabe, D. R. Abrahamson, C. J. Drake, T. Shirasawa, and T. O. Daniel A Mutant Receptor Tyrosine Phosphatase, CD148, Causes Defects in Vascular Development Mol. Cell. Biol., March 1, 2003; 23(5): 1817 - 1831. [Abstract] [Full Text] [PDF]

				L. Zhang, N. Yang, J.-R. Conejo Garcia, A. Mohamed, F. Benencia, S. C. Rubin, D. Allman, and G. Coukos Generation of a Syngeneic Mouse Model to Study the Effects of Vascular Endothelial Growth Factor in Ovarian Carcinoma Am. J. Pathol., December 1, 2002; 161(6): 2295 - 2309. [Abstract] [Full Text] [PDF]

				J.N. UPALAKALIN, I. HEMO, C. DEHIO, E. KESHET, and L.E. BENJAMIN Survival Mechanisms of VEGF and PlGF during Microvascular Remodeling Cold Spring Harb Symp Quant Biol, January 1, 2002; 67(0): 181 - 188. [Abstract] [PDF]