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Current Angiogenesis

Volume 1 Issue 2
ISSN: 2211-5528
eISSN: 2211-5536

 

   All Titles

  Mechanisms of Angiogenesis: Perspectives from Antiangiogenic Tumor Therapies
  pp.139-147 (9) Authors: Jeffrey J. Rice, Par Gerwins, Witold W. Kilarski
doi: 10.2174/2211552811201020139
 
 
      Abstract

Growth of solid tumors and cancer metastases is accompanied by inflammation-assisted remodeling of the tissue microenvironment that resembles the physiological process of wound healing. As a consequence, the non-malignant tumor stroma constitutes up to 85% of the tumor volume and is simply not just a passive bystander, but regulates tumor survival, growth and metastatic spread. The importance of the tumor vasculature was first recognized in 1971, when Judah Folkman suggested that neovascularization allows a tumor to exceed its dormant stage and grow beyond a size of 2 mm. This hypothesis was not fully appreciated until three decades later when the outbreak of angiogenesis research was followed by the first clinical applications of antiangiogenic drugs. Even though the antiangiogenesis paradigm is broadly accepted, the clinical success of new drugs is limited. Different mechanisms of resistance to antiangiogenesis treatments have been proposed, like compensatory action of blood vessel growth factors, lower sensitivity of normalized vessels to the therapy or vessel growth by alternative modes of angiogenesis. In this review we will analyze the known mechanisms of neovascularization, including postnatal vasculogenesis, sprouting angiogenesis, intussusceptive angiogenesis, and looping angiogenesis and their potential effects on tumor vascularization. We will also discuss how the current basic knowledge of angiogenic mechanisms translate into limited success of clinical trials utilizing antiangiogenic drugs.

 
  Keywords: Angiogenesis, antiangiogenesis, cancer, healing, intussusception, tension, vascularization, Tumor Therapies
  Affiliation: Institute of Bioengineering and Swiss Institute for Experimental, Cancer Research (ISREC), Ecole Polytechnique Federale de Lausanne, Lausanne 1015, Switzerland.
 
  Key: New Content Free Content Open Access Plus Subscribed Content

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