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Review
. 2022 Aug 29;39(11):178.
doi: 10.1007/s12032-022-01810-z.

Decoding the mechanism of vascular morphogenesis to explore future prospects in targeted tumor therapy

Gayathri Venkatakrishnan  1 Venkatachalam Deepa Parvathi  2
Affiliations
Review

Decoding the mechanism of vascular morphogenesis to explore future prospects in targeted tumor therapy

Gayathri Venkatakrishnan et al. Med Oncol. .

Abstract

The growth and formation of blood vessels is an undeniably fundamental biological process crucial to controlling overall development of an organism. This phenomenon consists of two separate processes, commencing with vasculogenesis, which refers to the process of blood vessel formation strictly in embryonic stages, via de novo endothelial cell synthesis. Angiogenesis continues the formation of the vascular network via sprouting and splitting. Tumor growth is dependent on the growth and supply of blood vessels around the tumor mass. Extracellular matrix (ECM) molecules can promote angiogenesis by establishing a vascular network and sequestering pro-angiogenic growth factors. Although the methods by which tumor-associated fibroblasts (which differ in phenotype from normal fibroblasts) influence angiogenesis are unknown, they are thought to be a major source of growth factors and cytokines that attract endothelial cells. Chemokines and growth factors (sourced from macrophages and neutrophils) are also regulators of angiogenesis. When considered as a whole, the tumor microenvironment is a heterogenous and dynamic mass of tissue, composed of a plethora of cell types and an ECM that can fundamentally control the pathological angiogenic switch. Angiogenesis is involved in numerous diseases, and understanding the various mechanisms surrounding this phenomenon is key to finding cures.

Keywords: Angiogenesis; Endothelial cells; Migration; Tumor angiogenesis; VEGF; Vascular remodeling.

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