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Thalidomide attenuates nitric oxide mediated angiogenesis by blocking migration of endothelial cells

BACKGROUND: Thalidomide is an immunomodulatory agent, which arrests angiogenesis. The mechanism of anti-angiogenic activity of thalidomide is not fully understood. As nitric oxide is involved in angiogenesis, we speculate a cross-talk between thalidomide and nitric oxide signaling pathway to define...

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Autores principales: Tamilarasan, KP, Kolluru, Gopi Krishna, Rajaram, Megha, Indhumathy, M, Saranya, R, Chatterjee, Suvro
Formato: Texto
Lenguaje:English
Publicado: BioMed Central 2006
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1456963/
https://www.ncbi.nlm.nih.gov/pubmed/16584574
http://dx.doi.org/10.1186/1471-2121-7-17
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author Tamilarasan, KP
Kolluru, Gopi Krishna
Rajaram, Megha
Indhumathy, M
Saranya, R
Chatterjee, Suvro
author_facet Tamilarasan, KP
Kolluru, Gopi Krishna
Rajaram, Megha
Indhumathy, M
Saranya, R
Chatterjee, Suvro
author_sort Tamilarasan, KP
collection PubMed
description BACKGROUND: Thalidomide is an immunomodulatory agent, which arrests angiogenesis. The mechanism of anti-angiogenic activity of thalidomide is not fully understood. As nitric oxide is involved in angiogenesis, we speculate a cross-talk between thalidomide and nitric oxide signaling pathway to define angiogenesis. The aim of present study is to understand the mechanistic aspects of thalidomide-mediated attenuation of angiogenesis induced by nitric oxide at the cellular level. METHODS: To study the cellular mechanism of thalidomide-mediated blocking of angiogenesis triggered by nitric oxide, we used two endothelial cell based models: 1) wound healing and 2) tube formation using ECV 304, an endothelial cell line. These cell-based models reflect pro-angiogenic events in vivo. We also studied the effects of thalidomide on nitric oxide mediated egg yolk angiogenesis. Thalidomide could block the formation of blood vessels both in absence and presence of nitric oxide. Thalidomide effects on migration of, and actin polymerization in, ECV 304 cells were studied at the single cell level using live cell imaging techniques and probes to detect nitric oxide. RESULTS: Results demonstrate that thalidomide blocks nitric oxide-mediated angiogenesis in egg yolk model and also reduces the number of tubes formed in endothelial cell monolayers. We also observed that thalidomide arrests wound healing in presence and absence of nitric oxide in a dose-dependent fashion. Additionally, thalidomide promotes actin polymerization and antagonizes the formation of membrane extensions triggered by nitric oxide in endothelial cells. Experiments targeting single tube structure with thalidomide, followed by nitric oxide treatment, show that the tube structures are insensitive to thalidomide and nitric oxide. These observations suggest that thalidomide interferes with nitric oxide-induced migration of endothelial cells at the initial phase of angiogenesis before cells co-ordinate themselves to form organized tubes in endothelial cells and thereby inhibits angiogenesis. CONCLUSION: Thalidomide exerts inhibitory effects on nitric oxide-mediated angiogenesis by altering sub-cellular actin polymerization pattern, which leads to inhibition of endothelial cell migration.
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spelling pubmed-14569632006-05-04 Thalidomide attenuates nitric oxide mediated angiogenesis by blocking migration of endothelial cells Tamilarasan, KP Kolluru, Gopi Krishna Rajaram, Megha Indhumathy, M Saranya, R Chatterjee, Suvro BMC Cell Biol Research Article BACKGROUND: Thalidomide is an immunomodulatory agent, which arrests angiogenesis. The mechanism of anti-angiogenic activity of thalidomide is not fully understood. As nitric oxide is involved in angiogenesis, we speculate a cross-talk between thalidomide and nitric oxide signaling pathway to define angiogenesis. The aim of present study is to understand the mechanistic aspects of thalidomide-mediated attenuation of angiogenesis induced by nitric oxide at the cellular level. METHODS: To study the cellular mechanism of thalidomide-mediated blocking of angiogenesis triggered by nitric oxide, we used two endothelial cell based models: 1) wound healing and 2) tube formation using ECV 304, an endothelial cell line. These cell-based models reflect pro-angiogenic events in vivo. We also studied the effects of thalidomide on nitric oxide mediated egg yolk angiogenesis. Thalidomide could block the formation of blood vessels both in absence and presence of nitric oxide. Thalidomide effects on migration of, and actin polymerization in, ECV 304 cells were studied at the single cell level using live cell imaging techniques and probes to detect nitric oxide. RESULTS: Results demonstrate that thalidomide blocks nitric oxide-mediated angiogenesis in egg yolk model and also reduces the number of tubes formed in endothelial cell monolayers. We also observed that thalidomide arrests wound healing in presence and absence of nitric oxide in a dose-dependent fashion. Additionally, thalidomide promotes actin polymerization and antagonizes the formation of membrane extensions triggered by nitric oxide in endothelial cells. Experiments targeting single tube structure with thalidomide, followed by nitric oxide treatment, show that the tube structures are insensitive to thalidomide and nitric oxide. These observations suggest that thalidomide interferes with nitric oxide-induced migration of endothelial cells at the initial phase of angiogenesis before cells co-ordinate themselves to form organized tubes in endothelial cells and thereby inhibits angiogenesis. CONCLUSION: Thalidomide exerts inhibitory effects on nitric oxide-mediated angiogenesis by altering sub-cellular actin polymerization pattern, which leads to inhibition of endothelial cell migration. BioMed Central 2006-04-04 /pmc/articles/PMC1456963/ /pubmed/16584574 http://dx.doi.org/10.1186/1471-2121-7-17 Text en Copyright © 2006 Tamilarasan et al; licensee BioMed Central Ltd. http://creativecommons.org/licenses/by/2.0 This is an Open Access article distributed under the terms of the Creative Commons Attribution License ( (http://creativecommons.org/licenses/by/2.0) ), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Article
Tamilarasan, KP
Kolluru, Gopi Krishna
Rajaram, Megha
Indhumathy, M
Saranya, R
Chatterjee, Suvro
Thalidomide attenuates nitric oxide mediated angiogenesis by blocking migration of endothelial cells
title Thalidomide attenuates nitric oxide mediated angiogenesis by blocking migration of endothelial cells
title_full Thalidomide attenuates nitric oxide mediated angiogenesis by blocking migration of endothelial cells
title_fullStr Thalidomide attenuates nitric oxide mediated angiogenesis by blocking migration of endothelial cells
title_full_unstemmed Thalidomide attenuates nitric oxide mediated angiogenesis by blocking migration of endothelial cells
title_short Thalidomide attenuates nitric oxide mediated angiogenesis by blocking migration of endothelial cells
title_sort thalidomide attenuates nitric oxide mediated angiogenesis by blocking migration of endothelial cells
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1456963/
https://www.ncbi.nlm.nih.gov/pubmed/16584574
http://dx.doi.org/10.1186/1471-2121-7-17
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