Overexpression of the chimeric plasmin-resistant VEGF165/VEGF183 (132-158) protein in murine breast cancer induces distinct vascular patterning adjacent to tumors and retarded tumor growth
| Autor: | Bing-Lin Fan, Ling‑Min Mu, Wu-Ling Zhu, Xin-Sheng Wu, Hui-Yong Zhang, Wen-Feng Wang |
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| Rok vydání: | 2014 |
| Předmět: |
Vascular Endothelial Growth Factor A
Cancer Research Angiogenesis Carcinogenesis Recombinant Fusion Proteins Breast Neoplasms Biology medicine.disease_cause Biochemistry Extracellular matrix chemistry.chemical_compound Mice Cell Movement Cell Line Tumor Genetics medicine Animals Humans Transplantation Homologous Amino Acid Sequence Fibrinolysin Molecular Biology Mice Inbred BALB C Oncogene Neovascularization Pathologic Cancer Exons Cell cycle medicine.disease Immunohistochemistry Extracellular Matrix Vascular endothelial growth factor Oncology chemistry Microvessels Cancer research Disease Progression Molecular Medicine Female Wound healing |
| Zdroj: | Molecular medicine reports. 11(2) |
| ISSN: | 1791-3004 |
| Popis: | A chimeric plasmin‑resistant vascular endothelial growth factor (VEGF)165/VEGF183 (132-158) protein, named as VEGF183 (according to the nomenclature of VEGF), designed by a previous study, was demonstrated to have an enhanced affinity for the extracellular matrix (ECM) amongst other bioactivities. However, it is now accepted that mutant VEGFs frequently demonstrate different angiogenic activities and produce different vascular patterning from the parental molecule. The present study hypothesized that VEGF183, due to its enhanced binding affinity to the ECM, would exhibit a different angiogenic activity and produce a different vascular patterning compared to those of VEGF165. Murine breast cancer EMT‑6 cells were manipulated to stably overexpress VEGF165 or VEGF183. These cells were then inoculated intradermally into BALB/c mice in order to monitor the formation of vascular patterning in skin proximal to tumors. In vivo angiogenesis experiments revealed that overexpression of VEGF183 in murine breast cancer cells resulted in irregular, disorganized and dense vascular patterning as well as induced a significant inhibition of tumor growth compared with that of VEGF165. In addition, allograft tumor immunochemical assays of VEGF183‑overexpressing tumors demonstrated significantly lower vascular densities than those of VEGF165‑overexpressing tumors; however, VEGF183 tumors had a significantly enlarged vascular caliber. Conversely, cell wound healing experiments revealed that VEGF183‑overexpressing EMT‑6 cells had significantly decreased migration rates compared with those of VEGF165‑overexpressing EMT‑6 cells. In conclusion, the results of the present study supported the hypothesis that the altered ECM affinity of VEGF induced structural alterations to vasculature. In addition, these results provided a novel insight into VEGF design and indirect evidence for the function of exon 8 in VEGF. [Corrected] |
| Databáze: | OpenAIRE |
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