[PDF][PDF] VEGF-A has a critical, nonredundant role in angiogenic switching and pancreatic β cell carcinogenesis
In the RIP1-Tag2 mouse model of pancreatic islet carcinoma, angiogenesis is switched on in
a discrete premalignant stage of tumor development, persisting thereafter. Signaling through
VEGF receptor tyrosine kinases is a well-established component of angiogenic regulation.
We show that five VEGF ligand genes are expressed in normal islets and throughout islet
tumorigenesis. To begin dissecting their contributions, we produced an islet β cell specific
knockout of VEGF-A, resulting in islets with reduced vascularity but largely normal …
a discrete premalignant stage of tumor development, persisting thereafter. Signaling through
VEGF receptor tyrosine kinases is a well-established component of angiogenic regulation.
We show that five VEGF ligand genes are expressed in normal islets and throughout islet
tumorigenesis. To begin dissecting their contributions, we produced an islet β cell specific
knockout of VEGF-A, resulting in islets with reduced vascularity but largely normal …
Abstract
In the RIP1-Tag2 mouse model of pancreatic islet carcinoma, angiogenesis is switched on in a discrete premalignant stage of tumor development, persisting thereafter. Signaling through VEGF receptor tyrosine kinases is a well-established component of angiogenic regulation. We show that five VEGF ligand genes are expressed in normal islets and throughout islet tumorigenesis. To begin dissecting their contributions, we produced an islet β cell specific knockout of VEGF-A, resulting in islets with reduced vascularity but largely normal physiology. In RIP1-Tag2 mice wherein most oncogene-expressing cells had deleted the VEGF-A gene, both angiogenic switching and tumor growth were severely disrupted, as was the neovasculature. Thus, VEGF-A is crucial for angiogenesis in a prototypical model of carcinogenesis, whose loss is not readily compensated.
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