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Genetic deletion of the desmosomal component Desmoplakin promotes tumor microinvasion in a mouse model of pancreatic neuroendocrine carcinogenesis
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نویسنده
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chun m.g.h. ,hanahan d.
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منبع
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plos genetics - 2010 - دوره : 6 - شماره : 9
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چکیده
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We used the rip1-tag2 (rt2) mouse model of islet cell carcinogenesis to profile the transcriptome of pancreatic neuroendocrine tumors (pnet) that were either non-invasive or highly invasive,seeking to identify pro- and antiinvasive molecules. expression of multiple components of desmosomes,structures that help maintain cellular adhesion,was significantly reduced in invasive carcinomas. genetic deletion of one of these desmosomal components,desmoplakin,resulted in increased local tumor invasion without affecting tumor growth parameters in rt2 pnets. expression of cadherin 1,a component of the adherens junction adhesion complex,was maintained in these tumors despite the genetic deletion of desmoplakin. our results demonstrate that loss of desmoplakin expression and resultant disruption of desmosomal adhesion can promote increased local tumor invasion independent of adherens junction status. © 2010 chun,hanahan.
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آدرس
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department of biochemistry and biophysics,helen diller family comprehensive cancer center,and diabetes center,university of california san francisco,san francisco,ca,united states,program in biological sciences,university of california san francisco,san francisco,ca, United States, department of biochemistry and biophysics,helen diller family comprehensive cancer center,and diabetes center,university of california san francisco,san francisco,ca,united states,swiss institute for experimental cancer research (isrec),swiss federal institute of technology lausanne (epfl),lausanne, Switzerland
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Authors
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