Insertional mutagenesis identifies multiple networks of co-operating genes driving intestinal tumorigenesis

The evolution of colorectal cancer suggests the involvement of many genes. We performed insertional mutagenesis with the Sleeping Beauty (SB) transposon system in mice carrying germline or somatic Apc mutation. Analysis of common insertion sites (CISs) isolated from 446 tumors revealed many hundreds...

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Veröffentlicht in:	Nature genetics 2011-11, Vol.43 (12), p.1202-1209
Hauptverfasser:	March, H. Nikki, Rust, Alistair G., Wright, Nicholas A., Hoeve, Jelle ten, de Ridder, Jeroen, Eldridge, Matthew, van der Weyden, Louise, Berns, Anton, Gadiot, Jules, Uren, Anthony, Kemp, Richard, Arends, Mark J., Wessels, Lodewyk F. A., Winton, Douglas J., Adams, David J.
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creator	March, H. Nikki Rust, Alistair G. Wright, Nicholas A. Hoeve, Jelle ten de Ridder, Jeroen Eldridge, Matthew van der Weyden, Louise Berns, Anton Gadiot, Jules Uren, Anthony Kemp, Richard Arends, Mark J. Wessels, Lodewyk F. A. Winton, Douglas J. Adams, David J.
description	The evolution of colorectal cancer suggests the involvement of many genes. We performed insertional mutagenesis with the Sleeping Beauty (SB) transposon system in mice carrying germline or somatic Apc mutation. Analysis of common insertion sites (CISs) isolated from 446 tumors revealed many hundreds of candidate cancer drivers. Comparison to human datasets suggested that 234 CIS genes are also deregulated in human colorectal cancers. 183 CIS genes are candidate Wnt targets, and 20 are shown to be novel modifiers of canonical Wnt signaling. We also identified gene mutations associated with a subset of tumors containing an expanded number of Paneth cells, a hallmark of deregulated Wnt signaling, and genes associated with more severe dysplasia included members of the FGF signaling cascade. Some 70 genes showed pairwise co-occurrence clustering into 38 sub-networks that may regulate tumor development.
doi_str_mv	10.1038/ng.990
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Nikki ; Rust, Alistair G. ; Wright, Nicholas A. ; Hoeve, Jelle ten ; de Ridder, Jeroen ; Eldridge, Matthew ; van der Weyden, Louise ; Berns, Anton ; Gadiot, Jules ; Uren, Anthony ; Kemp, Richard ; Arends, Mark J. ; Wessels, Lodewyk F. A. ; Winton, Douglas J. ; Adams, David J.</creator><creatorcontrib>March, H. Nikki ; Rust, Alistair G. ; Wright, Nicholas A. ; Hoeve, Jelle ten ; de Ridder, Jeroen ; Eldridge, Matthew ; van der Weyden, Louise ; Berns, Anton ; Gadiot, Jules ; Uren, Anthony ; Kemp, Richard ; Arends, Mark J. ; Wessels, Lodewyk F. A. ; Winton, Douglas J. ; Adams, David J.</creatorcontrib><description>The evolution of colorectal cancer suggests the involvement of many genes. We performed insertional mutagenesis with the Sleeping Beauty (SB) transposon system in mice carrying germline or somatic Apc mutation. Analysis of common insertion sites (CISs) isolated from 446 tumors revealed many hundreds of candidate cancer drivers. Comparison to human datasets suggested that 234 CIS genes are also deregulated in human colorectal cancers. 183 CIS genes are candidate Wnt targets, and 20 are shown to be novel modifiers of canonical Wnt signaling. We also identified gene mutations associated with a subset of tumors containing an expanded number of Paneth cells, a hallmark of deregulated Wnt signaling, and genes associated with more severe dysplasia included members of the FGF signaling cascade. 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title	Insertional mutagenesis identifies multiple networks of co-operating genes driving intestinal tumorigenesis
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