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Cyclin D1 genetic heterozygosity regulates colonic epithelial cell differentiation and tumor number in ApcMin mice.

Molecular and cellular biology (2004-08-18)
James Hulit, Chenguang Wang, Zhiping Li, Chris Albanese, Mahadev Rao, Dolores Di Vizio, Salimuddin Shah, Stephen W Byers, Radma Mahmood, Leonard H Augenlicht, Robert Russell, Richard G Pestell
RESUMEN

Constitutive beta-catenin/Tcf activity, the primary transforming events in colorectal carcinoma, occurs through induction of the Wnt pathway or APC gene mutations that cause familial adenomatous polyposis. Mice carrying Apc mutations in their germ line (ApcMin) develop intestinal adenomas. Here, the crossing of ApcMin with cyclin D1-/- mice reduced the intestinal tumor number in animals genetically heterozygous or nullizygous for cyclin D1. Decreased tumor number in the duodenum, intestines, and colons of ApcMin/cyclin D1+/- mice correlated with reduced cellular proliferation and increased differentiation. Cyclin D1 deficiency reduced DNA synthesis and induced differentiation of colonic epithelial cells harboring mutant APC but not wild-type APC cells in vivo. In previous studies, the complete loss of cyclin D1 through homozygous genetic deletion conveyed breast tumor resistance. The protection of mice, genetically predisposed to intestinal tumorigenesis, through cyclin D1 heterozygosity suggests that modalities that reduce cyclin D1 abundance could provide chemoprotection.

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17α-Hydroxyprogesterone-2,3,4-13C3 solution, 100 μg/mL in methanol, ampule of 1 mL, certified reference material, Cerilliant®
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Anti-TCF-4 Antibody, clone 6H5-3, clone 6H5-3, Upstate®, from mouse