Abstract 4157: Genetic and dietary complementation in risk for mouse intestinal tumorigenesis

Abstract

Abstract Dietary factors are significant in determining probability for intestinal tumor development even in the presence of strong genetic initiation. For example, a rodent Western-style diet (WD1), modeled to reproduce intake of nutrient risk factors in the human diet associated with sporadic colon cancer, potentiates the formation of intestinal tumors in Apc1638N/+ mice, even when the genetic initiation by Apc is augmented by targeted inactivation of the p21Waf1/cip1 locus. To investigate mechanisms of this synergistic effect, we profiled gene expression along the mouse crypt-villus axis (CVA) using cells isolated as a function of their position along this axis from WT, Apc1638N/+ and p21−/− mice fed control AIN76A diet, and WT mice fed the WD1. Modulation of sequence expression by the WD1 was enriched in the villus compartment, while changes induced by targeting either genetic locus (Apc1638N/+ or p21−/−) were largely in the crypt, where the overlap in altered gene sets was greatest for the genetic models. There was greater overlap among expression changes between Apc1638N/+ and p21−/− mice, than between these genetic mice models and mice fed the WD1, in both the villus and crypt. Paneth cell markers, whose deregulation has been reported in intestinal tumors, were up-regulated in the p21−/− mouse crypt and in WD1 mouse villus. Moreover, there was attenuated expression of secretory cell lineage markers (ie goblet and enteroendocrine cells), but enhanced expression of enterocyte markers, for both the genetic and dietary models. Genes that encode tricarboxylic acid (TCA) cycle enzymes were uniformly decreased in the crypt of both genetic models, with fewer changes in this pathway altered in the WD1 mouse. Gene ontology and biological pathway analysis also showed that Wnt pathway and c-myc target genes were overrepresented in the villus of the WD1 mouse. Supplementation of WD1 with calcium and vitamin D (WD2) reversed aberrantly up-regulated cyclin D1, cyclin D2, defensins and lysozymes in the WD1 villus back to control levels. In summary, complementary changes in cell reprogramming contributed by a western style diet and targeted inactivation of the p21 gene are important in the synergy of these factors in elevating probability of intestinal tumorigenesis. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 101st Annual Meeting of the American Association for Cancer Research; 2010 Apr 17-21; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2010;70(8 Suppl):Abstract nr 4157.