Editorial
Copyright ©2010 Baishideng. All rights reserved.
World J Gastrointest Oncol. Mar 15, 2010; 2(3): 125-129
Published online Mar 15, 2010. doi: 10.4251/wjgo.v2.i3.125
Recent advances in understanding of interactions between genes and diet in the etiology of colorectal cancer
Lynnette R Ferguson
Lynnette R Ferguson, Discipline of Nutrition, University of Auckland, Private Bag 92019, Auckland, New Zealand
Author contributions: Ferguson LR contributed solely to this Editorial.
Supported by Foundation for Research, Science and Technology, C02X0403: Gene-specific Foods
Correspondence to: Lynnette R Ferguson, Professor, Discipline of Nutrition, University of Auckland, Private Bag 92019, Auckland, New Zealand. l.ferguson@auckland.ac.nz
Telephone: +64-9-3737599 Fax: +64-9-3035962
Received: July 2, 2009
Revised: November 12, 2009
Accepted: November 19, 2009
Published online: March 15, 2010
Abstract

At an international level, colorectal cancer (CRC) is a major cause of morbidity and mortality. Diet plays a major etiologic role, and a range of putative dietary carcinogens have been identified. The probability with which these lead to mutations, and thereby cause cancer, is strongly impacted by variants in genes coding for xenobiotic metabolizing or DNA repair enzymes. Nutrient deficiencies also play a role, which will be exacerbated by variants in metabolic genes. However, many of the causal genes in sporadic CRC have hitherto proved elusive. The power of large international collaborations, coupled with genome-wide association studies, has implicated a major functional role of the tumour growth factor-β pathway in CRC susceptibility. Nutrient regulation of gene expression may be especially important here. Future large collaborative studies must consider gene-gene and gene-diet interactions, coupled with high throughput genomic technologies, in order to uncover the relative roles of genetic variants, mutagenic xenobiotics, nutrient imbalance and gene expression in the etiology of CRC.

Keywords: Transforming growth factor β; Colorectal cancer; Single nucleotide polymorphisms; Genome wide association studies; Gene expression