Study
PLCO
(Learn more about this study)
Project ID
PLCO-80
Initial CDAS Request Approval
Apr 29, 2014
Title
Translating Gene-Calcium Interactions to Precision Medicine for Colorectal Cancer
Summary
Despite a reduction in both incidence and mortality of colorectal cancer, partially due to rapidly increased use of endoscopy, colorectal cancer (CRC) still remains the 4th most common incident cancer and the 2nd most common cause of cancer death in the US. Thus, it is critical to develop new primary prevention strategies. High consumption of calcium (Ca) has been linked to reduced risks of colorectal adenoma and CRC; however, results have been inconsistent. NKCC2, encoded by SLC12A1, is the direct downstream effector of ROMK encoded by KCNJ1. Both NKCC2 and ROMK serve as driving forces for reabsorption of Ca and Mg. Homozygous rare mutations in SLC12A1 and KCNJ1 cause type I and type II hyperprostaglandin E syndrome, respectively, both of which are characterized by marked hypercalciuria (calcium wasting) and hyperprostaglandin E2 (high levels of PGE2). Over the past 5 years, in an NIH R01 project (AT004660, PI: Dai), we have examined single nucleotide polymorphisms (SNPs) in SLC12A1,and KCNJ1 and 12 other candidate genes which are critically involved in Ca and Mg (re)absorption and regulation, for interaction with intakes of Ca, Mg or Ca/Mg ratio in relation to colorectal adenoma risk. In this two-phase study, we identified and replicated 2 SNPs in KCNJ1 and SLC12A1 that significantly interacted with Ca intake in relation to colorectal adenoma risk, particularly multiple/advanced adenoma. In joint analysis of 2 genes, we observed highest Ca intake was not associated with risk among those with no variant alleles in 2 genes, but was significantly related to 39% and 69% reduced adenoma risk, among those who carry variant allele(s) in 1 and 2 genes, respectively. The corresponding reduction in risk with advanced or multiple adenomas was 89% among those with variant alleles in both genes. We also found similar findings in a third independent set of hyperplastic polyp cases vs. controls. We expanded to 10 more candidate genes and identified and replicated 1 SNP in SLC8A1 interacting with Ca in relation to adenoma risk. 38% of the US population have at least 1 variant allele in any 2 of 3 genes, among whom high Ca intake was associated with a 70% reduced adenoma risk. These findings are novel and promising. However, 3 SNPs in the Ca-gene interactions are non-functional tags. Also, we only examined tagging SNPs with a minor allele frequency≥ 5%, whereas rare mutations in these genes are causally linked to diseases with Ca homeostasis dysfunction. Furthermore, it is unknown if these interactions are associated with incident CRC or adenoma recurrence or confer additional protection from CRC in individuals receiving endoscopic screenings. The proposed study based on the unique resources available from PLCO will prospectively address these important questions. We propose to conduct targeted deep resequencing in these 3 genes to examine functional and rare SNPs and their interactions with Ca intake. In addition, we will conduct a molecular epidemiologic study to prospectively understand the mechanisms underlying these Ca-gene interactions.
Aims
Aim 1: Identify functional and rare SNPs in the 3 genes and their interactions with Ca intake levels in relation to risk of incident adenoma using targeted deep resequencing of 1371 colorectal adenoma cases and 4,110 controls from PLCO. We will genotype promising rare and functional SNPs associated with incident adenoma in 570 incident cancer cases, 1,710 healthy controls, 710 adenoma recurrence cases and 966 recurrent adenoma controls from the intervention arm of PLCO to both confirm the associations with adenoma, and to identify when, in the natural history of CRC, chemoprevention by Ca-gene interactions occurs. We hypothesize that Ca-gene interactions prevent early-stage (incident adenoma) and mid-stage (adenoma recurrence) carcinogenesis as well as span the entire CRC carcinogenesis spectrum (i.e. incident CRC).
Aim 2: Conduct a molecular epidemiologic study among 585 incident adenoma cases, 458 incident CRC cases, and 1840 shared controls as well as 368 recurrent adenoma cases and 556 recurrent adenoma controls to unravel mechanisms for Ca-gene (functional SNPs) interactions. We will measure both prediagnostic serum parathyroid hormone (PTH) and serum vitamin D. We hypothesize that low intake of Ca leads to an increase in serum PTH concentration and elevated risks of colorectal adenoma as well as adenoma recurrence and CRC, particularly among those who carry functional variant alleles in KCNJ1, SLC12A1 and SLC8A1.
The secondary aim of this study are to examine if intake of calcium is associated with reduced risks of early-stage (incident adenoma) and mid-stage (adenoma recurrence) carcinogenesis as well as the entire CRC carcinogenesis spectrum (i.e. incident CRC). We further hypothesize that high Ca intake confer additional protection from CRC and adenoma recurrence even in individuals receiving endoscopic screening(s) in the PLCO intervention arm.
Collaborators
Todd L. Edwards (Co-PI, Vanderbilt University)
Related Publications
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Blunted PTH response to vitamin D insufficiency/deficiency and colorectal neoplasia risk.
Hellwege JN, Zhu X, Huang X, Shrubsole MJ, Fan L, Li B, Ness R, Seidner DL, Giovannucci EL, Edwards TL, Dai Q
Clin Nutr. 2020 Nov 6
PUBMED