Urinary mutagenesis and fried red meat intake: Influence of cooking temperature, phenotype, and genotype of metabolizing enzymes in a controlled feeding study

Peters, Ulrike; Sinha, Rashmi; Bell, Douglas A.; Rothman, Nathaniel; Grant, Delores J.; Watson, Mary Ann; Kulldorff, Martin; Brooks, Lance R.; Warren, Sarah H.; DeMarini, David M.

doi:10.1002/em.10205

Cited by 37 publications

(41 citation statements)

References 39 publications

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“…11 The genotype/phenotype association for the three most common polymorphisms of the UGT1A1 gene demonstrates that these genetic factors modulate the formation of this biomarker, N-OH-PhIP-N 2 G. Therefore, the UGT1A1 status is most likely to influence the level of exposure to N-OH-PhIP and potentially the risk of cancer through dietary exposure to HCAs. Consistent with this hypothesis, Peters and coworkers 50 recently showed in a controlled feeding study, that the UGT1A1*28 allele modifies the effect of intake of meat cooked at high temperature, generating HCAs, on urinary mutagenicity (a biological measurement of exposure). Given the strong biological plausibility for the role of UGT1A1 in the etiology of cancer, epidemiologic studies in populationbased samples with detailed exposure assessment are needed to fully explore this hypothesis and have recently been initiated.…”

Section: Discussionmentioning

confidence: 75%

UGT1A1 polymorphisms are important determinants of dietary carcinogen detoxification in the liver

et al. 2005

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PhIP (2-amino-1-methyl-6-phenylimidazo[4,5-f]pyridine), the most abundant heterocyclic amine in diet, is involved in the etiology of cancer. PhIP and its carcinogenic metabolite Nhydroxy-PhIP (N-OH-PhIP) are extensively conjugated by UDP-glucuronosyltransferase (UGTs) with wide variability. This study aimed to determine the genetic influence of UGTs on the hepatic detoxification of this carcinogen. The formation of N-OH-PhIP glucuronides was studied in 48 human liver samples by mass spectrometry. Liver samples were genotyped for common polymorphisms and correlated with UGT protein levels and N-OH-PhIP glucuronidation activities. The formation of four different N-OH-PhIP glucuronide metabolites was observed in all livers. The major metabolite was N-OH-PhIP-N 2 -glucuronide (N 2 G), which is the primary metabolite found in human urine, and showed a high interindividual variability (up to 28-fold). Using an heterologous expression system, the bilirubin-conjugating UGT1A1 enzyme was identified among all known UGTs (n ‫؍‬ 16) as the predominant enzyme involved. The significant correlation between UGT1A1 protein content and formation of N 2 G (Rs ‫؍‬ 0.87; P < .0001) suggests a critical role for UGT1A1 in the hepatic metabolism of this carcinogen. UGT1A1 expression was strongly determined by the presence of the common promoter polymorphisms, UGT1A1*28 (TATA box polymorphism) (P ‫؍‬ .0031), ؊3156G/A (P ‫؍‬ .0006) and ؊3279G/T (P ‫؍‬ .0017), and rates of N 2 G were indeed correlated with these polymorphisms (P < .05), whether analyzed individually or in combination (haplotypes). In conclusion,

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Section: Discussionmentioning

confidence: 75%

UGT1A1 polymorphisms are important determinants of dietary carcinogen detoxification in the liver

et al. 2005

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“…SNPs in transcription factor binding sites may affect the binding of transcription factors, lead to differences in gene expression and phenotypes, and therefore affect response and susceptibility to environmentally induced disease (2)(3)(4)(5)(6)(7)(8)30,31). Computational methods for predicting the effects of genetic variation are increasingly important because of the rapidly growing catalog of SNPs.…”

Section: Discussionmentioning

confidence: 99%

“…Other examples include a SNP that causes human α-thalassemias by creating a new binding site for erythroid transcription factor GATA-1 in the upstream of α-globin gene (2) and a SNP (-43C->T) in the proximal Sp1 site of the human low density lipoprotein receptor promoter results in heterozygous familial hypercholesterolemia (3). The UGT1A1 gene has a TATA box polymorphism that reduces expression of UGT1A1, leading to Gilbert's syndrome (a common form of hyperbilirubinemia) (4,5), and has also been associated with higher levels of mutagens in the urine (6). The steroid metabolism gene CYP17 has a GC box polymorphism in its proximal promoter that has been associated with higher levels of circulating estradiol (7) and with differences in bone mineral density (8).…”

Section: Introductionmentioning

confidence: 99%

Identification of polymorphic antioxidant response elements in the human genome

Wang

Tomso

Chorley

et al. 2007

Human Molecular Genetics

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148

110

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Single nucleotide polymorphisms (SNPs) in transcription factor binding sites (TFBSs) may affect the binding of transcription factors, lead to differences in gene expression and phenotypes, and therefore affect susceptibility to environmental exposure. We developed an integrated computational system for discovering functional SNPs in TFBSs in the human genome and predicting their impact on the expression of target genes. In this system we: (1) construct a position weight matrix (PWM) from a collection of experimentally discovered TFBSs; (2) predict TFBSs in SNP sequences using the PWM and map SNPs to the upstream regions of genes; (3) examine the evolutionary conservation of putative TFBSs by phylogenetic footprinting; (4) prioritize candidate SNPs based on microarray expression profiles from tissues in which the transcription factor of interest is either deleted or overexpressed; and (5) finally, analyze association of SNP genotypes with gene expression phenotypes. The application of our system has been tested to identify functional polymorphisms in the antioxidant response element (ARE), a cis-acting enhancer sequence found in the promoter region of many genes that encode antioxidant and Phase II detoxification enzymes/proteins. In response to oxidative stress, the transcription factor NRF2 (nuclear factor erythroid-derived 2-like 2) binds to AREs, mediating transcriptional activation of its responsive genes and modulating in vivo defense mechanisms against oxidative damage. Using our novel computational tools, we have identified a set of polymorphic AREs with functional evidence, showing the utility of our system to direct further experimental validation of genomic sequence variations that could be useful for identifying high-risk individuals.

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“…Innocenti et al reported that, compared to *1/*1 and *1/*28 individuals, *28/*28 individuals had a higher prevalence of grade 4 neutropenia and a higher area under the curve (AUC) for the irinotecan metabolite SN-38 that requires glucuronidation in order to be cleared effectively [61]. Peters et al showed that, with exposure to well-cooked red meat (a source of mutagenic compounds) in a controlled feeding study, individuals with the *1/*28 and *28/ *28 genotypes had a higher urinary mutagenicity index than did individuals with the *1/*1 genotypes [62]. The authors suggested that greater amounts of the mutagens were being excreted in the freeform, rather than being glucuronidated and deactivated.…”

Section: Udp-glucuronosyltransferasesmentioning

confidence: 99%

Interindividual differences in phytochemical metabolism and disposition

Lampe

Chang

2007

Seminars in Cancer Biology

109

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Many phytochemicals, the bioactive nonnutrient compounds found in plant foods, possess biologic effects associated with reduced risk of various diseases such as cancer. Genetic variation in pathways affecting absorption, metabolism, and distribution of phytochemicals is likely to influence exposure at the tissue level, thus modifying disease risk in individuals. Few studies have examined these genephytochemical interactions in humans. In this review, we discuss the sources of variation in metabolism and disposition of phytochemicals, and focus on two aspects of phytochemical handling that have received some attention: the impact of intestinal bacteria and genetically polymorphic phase II, conjugating enzymes.

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Urinary mutagenesis and fried red meat intake: Influence of cooking temperature, phenotype, and genotype of metabolizing enzymes in a controlled feeding study

Cited by 37 publications

References 39 publications

UGT1A1 polymorphisms are important determinants of dietary carcinogen detoxification in the liver

UGT1A1 polymorphisms are important determinants of dietary carcinogen detoxification in the liver

Identification of polymorphic antioxidant response elements in the human genome

Interindividual differences in phytochemical metabolism and disposition

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