Analysis of the <i>DPYD</i> Gene Implicated in 5-Fluorouracil Catabolism in a Cohort of Caucasian Individuals

Seck, Katharina; Riemer, Silvia; Kates, Ronald; Ullrich, Tobias; Lutz, Veronika; Harbeck, Nadia; Schmitt, Manfred; Kiechle, Marion; Diasio, Robert B.; Groß, Eva

doi:10.1158/1078-0432.ccr-04-1784

Cited by 96 publications

(88 citation statements)

References 26 publications

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“…Statistically significant difference between controls and the high-toxicity group was found in frequency of IVS14+1G>A carriers The DHPLC analysis performed in the low-toxicity and control groups revealed presence of five intronic variants flanking to analyzed exons (IVS9-51T>G, IVS10-15T>C, IVS12-11G>A, IVS13+39C>T, and IVS13+40A>G). All these variants of unknown significance were described previously in various populations and were not considered for further analysis in our study [12,24,25]. The strong association of IVS13+39C>T with c.1627A>G (I543V) reported in previous studies was also observed in our samples (data not shown) [16,26].…”

Section: Dpyd Alterations In the Group Of High-toxicity Patientssupporting

confidence: 66%

Influence of dihydropyrimidine dehydrogenase gene (DPYD) coding sequence variants on the development of fluoropyrimidine-related toxicity in patients with high-grade toxicity and patients with excellent tolerance of fluoropyrimidine-based chemotherapy

Kleibl

Fidlerová²,

Kleiblová³

et al. 2009

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Alterations in dihydropyrimidine dehydrogenase gene (DPYD) coding for the key enzyme (DPD) of fluoropyrimidines (FPs) catabolism contribute to the development of serious FPs-related toxicity. We performed mutation analysis of DPYD based on cDNA sequencing in 76 predominantly colorectal cancer patients treated by FPs with early development of high (grade 3-4) hematological and/or gastrointestinal toxicity. Six previously described [85T>C (C29R), 496A>G (M166V), 775A>G (K259E), 1601G>A (S534N), 1627A>G (I543V), IVS14+1G>A, 2194G>A (V732I)] and two novel [187A>G (K63E) and 1050 G>A (R357H)] non-synonymous DPYD variants were found in 56/76 (73.7%) high-toxicity patients. Subsequently, these alterations were analyzed in 48 patients with excellent long-term tolerance of FPs and in 243 controls and were detected in 37/48 (77.1%) and 166/243 (68.3%) cases, respectively. Analysis of these alterations as risk factors for development of toxicity in pooled FPs-treated population demonstrated that C29R negatively correlated with overall gastrointestinal toxicity (OR = 0.48; 95%CI 0.23-1.0) and M166V in women protected against overall hematological toxicity and neutropenia (both OR = 0.26; 95%CI 0.07-0.89), whereas IVS14+1G>A (found in five high-toxicity patients only) increased risk of mucositis in overall population (OR = 7.0; 95%CI 1.1-44.53), and thrombocytopenia in women (OR = 10.8; 95%CI 1.24-93.98). Moreover, we identified a strong association of V732I with leucopenia (OR = 8.17; 95%CI 2.44 -27.31) and neutropenia (OR=2.78; 95% CI 1.03-7.51). Our data enabled characterization of "high risk" haplotypes (carriers of IVS14+1G>A or V732 lacking M166V) representing small (22% female and 11% male patients), population in high risk of serious hematological toxicity development, and in patients with "lower risk" that unlikely develop serious hematological toxicity [carriers of M166V without IVS14+1G>A and V732I in females (32% women), and non-carriers of C29R, M166V, IVS14+1G>A, and V732I in males (46% men)]. Our results indicate that genotyping of several DPYD variants may lead to stratification of patients with respect to the risk of serious hematological toxicity development during FPs treatment. Key words: dihydropyrimidine dehydrogenase gene [DPYD], fluoropyrimidines, 5-fluorouracil toxicity, mutation analysis, haplotypes, association study* Corresponding author † These authors contributed equally to this work.Fluoropyrimidines -5-fluorouracil (5-FU) and its derivates (e.g. capecitabine) -belong to the most frequently used anticancer drugs in treatment of solid cancers. Mechanism of action of 5-FU involves its anabolic conversions to 5-fluoropyrimidine nucleotides that exert profound inhibitory effect on thymidylate synthetase activity and interfere with RNA and DNA metabolism [1]. The development of severe toxicity is the critical complication of 5-FU-based therapy. It occurs in nearly one third of cases with progression to life-threatening complications in approximately 0.5% patients [2].About 80% of 5-FU is quickly ina...

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Section: Dpyd Alterations In the Group Of High-toxicity Patientssupporting

confidence: 66%

Influence of dihydropyrimidine dehydrogenase gene (DPYD) coding sequence variants on the development of fluoropyrimidine-related toxicity in patients with high-grade toxicity and patients with excellent tolerance of fluoropyrimidine-based chemotherapy

Kleibl

Fidlerová²,

Kleiblová³

et al. 2009

neo

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“…Its allele frequency in Japanese (0.029 in this study) and Taiwanese (0.022) (Hsiao et al 2004) was much lower than that in (Seck et al 2005;Morel et al 2006).…”

Section: Ethnic Differences In Distributions Of Dpyd Snps and Haplotypescontrasting

confidence: 56%

“…The SNP 496A[G (Met166Val) in block 1 is found at a lower allele frequency in Japanese (0.022) than in Caucasians (0.080) (Seck et al 2005). Seck et al (2005) inferred two haplotypes harboring 496A[G (Met166Val) from 157 Caucasians: hap5 ( # 9d in this study) harboring additional 85T[C (Cys29Arg) and IVS10-15T[C and hap11 concurrently harboring IVS10-15T[C alone with frequencies of 0.040 and 0.014, respectively.…”

Section: Ethnic Differences In Distributions Of Dpyd Snps and Haplotypesmentioning

confidence: 99%

“…To date, at least 30 variant DPYD alleles have been published, with or without deleterious impact upon DPD activity (Gross et al 2003;Ogura et al 2005;Seck et al 2005;van Kuilenburg 2004;Zhu et al 2004). Of these variations, a splice site polymorphism, IVS14 + 1G[A, which causes skipping of exon 14, is occasionally detected in North Europeans with allele frequencies of 0.01-0.02 (van Kuilenburg 2004).…”

Section: Introductionmentioning

confidence: 99%

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Genetic variations and haplotype structures of the DPYD gene encoding dihydropyrimidine dehydrogenase in Japanese and their ethnic differences

et al. 2007

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Dihydropyrimidine dehydrogenase (DPD) is an inactivating and rate-limiting enzyme for 5-fluorouracil (5-FU), and its deficiency is associated with a risk for developing a severe or fatal toxicity to 5-FU. In this study, to search for genetic variations of DPYD encoding DPD in Japanese, the putative promoter region, all exons, and flanking introns of DPYD were sequenced from 341 subjects including cancer patients treated with 5-FU. Fifty-five genetic variations, including 38 novel ones, were found and consisted of 4 in the 5 0 -flanking region, 21 (5 synonymous and 16 nonsynonymous) in the coding exons, and 30 in the introns.

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“…Studies have indicated that patients with DPD deficiency often experience severe 5-FU toxicity, including death in some cases (Milano et al, 1999;Coursier et al, 2010). Studies on the mechanistic link between DPD deficiency and 5-FU toxicity have identified more than 30 polymorphisms in DPYD, the gene encoding DPD (Raida et al, 2001;Mattison et al, 2002;Seck et al, 2005). Most of these polymorphisms have no functional effect on DPD activity except for DPYD*2A allele, a G>A splice site transition that results in the skipping of exon 14.…”

Section: Molecular Markers Of Fluoropyrimidinementioning

confidence: 99%

Molecular biomarkers of colorectal cancer: prognostic and predictive tools for clinical practice

Jiang

et al. 2012

J. Zhejiang Univ. Sci. B

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Abstract:Colorectal cancer remains one of the most common types of cancer and leading causes of cancer death worldwide. Although we have made steady progress in chemotherapy and targeted therapy, evidence suggests that the majority of patients undergoing drug therapy experience severe, debilitating, and even lethal adverse drug events which considerably outweigh the benefits. The identification of suitable biomarkers will allow clinicians to deliver the most appropriate drugs to specific patients and spare them ineffective and expensive treatments. Prognostic and predictive biomarkers have been the subjects of many published papers, but few have been widely incorporated into clinical practice. Here, we want to review recent biomarker data related to colorectal cancer, which may have been ready for clinical use.

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Analysis of the DPYD Gene Implicated in 5-Fluorouracil Catabolism in a Cohort of Caucasian Individuals

Cited by 96 publications

References 26 publications

Influence of dihydropyrimidine dehydrogenase gene (DPYD) coding sequence variants on the development of fluoropyrimidine-related toxicity in patients with high-grade toxicity and patients with excellent tolerance of fluoropyrimidine-based chemotherapy

Influence of dihydropyrimidine dehydrogenase gene (DPYD) coding sequence variants on the development of fluoropyrimidine-related toxicity in patients with high-grade toxicity and patients with excellent tolerance of fluoropyrimidine-based chemotherapy

Genetic variations and haplotype structures of the DPYD gene encoding dihydropyrimidine dehydrogenase in Japanese and their ethnic differences

Molecular biomarkers of colorectal cancer: prognostic and predictive tools for clinical practice

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