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Cancer Chemotherapy and Pharmacology

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01-08-2018 | Original Article

The association of polymorphisms in folate-metabolizing genes with response to adjuvant chemotherapy of colorectal cancer

Authors: Al-Motassem Yousef, Mohammed Zawiah, Shorouq Al-Yacoub, Taha Kadi, Dua’ a Tantawi, Hanguin Al-Ramadhani

Published in: Cancer Chemotherapy and Pharmacology | Issue 2/2018

Abstract

Background

Colorectal cancer (CRC) is one of the major health issues worldwide. 5-Fluorouracil (5-FU) is a cornerstone of chemotherapy for CRC and the major targets of 5-FU are folate-metabolizing enzymes.

Methods

A total of 103 CRC patients with complete clinical data were included in this prospective cohort study. Genotyping was performed using polymerase chain reaction (PCR) followed by sequencing. Using Kaplan–Meier curves, log-rank tests, and Cox proportional hazard models, we evaluated associations between functional polymorphisms in four genes MTHFR (1298A>C and 677C>T), DPYD (496A>G and 85T>C), DHFR 19 bp del, and MTR (2756 A>G) with disease-free survival (DFS).

Results

The minor allele frequencies of MTHFR 1298A>C, MTHFR 677C>T, DPYD 496A>G, DPYD 85T>C, DHFR 19 bp del, and MTR 2756 A>G were 0.364, 0.214, 0.116, 0.209, 0.383, and 0.097, respectively. CRC patients carrying the homozygous GG genotype in DPYD 496A>G had 4.36 times shorter DFS than wild-type AA carriers, (DFS_GG vs _AA: 8.0 ± 4 vs 69.0 ± 10 months; HR 4.36, 95% CI 1.04–18; p = 0.04). Moreover, female carriers of homozygous CC genotype of DPYD 85T>C had shorter DFS compared to either heterozygous or wild-type genotypes, and were 12.7 times shorter than wild-type TT carriers (DFS_{CC vs TT}: 5.0 ± 1.5 vs 42.0 ± 7.6 months; HR 12.7, 95% CI 2.2–71.4; p = 0.004). However, there were no significant associations with the other studied polymorphisms.

Conclusion

Genetic polymorphism in DPYD seems to be associated with DFS in CRC patients receiving an adjuvant regimen of 5-FU/capecitabine-based chemotherapy. Further studies are needed to verify these findings.

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National Cancer Registry Report (2012) Cancer Incidence in Jordan. http://apps.moh.gov.jo/MOH/En/publications.php. Accessed Jan 2017

O’Connell MJ, Campbell ME, Goldberg RM, Grothey A, Seitz JF, Benedetti JK, Andre T, Haller DG, Sargent DJ (2008) Survival following recurrence in stage II and III colon cancer: findings from the ACCENT data set. J Clin Oncol 26(14):2336–2341CrossRefPubMed

Andre T, Boni C, Navarro M, Tabernero J, Hickish T, Topham C, Bonetti A, Clingan P, Bridgewater J, Rivera F, de Gramont A (2009) Improved overall survival with oxaliplatin, fluorouracil, and leucovorin as adjuvant treatment in stage II or III colon cancer in the MOSAIC trial. J Clin Oncol 27(19):3109–3116CrossRefPubMed

Tsukihara H, Tsunekuni K, Takechi T (2016) Folic acid-metabolizing enzymes regulate the antitumor effect of 5-fluoro-2′-deoxyuridine in colorectal cancer cell lines. PLoS One 11(9):e0163961CrossRefPubMedPubMedCentral

Focaccetti C, Bruno A, Magnani E, Bartolini D, Principi E, Dallaglio K, Bucci EO, Finzi G, Sessa F, Noonan DM, Albini A (2015) Effects of 5-fluorouracil on morphology, cell cycle, proliferation, apoptosis, autophagy and ROS production in endothelial cells and cardiomyocytes. PLoS One 10(2):e0115686CrossRefPubMedPubMedCentral

Jang MJ, Kim JW, Jeon YJ, Chong SY, Hong SP, Hwang SG, Oh D, Cho YK, Ji YG, Kim NK (2014) Polymorphisms of folate metabolism-related genes and survival of patients with colorectal cancer in the Korean population. Gene 533(2):558–564CrossRefPubMed

Wisotzkey JD, Toman J, Bell T, Monk JS, Jones D (1999) MTHFR (C677T) polymorphisms and stage III colon cancer: response to therapy. Mol Diagn 4(2):95–99CrossRefPubMed

Ruzzo A, Graziano F, Loupakis F, Rulli E, Canestrari E, Santini D, Catalano V, Ficarelli R, Maltese P, Bisonni R, Masi G, Schiavon G, Giordani P, Giustini L, Falcone A, Tonini G, Silva R, Mattioli R, Floriani I, Magnani M (2007) Pharmacogenetic profiling in patients with advanced colorectal cancer treated with first-line FOLFOX-4 chemotherapy. J Clin Oncol 25(10):1247–1254CrossRefPubMed

Teng Z, Wang L, Cai S, Yu P, Wang J, Gong J, Liu Y (2013) The 677C> T (rs1801133) polymorphism in the MTHFR gene contributes to colorectal cancer risk: a meta-analysis based on 71 research studies. PLoS One 8(2):e55332CrossRefPubMedPubMedCentral

10.

Zhu L, Wang F, Hu F, Wang Y, Li D, Dong X, Cui B, Zhao Y (2013) Association between MTHFR polymorphisms and overall survival of colorectal cancer patients in Northeast China. Med Oncol 30(1):467CrossRefPubMed

11.

Fogli S, Caraglia M (2009) Genotype-based therapeutic approach for colorectal cancer: state of the art and future perspectives. Expert Opin Pharmacother 10(7):1095–1108CrossRefPubMed

12.

Kristensen MH, Pedersen PL, Melsen GV, Ellehauge J, Mejer J (2010) Variants in the dihydropyrimidine dehydrogenase, methylenetetrahydrofolate reductase and thymidylate synthase genes predict early toxicity of 5-fluorouracil in colorectal cancer patients. J Int Med Res 38(3):870–883CrossRefPubMed

13.

Amstutz U, Froehlich TK, Largiadèr CR (2011) Dihydropyrimidine dehydrogenase gene as a major predictor of severe 5-fluorouracil toxicity. Pharmacogenomics 12(9):1321–1336CrossRefPubMed

14.

Gross E, Busse B, Riemenschneider M, Neubauer S, Seck K, Klein H-G, Kiechle M, Lordick F, Meindl A (2008) Strong association of a common dihydropyrimidine dehydrogenase gene polymorphism with fluoropyrimidine-related toxicity in cancer patients. PLoS One 3(12):e4003CrossRefPubMedPubMedCentral

15.

Ulrich CM, Rankin C, Toriola AT, Makar KW, Altug-Teber O, Benedetti JK, Holmes RS, Smalley SR, Blanke CD, Lenz HJ (2014) Polymorphisms in folate-metabolizing enzymes and response to 5-fluorouracil among patients with stage II or III rectal cancer (INT-0144; SWOG 9304). Cancer 120(21):3329–3337CrossRefPubMedPubMedCentral

16.

Xu X, Gammon MD, Wetmur JG, Rao M, Gaudet MM, Teitelbaum SL, Britton JA, Neugut AI, Santella RM, Chen J (2007) A functional 19-base pair deletion polymorphism of dihydrofolate reductase (DHFR) and risk of breast cancer in multivitamin users. Am J Clin Nutr 85(4):1098–1102CrossRefPubMed

17.

Gellekink H, Blom HJ, van der Linden IJ, den Heijer M (2007) Molecular genetic analysis of the human dihydrofolate reductase gene: relation with plasma total homocysteine, serum and red blood cell folate levels. Eur J Hum Genet 15(1):103–109CrossRefPubMed

18.

Shrubsole MJ, Gao Y-T, Cai Q, Shu XO, Dai Q, Jin F, Zheng W (2006) MTR and MTRR polymorphisms, dietary intake, and breast cancer risk. Cancer Epidemiol Biomarkers Prev 15(3):586–588CrossRefPubMed

19.

Klerk M, Lievers KJ, Kluijtmans LA, Blom HJ, den Heijer M, Schouten EG, Kok FJ, Verhoef P (2003) The 2756A> G variant in the gene encoding methionine synthase: its relation with plasma homocysteine levels and risk of coronary heart disease in a Dutch case-control study. Thromb Res 110(2–3):87–91CrossRefPubMed

20.

Offer SM, Fossum CC, Wegner NJ, Stuflesser AJ, Butterfield GL, Diasio RB (2014) Comparative functional analysis of DPYD variants of potential clinical relevance to dihydropyrimidine dehydrogenase activity. Cancer Res 74(9):2545–2554CrossRefPubMedPubMedCentral

21.

Amstutz U, Froehlich TK, Largiader CR (2011) Dihydropyrimidine dehydrogenase gene as a major predictor of severe 5-fluorouracil toxicity. Pharmacogenomics 12(9):1321–1336CrossRefPubMed

22.

Uetake H, Ichikawa W, Takechi T, Fukushima M, Nihei Z, Sugihara K (1999) Relationship between intratumoral dihydropyrimidine dehydrogenase activity and gene expression in human colorectal cancer. Clin Cancer Res 5(10):2836–2839PubMed

23.

Johnston SJ, Ridge SA, Cassidy J, McLeod HL (1999) Regulation of dihydropyrimidine dehydrogenase in colorectal cancer. Clin Cancer Res 5(9):2566–2570PubMed

24.

Kidd EA, Yu J, Li X, Shannon WD, Watson MA, McLeod HL (2005) Variance in the expression of 5-Fluorouracil pathway genes in colorectal cancer. Clin Cancer Res 11(7):2612–2619CrossRefPubMed

25.

Kleibl Z, Fidlerova J, Kleiblova P, Kormunda S, Bilek M, Bouskova K, Sevcik J, Novotny J (2009) 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. Neoplasma 56(4):303–316CrossRefPubMed

26.

Zhao J, Li W, Zhu D, Yu Q, Zhang Z, Sun M, Cai S, Zhang W (2014) Association of single nucleotide polymorphisms in MTHFR and ABCG2 with the different efficacy of first-line chemotherapy in metastatic colorectal cancer. Med Oncol 31(1):802CrossRefPubMed

27.

Afzal S, Jensen SA, Vainer B, Vogel U, Matsen JP, Sorensen JB, Andersen PK, Poulsen HE (2009) MTHFR polymorphisms and 5-FU-based adjuvant chemotherapy in colorectal cancer. Ann Oncol 20(10):1660–1666CrossRefPubMed

28.

Castillo-Fernandez O, Santibanez M, Bauza A, Calderillo G, Castro C, Herrera R, Serrano A, Arrieta O, Herrera LA (2010) Methylenetetrahydrofolate reductase polymorphism (677 C> T) predicts long time to progression in metastatic colon cancer treated with 5-fluorouracil and folinic acid. Arch Med Res 41(6):430–435CrossRefPubMed

29.

Wu NC, Su SM, Lin TJ, Chin J, Hou CF, Yang JY, Liu WS, Chang LC (2015) Methylenetetrahydrofolate reductase C677T and A1298C polymorphisms and fluorouracil-based treatment in Taiwan colorectal cancer. Anticancer Drugs 26(8):888–893CrossRefPubMed

30.

Cohen V, Panet-Raymond V, Sabbaghian N, Morin I, Batist G, Rozen R (2003) Methylenetetrahydrofolate reductase polymorphism in advanced colorectal cancer: a novel genomic predictor of clinical response to fluoropyrimidine-based chemotherapy. Clin Cancer Res 9(5):1611–1615PubMed

31.

Etienne-Grimaldi MC, Francoual M, Formento JL, Milano G (2007) Methylenetetrahydrofolate reductase (MTHFR) variants and fluorouracil-based treatments in colorectal cancer. Pharmacogenomics 8(11):1561–1566CrossRefPubMed

32.

Jennings BA, Kwok CS, Willis G, Matthews V, Wawruch P, Loke YK (2012) Functional polymorphisms of folate metabolism and response to chemotherapy for colorectal cancer, a systematic review and meta-analysis. Pharmacogenet Genomics 22(4):290–304CrossRefPubMed

33.

Ju J (2012) Beyond thymidylate synthase and dihydrofolate reductase: impact of non-coding microRNAs in anticancer chemoresistance. Curr Enzym Inhib 8(2):118–123CrossRefPubMedPubMedCentral

Title: The association of polymorphisms in folate-metabolizing genes with response to adjuvant chemotherapy of colorectal cancer
Authors: Al-Motassem Yousef
Mohammed Zawiah
Shorouq Al-Yacoub
Taha Kadi
Dua’ a Tantawi
Hanguin Al-Ramadhani
Publication date: 01-08-2018
Publisher: Springer Berlin Heidelberg
Published in: Cancer Chemotherapy and Pharmacology / Issue 2/2018
Print ISSN: 0344-5704
Electronic ISSN: 1432-0843
DOI: https://doi.org/10.1007/s00280-018-3608-6

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