Abstract
Coding repeats are usually short mononucleotide tracts (SMT) of 10 or less base pairs in size. A number of such sequences contained in genes suspected to play a role in human carcinogenesis have been found to be mutated in mismatch repair deficient tumors (MSI-H cancers). Because of the high background of instability characterizing these cancers and in the absence of functional criteria, the significance of most frameshift gene alterations is unclear. In the present work, we analysed a series of 22 transcribed but non-coding SMT that are thus unlikely to play a tumorigenic role. Their frequency of size alteration in germline DNA and in DNA from MSI-H and microsatellite stable (MSS) tumors were compared to those previously reported in a series of 25 coding SMT of similar size. Non-coding SMT were either monomorphic or polymorphic in germline DNA whereas coding SMT were all monomorphic. In MSI-H tumors, non-coding SMT showed infrequent alterations (0–44%), as opposed to coding SMT which were altered at extremely variable frequencies (0 to 92%). Seven of the 22 non-coding SMT were monomorphic in MSS tumors but presented size alterations in MSI-H tumors with variable frequencies (3–28%). They were thus selected for further comparative statistical analyses for instability in coding SMT in MSI-H colorectal cancers. Only seven out of 25 of the coding SMT showed a significantly higher mutation frequency in these tumors. In the absence of functional criteria, we propose this as a novel and comprehensive approach for distinguishing real target genes amongst the numerous proposed gene mutations. It should allow identification of those that are genuinely selected for during MSI-H tumoral progression from others that play a less important role, if any, in MSI-H carcinogenesis.
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References
Aaltonen LA, Peltomäki P, Leach FS, Sistonen P, Pylkkänen L, Mecklin JP, Järvinen H, Powell SM, Jen J, Hamilton SR, Petersen GM, Kinzler KW, Vogelstein B, de la Chapelle A . 1993 Science 260: 812–816
Boland CR, Thibodeau SN, Hamilton SR, Sidransky D, Eshleman JR, Burt RW, Meltzer SJ, Rodrigues-Bigas MA, Fodde R, Ranzani GN, Srivastava S . 1998 Cancer Res. 58: 5248–5257
Duval A, Gayet J, Zhou XP, Iacopetta B, Thomas G, Hamelin R . 1999 Cancer Res. 59: 4213–4215
Duval A, Rolland S, Compoint A, Tubacher E, Iacopetta B, Thomas G, Hamelin R . 2001 Hum. Mol. Genet. 10: 513–518
Duval A, Hamelin R . 2002 Cancer Res. 62: 2447–2454
Hoang JM, Cottu PH, Thuille B, Salmon RJ, Thomas G, Hamelin R . 1997 Cancer Res. 57: 300–303
Ionov Y, Peinado M, Malkhosyan S, Shibata D, Perucho M . 1993 Nature 363: 558–561
Kim NG, Choi YR, Baek MJ, Kim YH, Kang H, Kim NK, Min JS, Kim H . 2001 Cancer Res. 61: 36–38
Malkhosyan S, Rampino N, Yamamoto H, Perucho M . 1996 Nature 382: 499–500
Markowitz S, Wang J, Myeroff L, Parsons R, Sun L, Lutterbaugh J, Fan RS, Zborowska E, Kinzler KW, Vogelstein B, Brattain M, Willson JKV . 1995 Science 268: 1336–1338
Rampino N, Yamamoto H, Ionov Y, Li Y, Sawai H, Reed JC, Perucho M . 1997 Science 275: 967–969
Schwartz Jr S, Yamamoto H, Navarro M, Maestro M, Reventos J, Perucho M . 1999 Cancer Res. 59: 2995–3002
Souza RF, Appel R, Yin J, Wang S, Smolinski KN, Abraham JM, Zhou TT, Shi YQ, Lei J, Cottrell J, Cymes K, Biden K, Simms L, Leggett B, Lynch PM, Frazier M, Powell SM, Harpaz N, Sugimura H, Young J, Meltzer SJ . 1996 Nature Genet. 14: 255–257
Suzuki K, Dai T, Suzuki I, Dai Y, Yamashita K, Perucho M . 2002 Cancer Res. 62: 1961–1965
Thibodeau SN, Bren G, Schaid D . 1993 Science 260: 816–819
Zhang L, Yu J, Willson JKV, Markowitz SD, Kinzler KW, Vogelstein B . 2001 Cancer Res. 61: 3801–3805
Zhou XP, Hoang JM, Li YJ, Seruca R, Carneiro F, Sobrinho-Simoes M, Lothe R, Gleeson CM, Hilary Russell SE, Muzeau F, Flejou JF, Hoang-Xuan K, Lidereau R, Thomas G, Hamelin R . 1998 Genes Chromosomes Cancer 21: 101–107
Acknowledgements
We thank Dr Barry Iacopetta for critical reading of the manuscript. A Duval was a recipient of a poste d'accueil from Institut National pour la Santé et la Recherche Médicale (INSERM).
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Duval, A., Reperant, M. & Hamelin, R. Comparative analysis of mutation frequency of coding and non coding short mononucleotide repeats in mismatch repair deficient colorectal cancers. Oncogene 21, 8062–8066 (2002). https://doi.org/10.1038/sj.onc.1206013
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DOI: https://doi.org/10.1038/sj.onc.1206013
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