Somatic expansion behaviour of the (CTG)n repeat in myotonic dystrophy knock-in mice is differentially affected by Msh3 and Msh6 mismatch-repair proteins

doi:10.1093/hmg/11.2.191

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Human Molecular Genetics, 2002, Vol. 11, No. 2 191-198
© 2002 Oxford University Press

Somatic expansion behaviour of the (CTG)_n repeat in myotonic dystrophy knock-in mice is differentially affected by Msh3 and Msh6 mismatch–repair proteins

Walther J. A. A. van den Broek, Marcel R. Nelen, Derick G. Wansink, Marga M. Coerwinkel, Hein te Riele¹, Patricia J. T. A. Groenen and Bé Wieringa⁺

Department of Cell Biology, UMC Nijmegen, Nijmegen Center for Molecular Life Sciences, PO Box 9101, 6500 HB Nijmegen, The Netherlands and ¹Division of Molecular Biology, The Netherlands Cancer Institute, Amsterdam, The Netherlands

The mechanism of expansion of the (CTG)_n repeat in myotonicdystrophy (DM1) patients and the cause of its pathobiologicaleffects are still largely unknown. Most likely, long repeatsexert toxicity at the level of nuclear RNA transport or splicing.Here, we analyse cis- and trans-acting parameters that determinerepeat behaviour in novel mouse models for DM1. Our mice carry‘humanized’ myotonic dystrophy protein kinase (Dmpk)allele(s) with either a (CTG)₈₄ or a (CTG)₁₁ repeat, insertedat the correct position into the endogenous DM locus. Unlikein the human situation, the (CTG)₈₄ repeat in the syntenic mouseenvironment was relatively stable during intergenerational segregation.However, somatic tissues showed substantial repeat expansionswhich were progressive upon aging and prominent in kidney, andin stomach and small intestine, where it was cell-type restricted.Other tissues examined showed only marginal size changes. The(CTG)₁₁ allele was completely stable, as anticipated. Introducingthe (CTG)₈₄ allele into an Msh3-deficient background completelyblocked the somatic repeat instability. In contrast, Msh6 deficiencyresulted in a significant increase in the frequency of somaticexpansions. Competition of Msh3 and Msh6 for binding to Msh2in functional complexes with different DNA mismatch-recognitionspecificity may explain why the somatic (CTG)_n expansion rateis differentially affected by ablation of Msh3 and Msh6.

⁺ To whom correspondence should be addressed. Tel: +31 24 3614329;Fax: +31 24 3615317; Email: b.wieringa@ncmls.kun.nlPresent address:PatriciaJ. T. A. Groenen, Department of Pathology, UMC Nijmegen, Nijmegen,The Netherlands

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				R. Gonitel, H. Moffitt, K. Sathasivam, B. Woodman, P. J. Detloff, R. L. M. Faull, and G. P. Bates DNA instability in postmitotic neurons PNAS, March 4, 2008; 105(9): 3467 - 3472. [Abstract] [Full Text] [PDF]

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				R. Pelletier, B. T. Farrell, J. J. Miret, and R. S. Lahue *Mechanistic features of CAGCTG repeat contractions in cultured cells revealed by a novel genetic assay** Nucleic Acids Res., September 30, 2005; 33(17): 5667 - 5676. [Abstract] [Full Text] [PDF]

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				I.V. Kovtun, A.R. Thornhill, and C.T. McMurray Somatic deletion events occur during early embryonic development and modify the extent of CAG expansion in subsequent generations Hum. Mol. Genet., December 15, 2004; 13(24): 3057 - 3068. [Abstract] [Full Text] [PDF]

				V. Gorbunova, A. Seluanov, D. Mittelman, and J. H. Wilson Genome-wide demethylation destabilizes CTG{middle dot}CAG trinucleotide repeats in mammalian cells Hum. Mol. Genet., December 1, 2004; 13(23): 2979 - 2989. [Abstract] [Full Text] [PDF]

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				M. Gomes-Pereira, M. T. Fortune, L. Ingram, J. P. McAbney, and D. G. Monckton Pms2 is a genetic enhancer of trinucleotide CAG{middle dot}CTG repeat somatic mosaicism: implications for the mechanism of triplet repeat expansion Hum. Mol. Genet., August 15, 2004; 13(16): 1815 - 1825. [Abstract] [Full Text] [PDF]

				M. Gomes-Pereira and D. G. Monckton Chemically induced increases and decreases in the rate of expansion of a CAG{middle dot}CTG triplet repeat Nucleic Acids Res., May 20, 2004; 32(9): 2865 - 2872. [Abstract] [Full Text] [PDF]

				L. Martorell, J. Gamez, M. L. Cayuela, F. K. Gould, J. P. McAbney, T. Ashizawa, D. G. Monckton, and M. Baiget Germline mutational dynamics in myotonic dystrophy type 1 males: Allele length and age effects Neurology, January 27, 2004; 62(2): 269 - 274. [Abstract] [Full Text] [PDF]

				C. Savouret, C. Garcia-Cordier, J. Megret, H. te Riele, C. Junien, and G. Gourdon MSH2-Dependent Germinal CTG Repeat Expansions Are Produced Continuously in Spermatogonia from DM1 Transgenic Mice Mol. Cell. Biol., January 15, 2004; 24(2): 629 - 637. [Abstract] [Full Text] [PDF]

				L Fernandez-Lopez, E Pineiro, R Marcos, A Velazquez, and J Surralles Induction of instability of normal length trinucleotide repeats within human disease genes J. Med. Genet., January 1, 2004; 41(1): e3 - 3. [Full Text] [PDF]

				B. L. Heidenfelder and M. D. Topal Effects of sequence on repeat expansion during DNA replication Nucleic Acids Res., December 15, 2003; 31(24): 7159 - 7164. [Abstract] [Full Text] [PDF]

Human Molecular Genetics

Somatic expansion behaviour of the (CTG)n repeat in myotonic dystrophy knock-in mice is differentially affected by Msh3 and Msh6 mismatch–repair proteins

Somatic expansion behaviour of the (CTG)_n repeat in myotonic dystrophy knock-in mice is differentially affected by Msh3 and Msh6 mismatch–repair proteins

				J. L. Callahan, K. J. Andrews, V. A. Zakian, and C. H. Freudenreich Mutations in Yeast Replication Proteins That Increase CAG/CTG Expansions Also Increase Repeat Fragility Mol. Cell. Biol., November 1, 2003; 23(21): 7849 - 7860. [Abstract] [Full Text] [PDF]

				K. Watase, K. J. T. Venken, Y. Sun, H. T. Orr, and H. Y. Zoghbi Regional differences of somatic CAG repeat instability do not account for selective neuronal vulnerability in a knock-in mouse model of SCA1 Hum. Mol. Genet., November 1, 2003; 12(21): 2789 - 2795. [Abstract] [Full Text] [PDF]

				S.-R. Yoon, L. Dubeau, M. de Young, N. S. Wexler, and N. Arnheim Huntington disease expansion mutations in humans can occur before meiosis is completed PNAS, July 22, 2003; 100(15): 8834 - 8838. [Abstract] [Full Text] [PDF]

				V. Gorbunova, A. Seluanov, V. Dion, Z. Sandor, J. L. Meservy, and J. H. Wilson Selectable System for Monitoring the Instability of CTG/CAG Triplet Repeats in Mammalian Cells Mol. Cell. Biol., July 1, 2003; 23(13): 4485 - 4493. [Abstract] [Full Text] [PDF]

				J. L. Meservy, R. G. Sargent, R. R. Iyer, F. Chan, G. J. McKenzie, R. D. Wells, and J. H. Wilson Long CTG Tracts from the Myotonic Dystrophy Gene Induce Deletions and Rearrangements during Recombination at the APRT Locus in CHO Cells Mol. Cell. Biol., May 1, 2003; 23(9): 3152 - 3162. [Abstract] [Full Text] [PDF]

				R. Pelletier, M. M. Krasilnikova, G. M. Samadashwily, R. Lahue, and S. M. Mirkin Replication and Expansion of Trinucleotide Repeats in Yeast Mol. Cell. Biol., February 15, 2003; 23(4): 1349 - 1357. [Abstract] [Full Text] [PDF]

				V. C. Wheeler, L.-A. Lebel, V. Vrbanac, A. Teed, H. te Riele, and M. E. MacDonald Mismatch repair gene Msh2 modifies the timing of early disease in HdhQ111 striatum Hum. Mol. Genet., February 1, 2003; 12(3): 273 - 281. [Abstract] [Full Text] [PDF]

				R. T. Libby, D. G. Monckton, Y.-H. Fu, R. A. Martinez, J. P. McAbney, R. Lau, D. D. Einum, K. Nichol, C. B. Ware, L. J. Ptacek, et al. Genomic context drives SCA7 CAG repeat instability, while expressed SCA7 cDNAs are intergenerationally and somatically stable in transgenic mice Hum. Mol. Genet., January 1, 2003; 12(1): 41 - 50. [Abstract] [Full Text] [PDF]

				C. E. Pearson, M. Tam, Y.-H. Wang, S. E. Montgomery, A. C. Dar, J. D. Cleary, and K. Nichol Slipped-strand DNAs formed by long (CAG){middle dot}(CTG) repeats: slipped-out repeats and slip-out junctions Nucleic Acids Res., October 15, 2002; 30(20): 4534 - 4547. [Abstract] [Full Text] [PDF]

				G. B. Panigrahi, J. D. Cleary, and C. E. Pearson In Vitro (CTG){middle dot}(CAG) Expansions and Deletions by Human Cell Extracts J. Biol. Chem., April 12, 2002; 277(16): 13926 - 13934. [Abstract] [Full Text] [PDF]