TY - JOUR
T1 - Mice deficient in Six5 develop cataracts
T2 - Implications for myotonic dystrophy
AU - Klesert, Todd R.
AU - Cho, Diane H.
AU - Clark, John I.
AU - Maylie, James
AU - Adelman, John
AU - Snider, Lauren
AU - Yuen, Eric C.
AU - Soriano, Philippe
AU - Tapscott, Stephen J.
N1 - Funding Information:
We thank H. Sarnat for review of the skeletal muscle histology; M. Tallquist for valued advice; and C. Ganders and J. Ilano for technical assistance. This work was supported by NIAMS AR45203 to S.J.T., NEI EY04542 to J.I.C, HD 24875 and HD 25326 to P.S., and a Poncin Scholarship to T.R.K.
PY - 2000/5
Y1 - 2000/5
N2 - Expansion of a CTG trinucleotide repeat in the 3' UTR of the gene DMPK at the DM1 locus on chromosome 19 causes myotonic dystrophy a dominantly inherited disease characterized by skeletal muscle dystrophy and myotonia, cataracts and cardiac conduction defects. Targeted deletion of Dm15, the mouse orthologue of human DMPK, produced mice with a mild myopathy and cardiac conduction abnormalities, but without other features of myotonic dystrophy, such as myotonia and cataracts. We, and others, have demonstrated that repeat expansion decreases expression of the adjacent gene SIX5 (refs 7,8), which encodes a home-odomain transcription factor. To determine whether SIX5 deficiency contributes to the myotonic dystrophy phenotype, we disrupted mouse Six5 by replacing the first exon with a β-galactosidase reporter. Six5-mutant mice showed reporter expression in multiple tissues, including the developing lens. Homozygous mutant mice had no apparent abnormalities of skeletal muscle function, but developed lenticular opacities at a higher rate than controls. Our results suggest that SIX5 deficiency contributes to the cataract phenotype in myotonic dystrophy, and that myotonic dystrophy represents a multigenic disorder.
AB - Expansion of a CTG trinucleotide repeat in the 3' UTR of the gene DMPK at the DM1 locus on chromosome 19 causes myotonic dystrophy a dominantly inherited disease characterized by skeletal muscle dystrophy and myotonia, cataracts and cardiac conduction defects. Targeted deletion of Dm15, the mouse orthologue of human DMPK, produced mice with a mild myopathy and cardiac conduction abnormalities, but without other features of myotonic dystrophy, such as myotonia and cataracts. We, and others, have demonstrated that repeat expansion decreases expression of the adjacent gene SIX5 (refs 7,8), which encodes a home-odomain transcription factor. To determine whether SIX5 deficiency contributes to the myotonic dystrophy phenotype, we disrupted mouse Six5 by replacing the first exon with a β-galactosidase reporter. Six5-mutant mice showed reporter expression in multiple tissues, including the developing lens. Homozygous mutant mice had no apparent abnormalities of skeletal muscle function, but developed lenticular opacities at a higher rate than controls. Our results suggest that SIX5 deficiency contributes to the cataract phenotype in myotonic dystrophy, and that myotonic dystrophy represents a multigenic disorder.
UR - http://www.scopus.com/inward/record.url?scp=0034019306&partnerID=8YFLogxK
U2 - 10.1038/75490
DO - 10.1038/75490
M3 - Article
C2 - 10802667
AN - SCOPUS:0034019306
SN - 1061-4036
VL - 25
SP - 105
EP - 109
JO - Nature Genetics
JF - Nature Genetics
IS - 1
ER -