TY - JOUR
T1 - Association of nonsense mutation of dystrophin gene with disruption of sarcoglycan complex in X-linked dilated cardiomyopathy
AU - Franz, Wolfgang Michael
AU - Müller, Matthias
AU - Müller, J. Oliver
AU - Herrmann, Ralf
AU - Rothmann, Thomas
AU - Cremer, Marion
AU - Cohn, Ronald D.
AU - Voit, Thomas
AU - Katus, Hugo A.
N1 - Funding Information:
We thank Yvonne Muller and Nicola Franke for technical assistance, and K P Campbell (University of Iowa, USA) for providing us with antibodies against β-sarcoglycan and α-sarcoglycan. W-MF, OJM, and HAK were supported by the Fritz Thyssen-Stiftung. W-MF and HAK were also supported by the Deutsche Forschungsgemeinschaft (SFB 320/B6, SFB 320/C4). TV was supported by the Deutsche Forschungsgemeinschaft (VO 392/2-4) and the Alfred Krupp von Bohlen und Halbach-Stiftung.
PY - 2000/5
Y1 - 2000/5
N2 - Background. In a systematic analysis of inherited forms of cardiomyopathy, we previously identified a family with X-linked dilated cardiomyopathy characterised by a mutation in the rod region of dystrophin. We have now attempted to eludicate the genetic mechanism involved in this disease, as well as the role of dystrophin-associated glycoproteins. Methods. The affected dystrophin epitope, which lacks binding to the dys-1 antibody, was analysed by single-strand conformation polymorphism analysis, reverse-transcription PCR, and DNA sequencing. Effects on dystrophin-associated glycoproteins were studied by immunohistochemistry and western blotting. Findings. A translation-termination mutation (C4148T) in exon 29 of the dystrophin gene was found in all affected family members. Alternative splicing rescued the reading frame and led to the expression of a dystrophin molecule lacking 50 aminoacids both in cardiac and skeletal muscle. Immunohistochemical analysis of the dystrophin-associated proteins revealed a reduction of β-sarcoglycan and δ-sarcoglycan in the sarcolemma of cardiac muscle but not skeletal muscle tissue. However, western blotting revealed similar amounts of sarcoglycan subunits in both tissues. Interpretation. The molecular mechanism of this subtype of X-linked cardiomyopathy may be explained by a conformational change in exon-29-deleted dystrophin, resulting in disruption of the sarcoglycan assembly in heart muscle but not skeletal muscle.
AB - Background. In a systematic analysis of inherited forms of cardiomyopathy, we previously identified a family with X-linked dilated cardiomyopathy characterised by a mutation in the rod region of dystrophin. We have now attempted to eludicate the genetic mechanism involved in this disease, as well as the role of dystrophin-associated glycoproteins. Methods. The affected dystrophin epitope, which lacks binding to the dys-1 antibody, was analysed by single-strand conformation polymorphism analysis, reverse-transcription PCR, and DNA sequencing. Effects on dystrophin-associated glycoproteins were studied by immunohistochemistry and western blotting. Findings. A translation-termination mutation (C4148T) in exon 29 of the dystrophin gene was found in all affected family members. Alternative splicing rescued the reading frame and led to the expression of a dystrophin molecule lacking 50 aminoacids both in cardiac and skeletal muscle. Immunohistochemical analysis of the dystrophin-associated proteins revealed a reduction of β-sarcoglycan and δ-sarcoglycan in the sarcolemma of cardiac muscle but not skeletal muscle tissue. However, western blotting revealed similar amounts of sarcoglycan subunits in both tissues. Interpretation. The molecular mechanism of this subtype of X-linked cardiomyopathy may be explained by a conformational change in exon-29-deleted dystrophin, resulting in disruption of the sarcoglycan assembly in heart muscle but not skeletal muscle.
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U2 - 10.1016/S0140-6736(00)02266-2
DO - 10.1016/S0140-6736(00)02266-2
M3 - Article
C2 - 10832829
AN - SCOPUS:0343963762
SN - 0140-6736
VL - 355
SP - 1781
EP - 1785
JO - Lancet
JF - Lancet
IS - 9217
ER -