A novel syndrome of Klippel-Feil anomaly, myopathy, and characteristic facies is linked to a null mutation in MYO18B
Journal of medical genetics, 2015•jmg.bmj.com
Background Klippel-Feil anomaly (KFA) can be seen in a number of syndromes. We
describe an apparently novel syndromic association with KFA. Methods Clinical
phenotyping of two consanguineous families followed by combined autozygome/exome
analysis. Results Two patients from two apparently unrelated families shared a strikingly
similar phenotype characterised by KFA, myopathy, mild short stature, microcephaly, and
distinctive facies. They shared a single founder autozygous interval in which whole exome …
describe an apparently novel syndromic association with KFA. Methods Clinical
phenotyping of two consanguineous families followed by combined autozygome/exome
analysis. Results Two patients from two apparently unrelated families shared a strikingly
similar phenotype characterised by KFA, myopathy, mild short stature, microcephaly, and
distinctive facies. They shared a single founder autozygous interval in which whole exome …
Background
Klippel-Feil anomaly (KFA) can be seen in a number of syndromes. We describe an apparently novel syndromic association with KFA.
Methods
Clinical phenotyping of two consanguineous families followed by combined autozygome/exome analysis.
Results
Two patients from two apparently unrelated families shared a strikingly similar phenotype characterised by KFA, myopathy, mild short stature, microcephaly, and distinctive facies. They shared a single founder autozygous interval in which whole exome sequencing revealed a truncating mutation in MYO18B. There was virtually complete loss of the transcript in peripheral blood, indicative of nonsense-mediated decay. Electron microscopy of muscle confirms abnormal myosin filaments with accompanying myopathic changes.
Conclusions
Deficiency of MYO18B is linked to a novel developmental disorder which combines KFA with myopathy. This suggests a widespread developmental role for this gene in humans, as observed for its murine ortholog.
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