OBJECTIVE: Mutations in COL6A1, COL6A2, and COL6A3, the genes that encode the extracellular matrix component collagen VI, lead to Bethlem myopathy (BM) and Ullrich congenital muscular dystrophy (UCMD). Unlike UCMD, BM is difficult to diagnose because of its clinical overlap with other contractural phenotypes and the lack of sensitivity of standard muscle biopsy immunohistochemical diagnostic techniques. METHODS: We appraised two potential techniques for the diagnosis of BM: dual immunofluorescence (IF) for collagen VI and basal lamina-located perlecan in muscle, and immunofluorescent labeling of collagen VI in skin biopsy-derived fibroblast cultures, which was conducted in 40 patients by blinded investigators and correlated with genetic findings. RESULTS: Dual IF was indistinguishable from normal controls in most BM patients. However, abnormalities in the IF labeling pattern of collagen VI were detected in more than 78% of genetically confirmed BM patient fibroblast cell lines. In addition, in a group of patients with unknown diagnosis studied prospectively, the fibroblast IF technique was highly predictive of the presence of a COL6A mutation, providing a positive predictive value of 75%, a sensitivity and negative predictive value of 100%, and a specificity of 63%. CONCLUSIONS: Immunofluorescent labeling of collagen VI in fibroblast cultures is a useful addition to current diagnostic services for Bethlem myopathy (BM). It can be used to guide molecular genetic testing, the gold standard diagnostic technique for BM, in a cost-effective and time-saving manner.
OBJECTIVE: Mutations in COL6A1, COL6A2, and COL6A3, the genes that encode the extracellular matrix component collagen VI, lead to Bethlem myopathy (BM) and Ullrich congenital muscular dystrophy (UCMD). Unlike UCMD, BM is difficult to diagnose because of its clinical overlap with other contractural phenotypes and the lack of sensitivity of standard muscle biopsy immunohistochemical diagnostic techniques. METHODS: We appraised two potential techniques for the diagnosis of BM: dual immunofluorescence (IF) for collagen VI and basal lamina-located perlecan in muscle, and immunofluorescent labeling of collagen VI in skin biopsy-derived fibroblast cultures, which was conducted in 40 patients by blinded investigators and correlated with genetic findings. RESULTS: Dual IF was indistinguishable from normal controls in most BM patients. However, abnormalities in the IF labeling pattern of collagen VI were detected in more than 78% of genetically confirmed BM patient fibroblast cell lines. In addition, in a group of patients with unknown diagnosis studied prospectively, the fibroblast IF technique was highly predictive of the presence of a COL6A mutation, providing a positive predictive value of 75%, a sensitivity and negative predictive value of 100%, and a specificity of 63%. CONCLUSIONS: Immunofluorescent labeling of collagen VI in fibroblast cultures is a useful addition to current diagnostic services for Bethlem myopathy (BM). It can be used to guide molecular genetic testing, the gold standard diagnostic technique for BM, in a cost-effective and time-saving manner.
Authors: Rishika A Pace; Rachel A Peat; Naomi L Baker; Laura Zamurs; Matthias Mörgelin; Melita Irving; Naomi E Adams; John F Bateman; David Mowat; Nicholas J C Smith; Phillipa J Lamont; Steven A Moore; Katherine D Mathews; Kathryn N North; Shireen R Lamandé Journal: Ann Neurol Date: 2008-09 Impact factor: 10.422
Authors: A Reghan Foley; Ying Hu; Yaqun Zou; Alexandra Columbus; John Shoffner; Diane M Dunn; Robert B Weiss; Carsten G Bönnemann Journal: Neuromuscul Disord Date: 2009-11-01 Impact factor: 4.296
Authors: Russell J Butterfield; A Reghan Foley; Jahannaz Dastgir; Stephanie Asman; Diane M Dunn; Yaqun Zou; Ying Hu; Sandra Donkervoort; Kevin M Flanigan; Kathryn J Swoboda; Thomas L Winder; Robert B Weiss; Carsten G Bönnemann Journal: Hum Mutat Date: 2013-11 Impact factor: 4.878
Authors: J Kim; C Jimenez-Mallebrera; A R Foley; M Fernandez-Fuente; S C Brown; S Torelli; L Feng; C A Sewry; F Muntoni Journal: Neuromuscul Disord Date: 2011-11-08 Impact factor: 4.296