Objective: To determine the clinical spectrum of limb-girdle muscular dystrophy 2E (LGMD2E) and to investigate whether genetic or biochemical features can predict the phenotype of the disease.Methods: All LGMD2E patients followed in participating centers were included. A specific clinical protocol was created, including quantitative evaluation of motor, respiratory, and cardiac function. Phenotype was defined as severe or mild if the age at loss of ambulation occurred before or after 18 years. Molecular analysis of SGCB gene and biochemical features of muscle biopsies were reviewed.Results: Thirty-two patients were included (16 male, 16 female; age 7-67 years; 15 severe, 12 mild, and 5 unknown). Neurologic examination showed proximal muscle weakness in all patients, but distal involvement was also observed in patients with severe disease early in the disease course. Cardiac involvement was observed in 20 patients (63%) even before overt muscle involvement. Six patients had restrictive respiratory insufficiency requiring assisted ventilation (19%). Seventeen different mutations were identified, and 3 were recurrent. The c.377_384dup (13 alleles) was associated with the severe form, the c.-22_10dup (10) with the milder form, and the c.341C.T (9) with both. The entire sarcoglycan complex was undetectable by muscle immunohistochemistry or Western blot in 9/10 severe cases and reduced in 7/7 mild cases. The residual amount of sarcoglycan in muscle resulted a predictor of age at loss of ambulation.Conclusions: This study expands the spectrum of phenotype in b-sarcoglycanopathy and provides strong evidence that severity of clinical involvement may be predicted by SGCB gene mutation and sarcoglycan protein expression. Sarcoglycanopathies are recessive limb-girdle muscular dystrophies (LGMDs) and represent 20%-25% of all LGMDs and 40%-65% of LGMD cases with infantile onset.1,2 Sarcoglycanopathies are caused by mutations in genes encoding 4 transmembrane glycoproteins, a-, b-, g-, and d-sarcoglycan, that form a tetrameric complex at the cell membrane of skeletal and cardiac muscle and play an important role in stabilizing the dystrophin-associated glycoprotein complex localized in the sarcolemma of muscle fibers. [3][4][5][6][7] Mutations in individual sarcoglycan genes are responsible for LGMD2C (g-sarcoglycan, SGCC gene q12 8 ), LGMD2D (a-sarcoglycan, SGCA 9,10 ), LGMD2E (b-sarcoglycan, SGCB 11,12 ), and LGMD2F (d-sarcoglycan, SGCD 13 ).LGMD2C and 2D are the most frequent and extensively studied of the 4 sarcoglycanopathies, with a clinical phenotype characterized by progressive skeletal muscle weakness ranging from a severe Duchenne-like dystrophy to a *These authors contributed equally to this work.
