OBJECTIVES: To describe 3 patients with the cblD disorder, a rare inborn error of cobalamin metabolism caused by mutations in the MMADHC gene that can result in isolated homocystinuria, isolated methylmalonic aciduria, or combined homocystinuria and methylmalonic aciduria. STUDY DESIGN: Patient clinical records were reviewed. Biochemical and somatic cell genetic studies were performed on cultured fibroblasts. Sequence analysis of the MMADHC gene was performed on patient DNA. RESULTS: Patient 1 presented with isolated methylmalonic aciduria, patient 3 with isolated homocystinuria, and patient 2 with combined methylmalonic aciduria and homocystinuria. Studies of cultured fibroblasts confirmed decreased synthesis of adenosylcobalamin in patient 1, decreased synthesis of methylcobalamin in patient 3, and decreased synthesis of both cobalamin derivatives in patient 2. The diagnosis of cblD was established in each patient by complementation analysis. Mutations in the MMADHC gene were identified in all patients. CONCLUSIONS: The results emphasize the heterogeneous clinical, cellular and molecular phenotype of the cblD disorder. The results of molecular analysis of the MMADHC gene are consistent with the hypothesis that mutations affecting the N terminus of the MMADHC protein are associated with methylmalonic aciduria, and mutations affecting the C terminus are associated with homocystinuria.
OBJECTIVES: To describe 3 patients with the cblD disorder, a rare inborn error of cobalamin metabolism caused by mutations in the MMADHC gene that can result in isolated homocystinuria, isolated methylmalonic aciduria, or combined homocystinuria and methylmalonic aciduria. STUDY DESIGN:Patient clinical records were reviewed. Biochemical and somatic cell genetic studies were performed on cultured fibroblasts. Sequence analysis of the MMADHC gene was performed on patient DNA. RESULTS:Patient 1 presented with isolated methylmalonic aciduria, patient 3 with isolated homocystinuria, and patient 2 with combined methylmalonic aciduria and homocystinuria. Studies of cultured fibroblasts confirmed decreased synthesis of adenosylcobalamin in patient 1, decreased synthesis of methylcobalamin in patient 3, and decreased synthesis of both cobalamin derivatives in patient 2. The diagnosis of cblD was established in each patient by complementation analysis. Mutations in the MMADHC gene were identified in all patients. CONCLUSIONS: The results emphasize the heterogeneous clinical, cellular and molecular phenotype of the cblD disorder. The results of molecular analysis of the MMADHC gene are consistent with the hypothesis that mutations affecting the N terminus of the MMADHC protein are associated with methylmalonic aciduria, and mutations affecting the C terminus are associated with homocystinuria.
Authors: Carmen Gherasim; Luciana Hannibal; Deepa Rajagopalan; Donald W Jacobsen; Ruma Banerjee Journal: Biochimie Date: 2013-02-14 Impact factor: 4.079
Authors: R Parini; F Furlan; A Brambilla; D Codazzi; S Vedovati; C Corbetta; T Fedeli; B Merinero; B Pérez; M Ugarte Journal: JIMD Rep Date: 2013-05-19
Authors: David Coelho; Jaeseung C Kim; Isabelle R Miousse; Stephen Fung; Marcel du Moulin; Insa Buers; Terttu Suormala; Patricie Burda; Michele Frapolli; Martin Stucki; Peter Nürnberg; Holger Thiele; Horst Robenek; Wolfgang Höhne; Nicola Longo; Marzia Pasquali; Eugen Mengel; David Watkins; Eric A Shoubridge; Jacek Majewski; David S Rosenblatt; Brian Fowler; Frank Rutsch; Matthias R Baumgartner Journal: Nat Genet Date: 2012-08-26 Impact factor: 38.330