Molecular effects of calcium binding mutations in Marfan syndrome depend on domain context
Human Molecular Genetics
Mutations in the human fibrillin-1 (FBN-1) gene cause Marfan syndrome (MFS), an autosomal dominant disease of connective tissue. Fibrillin-1, a 350 kDa extracellular calcium binding protein, is a major structural component of 10-12 nm microfibrils and consists predominantly of two repeated module types: the calcium binding epidermal growth factorlike (cbEGF) domain and the transforming growth factor β1 binding protein-like (TB) domain. A group of reported FBN-1 mutations is predicted to reduce
... alcium binding to cbEGF domains by removal of a side chain ligand for calcium. These mutations occur in two protein domain contexts, either in a cbEGF preceded by a TB domain or in a cbEGF preceded by another cbEGF domain. In this study we have used three proteases to probe structural changes caused by an N2144S MFS calcium binding mutation in a TB6-cbEGF32 and a cbEGF32-33 domain pair, and an N2183S mutation in the cbEGF32-33 pair. Nterminal sequence analysis of domain pairs digested in the presence and absence of calcium show that: (i) domain interactions between TB6 and cbEGF32 are calcium independent, despite the presence of a calcium binding site in cbEGF32; (ii) domain interactions between cbEGF32 and cbEGF33 are calcium dependent; and (iii) an N→S mutation causes increased proteolytic susceptibility only when located in cbEGF33, consistent with a key role for interdomain calcium binding in rigidifying cbEGF domain linkages. These data demonstrate for the first time that the structural consequences of calcium binding mutations in fibrillin-1 cbEGF domains can be influenced by domain context.