Abstract
Osteogenesis imperfecta (OI) is a hereditary disease occurring in humans and dogs. It is characterized by extremely fragile bones and teeth. Most human and some canine OI cases are caused by mutations in the COL1A1 and COL1A2 genes encoding the subunits of collagen I. Recently, mutations in the CRTAP and LEPRE1 genes were found to cause some rare forms of human OI. Many OI cases exist where the causative mutation has not yet been found. We investigated Dachshunds with an autosomal recessive form of OI. Genotyping only five affected dogs on the 50 k canine SNP chip allowed us to localize the causative mutation to a 5.82 Mb interval on chromosome 21 by homozygosity mapping. Haplotype analysis of five additional carriers narrowed the interval further down to 4.74 Mb. The SERPINH1 gene is located within this interval and encodes an essential chaperone involved in the correct folding of the collagen triple helix. Therefore, we considered SERPINH1 a positional and functional candidate gene and performed mutation analysis in affected and control Dachshunds. A missense mutation (c.977C>T, p.L326P) located in an evolutionary conserved domain was perfectly associated with the OI phenotype. We thus have identified a candidate causative mutation for OI in Dachshunds and identified a fifth OI gene.
Highlights
Collagen I is the most abundant protein in the human body and its highly ordered fibril structure is responsible for its special mechanical properties
Osteogenesis imperfecta (OI) is a genetic condition of humans and dogs characterized by extremely fragile bones and teeth
Most human OI cases are caused by defects in one of two collagen genes
Summary
Collagen I is the most abundant protein in the human body and its highly ordered fibril structure is responsible for its special mechanical properties. Defects in the structure of the highly ordered collagen I triple helix lead to osteogenesis imperfecta (OI), a disease characterized by extremely fragile bones and teeth. 85–90% of the human OI cases are caused by mutations in the COL1A1 or COL1A2 genes encoding the two different subunits of collagen I. Mutations in two of these accessory proteins were found in patients with autosomal recessive forms of OI [3,4,5,6,7]. Both of these proteins are involved in the 3-hydroxylation of a specific proline residue in collagen I. For some human OI cases the underlying mutation has not yet been found
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