Abstract
Osteogenesis imperfecta (OI) is a rare genetic disorder demonstrating considerable phenotypic and genetic heterogeneity. The extensively studied genotype–phenotype correlation is a crucial issue for a reliable counseling, as the disease is recognized at increasingly earlier stages of life, including prenatal period. Based on population studies, clusters in COL1A1 and COL1A2 genes associated with the presence of glycine substitutions leading to fatal outcome have been distinguished and named as “lethal regions.” Their localization corresponds to the ligand-binding sites responsible for extracellular interactions of collagen molecules, which could explain high mortality associated with mutations mapping to these regions. Although a number of non-lethal cases have been identified from the variants located in lethal clusters, the mortality rate of mutations has not been updated. An next generation sequencing analysis, using a custom gene panel of known and candidate OI genes, was performed on a group of 166 OI patients and revealed seven individuals with a causative mutations located in the lethal regions. Patients’ age, ranging between 3 and 25 years, excluded the expected fatal outcome. The identification of non-lethal cases caused by mutations located in lethal domains prompted us to determine the actual mortality caused by glycine substitutions mapping to lethal clusters and evaluate the distribution of all lethal glycine mutations across collagen type I genes, based on records deposited in the OI Variant Database. Finally, we identified six glycine substitutions located in lethal regions of COL1A1 and COL1A2 genes, of which four are novel. The review of all mutations in the dedicated OI database, revealed 33 distinct glycine substitutions in two lethal domains of COL1A1, 26 of which have been associated with a fatal outcome. Similarly, 109 glycine substitutions have been identified in eight lethal clusters of COL1A2, of which 51 have been associated with a fatal manifestation. An analysis of all glycine substitutions leading to fatal phenotype, showed that their distribution along collagen type I genes is not regular, with 17% (26 out of 154) of mutations reported in COL1A1 and 64% (51 out of 80) in COL1A2 corresponding to localization of the lethal regions.
Highlights
Osteogenesis imperfecta (OI) is a rare connective tissue disorder with considerable clinical and genetic heterogeneity
Data analysis of the deposited records was performed to determine the actual mortality of glycine substitutions mapping to these special gene regions and to investigate distribution and characteristics of all amino acids substituting for glycine in the entire COL1A1 and COL1A2 genes
Lethal regions are special domains located in the collagen type I genes associated with the presence of glycine substitutions leading to the most severe, lethal form of OI
Summary
Osteogenesis imperfecta (OI) is a rare connective tissue disorder with considerable clinical and genetic heterogeneity. The most characteristic features of OI are multiple low-energy fractures, short stature, long bones and chest deformations, triangular-shaped face, blue sclera, abnormalities of the dentin (Dentinogenesis imperfecta, DI), hearing impairment, and joint hypermobility. Depending on clinical spectrum and severity, four basic OI types ranging from mild to perinatal lethal have been originally distinguished. They are all associated with mutations in the COL1A1 and COL1A2 genes. Type IV is a moderate form, with clinical features demonstrating severity between mild type I and progressively deforming type III (Cole and Dalgleish, 1995; Basel and Steiner, 2009).
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