Effect of sclerostin inactivation in a mouse model of severe dominant osteogenesis imperfecta

Osteogenesis imperfecta (OI) is a rare bone disease that is associated with fractures and low bone mass. Sclerostin inhibition is being evaluated as a potential approach to increase bone mass in OI. We had previously found that in Col1a1 Jrt/+ mice, a model of severe OI, treatment with an anti-sclerostin antibody had a minor effect on the skeletal phenotype. In the present study, we assessed the effect of genetic sclerostin inactivation in the Col1a1 Jrt/+ mouse. We crossed Col1a1 Jrt/+ mice with Sost knockout mice to generate Sost -deficient Col1a1 Jrt/+ mice and assessed differences between Col1a1 Jrt/+ mice with homozygous Sost deficiency and Col1a1 Jrt/+ mice with heterozygous Sost deficiency. We found that Col1a1 Jrt/+ mice with homozygous Sost deficiency had higher body mass, femur length, trabecular bone volume, cortical thickness and periosteal diameter as well as increased biomechanical parameters of bone strength. Differences between genotypes were larger at the age of 14 weeks than at 8 weeks of age. Transcriptome analysis of RNA extracted from the tibial diaphysis revealed only 5 differentially regulated genes. Thus, genetic inactivation of Sost increased bone mass and strength in the Col1a1 Jrt/+ mouse. It appears from these observations that the degree of Sost suppression that is required for eliciting a beneficial response can vary with the genetic cause of OI.