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作 者:Robert Brommage Jeff Liu David R.Powell
机构地区:[1]Department of Metabolism Research,Lexicon Pharmaceuticals,The Woodlands,TX,77381,USA
出 处:《Bone Research》2023年第1期193-200,共8页骨研究(英文版)
基 金:supported by Lexicon Pharmaceuticals。
摘 要:Mutations in SFRP4 cause Pyle’s bone disease with wide metaphyses and increased skeletal fragility.The WNT signaling pathway plays important roles in determining skeletal architecture and SFRP4 is a secreted Frizzled decoy receptor that inhibits WNT signaling.Seven cohorts of male and female Sfrp4 gene knockout mice,examined through 2 years of age,had a normal lifespan but showed cortical and trabecular bone phenotypes.Mimicking human Erlenmeyer flask deformities,bone cross-sectional areas were elevated 2-fold in the distal femur and proximal tibia but only 30%in femur and tibia shafts.Reduced cortical bone thickness was observed in the vertebral body,midshaft femur and distal tibia.Elevated trabecular bone mass and numbers were observed in the vertebral body,distal femur metaphysis and proximal tibia metaphysis.Midshaft femurs retained extensive trabecular bone through 2 years of age.Vertebral bodies had increased compressive strength,but femur shafts had reduced bending strength.Trabecular,but not cortical,bone parameters in heterozygous Sfrp4mice were modestly affected.Ovariectomy resulted in similar declines in both cortical and trabecular bone mass in wild-type and Sfrp4 KO mice.SFRP4 is critical for metaphyseal bone modeling involved in determining bone width.Sfrp4 KO mice show similar skeletal architecture and bone fragility deficits observed in patients with Pyle’s disease with SFRP4 mutations.
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