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Osteogenesis imperfecta (OI) is an inherited brittle bone disorder characterized by bone fragility and low bone mass. Loss of function mutations in FK506-binding protein 10 (FKBP10), encoding the FKBP65 protein, result in recessive OI and Bruck syndrome, of which the latter is additionally characterized by joint contractures. FKBP65 is thought to act as a collagen chaperone, but it is unknown how loss of FKBP65 affects collagen synthesis and extracellular matrix formation. We evaluated the developmental and postnatal expression of Fkbp10 and analyzed the consequences of its generalized loss of function. Fkbp10 is expressed at low levels in E13.5 mouse embryos, particularly in skeletal tissues, and steadily increases through E17.5 with expression in not only skeletal tissues, but also in visceral tissues. Postnatally, expression is limited to developing bone and ligaments. In contrast to humans, with complete loss of function mutations, Fkbp10(-/-) mice do not survive birth, and embryos present with growth delay and tissue fragility. Type I calvarial collagen isolated from these mice showed reduced stable crosslink formation at telopeptide lysines. Furthermore, Fkbp10(-/-) mouse embryonic fibroblasts show retention of procollagen in the cell layer and associated dilated endoplasmic reticulum. These data suggest a requirement for FKBP65 function during embryonic connective tissue development in mice, but the restricted expression postnatally in bone, ligaments and tendons correlates with the bone fragility and contracture phenotype in humans.

Original publication

DOI

10.1093/hmg/ddu197

Type

Journal article

Journal

Human molecular genetics

Publication Date

09/2014

Volume

23

Pages

4822 - 4831

Addresses

Department of Molecular and Human Genetics, Baylor College of Medicine, Houston, TX 77030, USA.

Keywords

Ligaments, Bone and Bones, Tendons, Connective Tissue, Animals, Mice, Inbred C57BL, Animals, Newborn, Humans, Mice, Osteogenesis Imperfecta, Disease Models, Animal, Tacrolimus Binding Proteins, Genes, Lethal, Embryo, Mammalian