Localization of the mutation responsible for osteopetrosis in the op rat to a 1.5-cM genetic interval on rat chromosome 10: identification of positional candidate genes by radiation hybrid mapping.

Osteopetrosis is caused by a heterogenous group of bone diseases that result in an increase in skeletal mass because of inadequate osteoclastic bone resorption. In the op osteopetrotic rat, the disease has been linked to a single genetic locus located at the proximal end of rat chromosome 10. In this study, we identified a 1.5-cM genetic interval that contains the mutation. We then generated an improved radiation hybrid (RH) map of this region to identify potential functional and positional candidates for the op gene. Using the rat genome radiation hybrid panel, we mapped 57 markers including 24 genes (14 that have not yet been mapped in the rat) and 10 expressed sequence tag markers. Included in the mapped genes are several candidate genes that might significantly influence the biochemical pathways involved in osteopetrosis. These include genes involved in osteoclast differentiation, apoptosis, and the functional capabilities of mature osteoclasts to resorb bone. Further analysis of the genes and expressed transcripts mapped to this region may yield important insights into the multifactorial control of osteoclast function and the mechanisms of failed bone homeostasis in diseases such as osteopetrosis, osteoporosis, and rheumatoid arthritis in which failed bone homeostasis is an instigating or exacerbating circumstance of the disease process.