body size without altering the balance between bone formation and bone resorption. Interestingly, loss of JAK2 impaired expression of IGF1 in osteoclasts, suggesting an important role for osteoclast-derived IGF1 in determination of body size. We also show that overexpression of circulating IGF1 in Oc-JAK2-KO mice rescued their growth defects, supporting a causal role between JAK2-mediated IGF1 expression in osteoclasts and postnatal growth. Results Generation of Oc-JAK2-KO mice. To validate the osteoclast specificity of the Cathepsin K-Cre (Ctsk-Cre) mouse, we bred Ctsk-Cre + mice to mTmG +/reporter mice whose tissue expressed either fluorescence TdTomato in the absence of Cre-mediated recombination or enhanced GFP (EGFP) in its presence. Sections of the knee joint showed robust expression of EGFP along the surface of the trabecular bone in Ctsk-Cre + mT-mG + mice (Figure 1A). Staining for tartrate resistant alkaline phosphatase (TRAP) on the adjacent serial section confirmed that EGFP was present in the expected distribution for osteoclasts. EGFP was not detected in Crecontrols. Sections of other tissues, including growth plate cartilage, brain, hypothalamus, testis, ovary, pancreas, liver, small intestine, kidney, and thyroid did not express EGFP (Figure 1B). Next, to generate Oc-JAK2-KO mice, Ctsk-Cre + mice were bred to Jak2 floxed mice (Jak2 fl/fl) and resultant Ctsk-Cre +-Jak2 fl/+ mice were crossed to Jak2 fl/fl mice to generate KO mice (Ctsk-Cre + Jak2 fl/fl) and littermate control mice (Jak2 fl/fl and Ctsk-Cre + Jak2 fl/+). To validate osteoclast-specific deficiency of JAK2 in our Oc-JAK2-KO mouse, we measured Jak2 mRNA levels in tissues and in BM-derived osteoclasts from Ctsk-Cre + Jak2 fl/fl and Jak fl/fl mice. JAK2 mRNA expression was reduced by 26% in bone and by 70% in osteoclast cultures from Ctsk-Cre + Jak2 fl/fl mice (Figure 1C). Importantly, Jak2 mRNA expression was unchanged in BM-derived macrophages, liver, testis, ovary, or hypothalamus. There have been previous reports of Ctsk-Cre mediating germline gene deletion of certain floxed alleles (12); however, this did not occur in Ctsk-Cre + Jak2 fl/fl mice, since Jak2 expression was preserved in nonosteoclast cells and tissues. Lastly, we performed IHC for JAK2 on femur sections with TRAP staining on the adjacent serial section to identify TRAP + multinucleated giant cells. In control mice, there was weak to moderate immunostaining for JAK2 in TRAP + multinucleated giant cells (Figure 1D). In Ctsk-Cre + Jak2 fl/fl mice, immunoreactivity for JAK2 was absent in TRAP + multinucleated giant cells, with retained expression in other BM cells. Overall, these results indicate that Ctsk-Cre + Jak2 fl/fl mice represent a rigorous experimental model to study the role of osteoclast JAK2 in vivo. For all experiments, both Jak2 fl/fl and Ctsk-Cre + Jak2 fl/+ mice were used as controls in approximately equal proportions unless otherwise specified. There were no significant differences in any measured outcomes between Jak2 fl/fl and Ctsk-Cre + Jak2 fl/+ mice, in...
