JAK2-IGF1 axis in osteoclasts regulates postnatal growth in mice
David W. Dodington, … , Wendy E. Ward, Minna Woo
David W. Dodington, … , Wendy E. Ward, Minna Woo
Published March 8, 2021
Citation Information: JCI Insight. 2021;6(5):e137045. https://doi.org/10.1172/jci.insight.137045.
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Research Article Bone biology Endocrinology

JAK2-IGF1 axis in osteoclasts regulates postnatal growth in mice

Abstract

Osteoclasts are specialized cells of the hematopoietic lineage that are responsible for bone resorption and play a critical role in musculoskeletal disease. JAK2 is a key mediator of cytokine and growth factor signaling; however, its role in osteoclasts in vivo has yet to be investigated. To elucidate the role of JAK2 in osteoclasts, we generated an osteoclast-specific JAK2–KO (Oc-JAK2–KO) mouse using the Cre/Lox-P system. Oc-JAK2–KO mice demonstrated marked postnatal growth restriction; however, this was not associated with significant changes in bone density, microarchitecture, or strength, indicating that the observed phenotype was not due to alterations in canonical osteoclast function. Interestingly, Oc-JAK2–KO mice had reduced osteoclast-specific expression of IGF1, suggesting a role for osteoclast-derived IGF1 in determination of body size. To directly assess the role of osteoclast-derived IGF1, we generated an osteoclast-specific IGF1–KO mouse, which showed a similar growth-restricted phenotype. Lastly, overexpression of circulating IGF1 by human transgene rescued the growth defects in Oc-JAK2–KO mice, in keeping with a causal role of IGF1 in these models. Together, our data show a potentially novel role for Oc-JAK2 and IGF1 in the determination of body size, which is independent of osteoclast resorptive function.

Authors

David W. Dodington, Jenalyn L. Yumol, Jiaqi Yang, Evan Pollock-Tahiri, Tharini Sivasubramaniyam, Sandra M. Sacco, Stephanie A. Schroer, Yujin E. Li, Helen Le, Wendy E. Ward, Minna Woo

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Figure 6

Reduced size of the hypertrophic growth plate zone in Ctsk-Cre+Jak2fl/fl mice.

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Reduced size of the hypertrophic growth plate zone in Ctsk-Cre+Jak2fl/fl...
(A) Representative images of tartrate-resistant alkaline phosphatase–stained (TRAP-stained) sections of distal femurs (left) and quantification of osteoclast number per millimeter of bone perimeter (right) in control (n = 7) and Ctsk-Cre+Jak2fl/fl mice (n = 7). Scale bar: 50 μm. (B) mRNA expression of calcitonin receptor (Calcr), tartrate-resistant acid phosphatase type 5 (Acp5), cathepsin-k (Ctsk), osteoclast-associated receptor (Oscar), integrin β 3 (Itgb3), matrix metalloproteinase 9 (Mmp9), C-terminal Src kinase (Csk), and nuclear factor of activated t cells 1 (Nfatc1) in bone from control (n = 7) and Ctsk-Cre+Jak2fl/fl mice (n = 4). Values are normalized to 18S mRNA levels and presented as fold change over control group. (C) Representative images of Safranin O–stained sections of tibia growth plates from 2- and 8-week-old control [n = 5 (2 weeks), n = 5 (8 weeks)] and Ctsk-Cre+Jak2fl/fl [n = 5 (2 weeks), n = 4 (8 weeks)] mice. ZP, zone of proliferation; ZH, zone of hypertrophy; ZO, zone of ossification; growth plate = ZP + ZH). Scale bars: 100 μm. (D) Quantification of tibia growth plate length relative to total bone length in 2-week-old male and female control (n = 5) and Ctsk-Cre+Jak2fl/fl (n = 5) mice. (E) Quantification of tibia growth plate length relative to total bone length in 8-week-old male and female control (n = 5) and Ctsk-Cre+Jak2fl/fl (n = 4) mice. Data represent mean ± SEM. Differences between groups were analyzed for statistical significance by Student’s unpaired t test; *P < 0.05.