4PBA reduces growth deficiency in osteogenesis imperfecta by enhancing transition of hypertrophic chondrocytes to osteoblasts
Amanda L. Scheiber, Kevin J. Wilkinson, Akiko Suzuki, Motomi Enomoto-Iwamoto, Takashi Kaito, Kathryn S.E. Cheah, Masahiro Iwamoto, Sergey Leikin, Satoru Otsuru
Amanda L. Scheiber, Kevin J. Wilkinson, Akiko Suzuki, Motomi Enomoto-Iwamoto, Takashi Kaito, Kathryn S.E. Cheah, Masahiro Iwamoto, Sergey Leikin, Satoru Otsuru
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Research Article Bone biology Cell biology

4PBA reduces growth deficiency in osteogenesis imperfecta by enhancing transition of hypertrophic chondrocytes to osteoblasts

Abstract

Short stature is a major skeletal phenotype in osteogenesis imperfecta (OI), a genetic disorder mainly caused by mutations in genes encoding type I collagen. However, the underlying mechanism is poorly understood, and no effective treatment is available. In OI mice that carry a G610C mutation in COL1A2, we previously found that mature hypertrophic chondrocytes (HCs) are exposed to cell stress due to accumulation of misfolded mutant type I procollagen in the endoplasmic reticulum (ER). By fate mapping analysis of HCs in G610C OI mice, we found that HCs stagnate in the growth plate, inhibiting translocation of HC descendants to the trabecular area and their differentiation to osteoblasts. Treatment with 4-phenylbutyric acid (4PBA), a chemical chaperone, restored HC ER structure and rescued this inhibition, resulting in enhanced longitudinal bone growth in G610C OI mice. Interestingly, the effects of 4PBA on ER dilation were limited in osteoblasts, and the bone fragility was not ameliorated. These results highlight the importance of targeting HCs to treat growth deficiency in OI. Our findings demonstrate that HC dysfunction induced by ER disruption plays a critical role in the pathogenesis of OI growth deficiency, which lays the foundation for developing new therapies for OI.

Authors

Amanda L. Scheiber, Kevin J. Wilkinson, Akiko Suzuki, Motomi Enomoto-Iwamoto, Takashi Kaito, Kathryn S.E. Cheah, Masahiro Iwamoto, Sergey Leikin, Satoru Otsuru

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Figure 6

4PBA treatment improves ER dilation in hypertrophic chondrocytes but to a lesser extent in osteoblasts.

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4PBA treatment improves ER dilation in hypertrophic chondrocytes but to ...
(A and B) Representative transmission electron microscopic (EM) images of endoplasmic reticulum (ER, red arrowheads) in late hypertrophic chondrocytes from the tibial growth plate (A) and in tibial trabecular osteoblasts (B) after daily injections of PBS or 0.4 mg 4PBA in PBS (same animals as in Figures 4 and 5). Histograms show treatment effects on the ER thickness. Bar charts (mean ± SEM) show fractions of severely dilated ER in each mouse (≥ 200 nm thickness in HCs, ≥ 150 nm thickness in osteoblasts). ER morphology was examined by EM in n = 5 WT + PBS, n = 5 G610C + PBS, and n = 5 G610C + 4PBA animals from each of the groups selected based on their size being close to the mean value. We utilized the 2-tailed Student’s t test rather than 1-way ANOVA because meaningful statistical comparison could be performed only between WT + PBS and G610C + PBS animals (genotype effect) or between G610C + PBS and G610C + 4PBA animals (treatment effect), but not between WT + PBS and G610C + 4PBA animals.