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HTLV-1 viral oncogene HBZ drives bone destruction in adult T cell leukemia
Jingyu Xiang, Daniel A. Rauch, Devra D. Huey, Amanda R. Panfil, Xiaogang Cheng, Alison K. Esser, Xinming Su, John C. Harding, Yalin Xu, Gregory C. Fox, Francesca Fontana, Takayuki Kobayashi, Junyi Su, Hemalatha Sundaramoorthi, Wing Hing Wong, Yizhen Jia, Thomas J. Rosol, Deborah J. Veis, Patrick L. Green, Stefan Niewiesk, Lee Ratner, Katherine N. Weilbaecher
Jingyu Xiang, Daniel A. Rauch, Devra D. Huey, Amanda R. Panfil, Xiaogang Cheng, Alison K. Esser, Xinming Su, John C. Harding, Yalin Xu, Gregory C. Fox, Francesca Fontana, Takayuki Kobayashi, Junyi Su, Hemalatha Sundaramoorthi, Wing Hing Wong, Yizhen Jia, Thomas J. Rosol, Deborah J. Veis, Patrick L. Green, Stefan Niewiesk, Lee Ratner, Katherine N. Weilbaecher
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Research Article Bone biology Oncology

HTLV-1 viral oncogene HBZ drives bone destruction in adult T cell leukemia

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Abstract

Osteolytic bone lesions and hypercalcemia are common, serious complications in adult T cell leukemia/lymphoma (ATL), an aggressive T cell malignancy associated with human T cell leukemia virus type 1 (HTLV-1) infection. The HTLV-1 viral oncogene HBZ has been implicated in ATL tumorigenesis and bone loss. In this study, we evaluated the role of HBZ on ATL-associated bone destruction using HTLV-1 infection and disease progression mouse models. Humanized mice infected with HTLV-1 developed lymphoproliferative disease and continuous, progressive osteolytic bone lesions. HTLV-1 lacking HBZ displayed only modest delays to lymphoproliferative disease but significantly decreased disease-associated bone loss compared with HTLV-1–infected mice. Gene expression array of acute ATL patient samples demonstrated increased expression of RANKL, a critical regulator of osteoclasts. We found that HBZ regulated RANKL in a c-Fos–dependent manner. Treatment of HTLV-1–infected humanized mice with denosumab, a monoclonal antibody against human RANKL, alleviated bone loss. Using patient-derived xenografts from primary human ATL cells to induce lymphoproliferative disease, we also observed profound tumor-induced bone destruction and increased c-Fos and RANKL gene expression. Together, these data show the critical role of HBZ in driving ATL-associated bone loss through RANKL and identify denosumab as a potential treatment to prevent bone complications in ATL patients.

Authors

Jingyu Xiang, Daniel A. Rauch, Devra D. Huey, Amanda R. Panfil, Xiaogang Cheng, Alison K. Esser, Xinming Su, John C. Harding, Yalin Xu, Gregory C. Fox, Francesca Fontana, Takayuki Kobayashi, Junyi Su, Hemalatha Sundaramoorthi, Wing Hing Wong, Yizhen Jia, Thomas J. Rosol, Deborah J. Veis, Patrick L. Green, Stefan Niewiesk, Lee Ratner, Katherine N. Weilbaecher

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Figure 2

Deletion of HBZ partially rescues tumor-associated bone loss in HTLV-1–infected humanized mice.

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Deletion of HBZ partially rescues tumor-associated bone loss in HTLV-1–i...
(A and B) μCT analysis for calculation of trabecular bone to tissue volume ratio (BV/TV) and bone mineral density (BMD) in humanized mice infected with HTLV-1 and HTLV-1 ΔHBZ viruses 1 week, 3 weeks, and 5 weeks after infection (n = 4–6 bones per group). Error bars represent ± SEM. *P < 0.05; **P < 0.01; ***P < 0.001 (2-way ANOVA). (C) Representative 3-D reconstruction images of tibial trabecular bone in humanized mice infected with HTLV-1 and HTLV-1 ΔHBZ viruses 1, 3, and 5 weeks after infection. (D) Scatter plots of the correlation (as indicated by linear best fit curve) between trabecular bone density (as measured by either BV/TV or BMD) on the y axis vs. percentage of human CD4+ T cells in the peripheral blood of humanized mice infected with HTLV-1 and HTLV-1 ΔHBZ 3 weeks after infection (n = 6–8 bones per group). R value and P value (Pearson correlation coefficient test was adopted to determine statistically significant correlation between the 2 groups) is shown; ns, P > 0.05.

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