Retinoid X receptors orchestrate osteoclast differentiation and postnatal bone remodeling
María P. Menéndez-Gutiérrez, Tamás Rőszer, Lucía Fuentes, Vanessa Núñez, Amelia Escolano, Juan Miguel Redondo, Nora De Clerck, Daniel Metzger, Annabel F. Valledor, Mercedes Ricote
María P. Menéndez-Gutiérrez, Tamás Rőszer, Lucía Fuentes, Vanessa Núñez, Amelia Escolano, Juan Miguel Redondo, Nora De Clerck, Daniel Metzger, Annabel F. Valledor, Mercedes Ricote
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Research Article Bone biology

Retinoid X receptors orchestrate osteoclast differentiation and postnatal bone remodeling

Abstract

Osteoclasts are bone-resorbing cells that are important for maintenance of bone remodeling and mineral homeostasis. Regulation of osteoclast differentiation and activity is important for the pathogenesis and treatment of diseases associated with bone loss. Here, we demonstrate that retinoid X receptors (RXRs) are key elements of the transcriptional program of differentiating osteoclasts. Loss of RXR function in hematopoietic cells resulted in formation of giant, nonresorbing osteoclasts and increased bone mass in male mice and protected female mice from bone loss following ovariectomy, which induces osteoporosis in WT females. The increase in bone mass associated with RXR deficiency was due to lack of expression of the RXR-dependent transcription factor v-maf musculoaponeurotic fibrosarcoma oncogene family, protein B (MAFB) in osteoclast progenitors. Evaluation of osteoclast progenitor cells revealed that RXR homodimers directly target and bind to the Mafb promoter, and this interaction is required for proper osteoclast proliferation, differentiation, and activity. Pharmacological activation of RXRs inhibited osteoclast differentiation due to the formation of RXR/liver X receptor (LXR) heterodimers, which induced expression of sterol regulatory element binding protein-1c (SREBP-1c), resulting in indirect MAFB upregulation. Our study reveals that RXR signaling mediates bone homeostasis and suggests that RXRs have potential as targets for the treatment of bone pathologies such as osteoporosis.

Authors

María P. Menéndez-Gutiérrez, Tamás Rőszer, Lucía Fuentes, Vanessa Núñez, Amelia Escolano, Juan Miguel Redondo, Nora De Clerck, Daniel Metzger, Annabel F. Valledor, Mercedes Ricote

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Figure 8

RXR/LXR induces Mafb transcription though SREBP-1c.

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RXR/LXR induces Mafb transcription though SREBP-1c. (A) Srebp1c mRNA exp...
(A) Srebp1c mRNA expression in WT and RXR-KO osteoclast progenitors treated with vehicle (C) or ligands for RXR (LG268) and LXR (T1317). *P < 0.01; **P < 0.001, compared with WT vehicle-treated cells (C). (B) SREBP-1c protein expression in nuclear extracts from osteoclast progenitors treated with vehicle or ligands for RXR (LG268) and LXR (T1317); SMC3 was used as loading control. (C) Luciferase reporter assay in RAW264.7 cells transfected with SREBP-1c or empty cDNA3.1 vector together with the indicated Mafb promoter or pGL3 control reporters; data are presented relative to values obtained with the vehicle-treated pGL3 reporter in the absence of SREBP-1c (cDNA3.1). Indicated fold inductions represent (SREBP-1c)/(cDNA3.1). **P < 0.01; ***P < 0.001, compared with reporter activity in the absence of SREBP-1c. (D) ChIP analysis of SREBP-1c binding to –1.5 kb (Mafb1), –1.0 kb (Mafb2), –0.4 kb (Mafb3), and transcription starting (Mafb4) regions of the Mafb promoter or to a negative control (Igkappa) in osteoclast progenitors. Lower panel, localization of SREBP-1c–binding sites in the Mafb promoter. Arrows indicate the position of primers used for ChIP; the experiment shown is representative of 3 done in triplicate. mRNA expression of Mafb (E) and Srebp1c (F) in osteoclast progenitors transfected with control siRNA (siControl) or Srebp1c siRNA (siSREBP-1c). Data are presented as mean ± SEM (n = 3 per group). *P < 0.01; **P < 0.001, by paired (A) or unpaired (C, E, and F) 2-tailed Student’s t tests.