Targeting adipocytic discoidin domain receptor 2 impedes fat gain while increasing bone mass.
Xiaoyu YangJing LiLiting ZhaoYazhuo ChenZhijun CuiTaotao XuXu LiShufang WuYan ZhangPublished in: Cell death and differentiation (2021)
Obesity is closely associated with low-bone-mass disorder. Discoidin domain receptor 2 (DDR2) plays essential roles in skeletal metabolism, and is probably involved in fat metabolism. To test the potential role of DDR2 in fat and fat-bone crosstalk, Ddr2 conditional knockout mice (Ddr2Adipo) were generated in which Ddr2 gene is exclusively deleted in adipocytes by Adipoq Cre. We found that Ddr2Adipo mice are protected from fat gain on high-fat diet, with significantly decreased adipocyte size. Ddr2Adipo mice exhibit significantly increased bone mass and mechanical properties, with enhanced osteoblastogenesis and osteoclastogenesis. Marrow adipocyte is diminished in the bone marrow of Ddr2Adipo mice, due to activation of lipolysis. Fatty acid in the bone marrow was reduced in Ddr2Adipo mice. RNA-Seq analysis identified adenylate cyclase 5 (Adcy5) as downstream molecule of Ddr2. Mechanically, adipocytic Ddr2 modulates Adcy5-cAMP-PKA signaling, and Ddr2 deficiency stimulates lipolysis and supplies fatty acid for oxidation in osteoblasts, leading to the enhanced osteoblast differentiation and bone mass. Treatment of Adcy5 specific inhibitor abolishes the increased bone mass gain in Ddr2Adipo mice. These observations establish, for the first time, that Ddr2 plays an essential role in the crosstalk between fat and bone. Targeting adipocytic Ddr2 may be a potential strategy for treating obesity and pathological bone loss simultaneously.
Keyphrases
- adipose tissue
- bone loss
- fatty acid
- high fat diet induced
- insulin resistance
- high fat diet
- bone mineral density
- bone marrow
- rna seq
- soft tissue
- bone regeneration
- type diabetes
- mesenchymal stem cells
- single cell
- body mass index
- nitric oxide
- dna methylation
- risk assessment
- copy number
- postmenopausal women
- physical activity
- cancer therapy
- human health
- replacement therapy
- wild type
- combination therapy
- genome wide analysis