黄粉虫幼虫乙醇提取物对rankl诱导的破骨细胞分化的抑制作用

M. Seo, Minhee Baek, H. Lee, Yong pyo Shin, Joon-Ha Lee, In-woo Kim, Mi-Ae Kim, Jae‐Sam Hwang
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引用次数: 2

摘要

骨吸收破骨细胞和成骨细胞之间的平衡是骨骼健康的关键。破骨细胞和成骨细胞之间的不平衡导致各种骨相关疾病,如骨质疏松症、骨软化症和骨质疏松症。然而,目前使用的骨吸收抑制剂药物可能会产生副作用。近年来,天然物质作为治疗骨骼健康的药物受到了广泛的关注。本实验旨在探讨黄粉虫幼虫乙醇提取物(TME)对核因子-κB配体受体激活剂(RANKL)诱导的破骨细胞分化的影响。为了检测TME对破骨细胞分化的影响,我们分别用RANKL治疗RAW264.7细胞5天。2 mg/ ml无细胞毒性的TME显著抑制了抗酒石酸酸性磷酸酶(TRAP)活性。此外,TME有效抑制了破骨细胞分化相关标记基因和蛋白的表达,如TRAP、NFATc1和c-Src。在rankl诱导的RAW264.7细胞中,TME还显著抑制p38丝裂原活化蛋白激酶(MAPK)信号通路,而不影响ERK和JNK信号通路。因此,我们得出结论,TME通过p38 MAPK信号通路抑制rankl诱导的破骨细胞基因表达,从而抑制破骨细胞分化。这些结果表明,TME及其生物活性成分是治疗骨质疏松症等骨相关疾病的潜在药物。
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Inhibitory Effects of Tenebrio molitor Larvae Ethanol Extract on RANKL-Induced Osteoclast Differentiation
The balance between bone-resorbing osteoclasts and bone-forming osteoblasts is key to bone health. An imbalance between osteoclasts and osteoblasts leads to various bone-related disorders, such as osteoporosis, osteomalacia, and osteopetrosis. However, the bone-resorption inhibitor drugs that are currently used may cause side effects. Natural substances have recently received much attention as therapeutic drugs for the treatment of bone health. This study was designed to determine the effect of Tenebrio molitor larvae ethanol extract (TME) on receptor activator of nuclear factor-κB ligand (RANKL)induced osteoclast differentiation. To measure the effect of TME on osteoclast differentiation, RAW264.7 cells were treated with RANKL with or without TME for 5 days. The tartrate-resistant acid phosphatase (TRAP) activity was significantly inhibited by treatment of TME without cytotoxicity up to 2 mg/ ml. In addition, TME effectively suppressed expression of osteoclast differentiation-related marker genes and proteins such as TRAP, NFATc1, and c-Src. TME also significantly inhibited the p38 mitogen-activated protein kinase (MAPK) signaling pathway without affecting ERK and JNK signaling in RANKL-induced RAW264.7 cells. Consequently, we conclude that TME suppresses osteoclast differentiation by inhibiting RANKL-induced osteoclastogenic genes expression through the p38 MAPK signaling pathways. These results suggest that TME and its bioactive components are potential therapeutics for bone-related diseases such as osteoporosis.
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