New mechanistic understanding of osteoclast differentiation and bone resorption mediated by P2X7 receptors and PI3K-Akt-GSK3β signaling.

IF 9.2 1区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Cellular & Molecular Biology Letters Pub Date : 2024-07-08 DOI:10.1186/s11658-024-00614-5
Jiajia Lu, Xiaojian Shi, Qiang Fu, Yaguang Han, Lei Zhu, Zhibin Zhou, Yongchuan Li, Nan Lu
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Metabolite analysis was performed using liquid chromatography-tandem mass spectrometry (LC-MS/MS), and multivariate statistical analysis and pattern recognition were used to identify differential lipid metabolism markers and their distribution. Bioinformatics analyses were conducted using the Encyclopedia of Genes and Genomes database and the MetaboAnalyst database to assess potential biomarkers and create a metabolic pathway map. Osteoclast precursor cells were used for in vitro cell experiments, evaluating cell viability and proliferation using the Cell Counting Kit 8 (CCK-8) assay. Osteoclast precursor cells were induced to differentiate into osteoclasts using macrophage colony-stimulating factor (M-CSF) and receptor activator of nuclear factor kappa-beta ligand (RANKL), and tartrate-resistant acid phosphatase (TRAP) staining was performed to compare differentiation morphology, size, and quantity between different groups. Western blot analysis was used to assess the expression of differentiation markers, fusion gene markers, and bone resorption ability markers in osteoclasts. Immunofluorescence staining was employed to examine the spatial distribution and quantity of osteoclast cell skeletons, P2X7 protein, and cell nuclei, while pit assay was used to evaluate osteoclast bone resorption ability. Finally, in vivo animal experiments, including micro computed tomography (micro-CT), hematoxylin and eosin (HE) staining, TRAP staining, and immunohistochemistry, were conducted to observe bone tissue morphology, osteoclast differentiation, and the phosphorylation level of the PI3K-Akt-GSK3β signaling pathway.</p><p><strong>Results: </strong>Transcriptomic and metabolomic data collectively reveal that the P2X7 receptor can impact the pathogenesis of osteoporosis through the PI3K-Akt-GSK3β signaling pathway. Subsequent in vitro experiments showed that cells in the Sh-P2X7 + Recilisib group exhibited increased proliferative activity (1.15 versus 0.59), higher absorbance levels (0.68 versus 0.34), and a significant increase in resorption pit area (13.94 versus 3.50). Expression levels of osteoclast differentiation-related proteins MMP-9, CK, and NFATc1 were markedly elevated (MMP-9: 1.72 versus 0.96; CK: 2.54 versus 0.95; NFATc1: 3.05 versus 0.95), along with increased fluorescent intensity of F-actin rings. In contrast, the OE-P2X7 + LY294002 group showed decreased proliferative activity (0.64 versus 1.29), reduced absorbance (0.34 versus 0.82), and a significant decrease in resorption pit area (5.01 versus 14.96), accompanied by weakened expression of MMP-9, CK, and NFATc1 (MMP-9: 1.14 versus 1.79; CK: 1.26 versus 2.75; NFATc1: 1.17 versus 2.90) and decreased F-actin fluorescent intensity. 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引用次数: 0

Abstract

Objective: Osteoporosis is a global health issue characterized by decreased bone mass and microstructural degradation, leading to an increased risk of fractures. This study aims to explore the molecular mechanism by which P2X7 receptors influence osteoclast formation and bone resorption through the PI3K-Akt-GSK3β signaling pathway.

Methods: An osteoporosis mouse model was generated through ovariectomy (OVX) in normal C57BL/6 and P2X7f/f; LysM-cre mice. Osteoclasts were isolated for transcriptomic analysis, and differentially expressed genes were selected for functional enrichment analysis. Metabolite analysis was performed using liquid chromatography-tandem mass spectrometry (LC-MS/MS), and multivariate statistical analysis and pattern recognition were used to identify differential lipid metabolism markers and their distribution. Bioinformatics analyses were conducted using the Encyclopedia of Genes and Genomes database and the MetaboAnalyst database to assess potential biomarkers and create a metabolic pathway map. Osteoclast precursor cells were used for in vitro cell experiments, evaluating cell viability and proliferation using the Cell Counting Kit 8 (CCK-8) assay. Osteoclast precursor cells were induced to differentiate into osteoclasts using macrophage colony-stimulating factor (M-CSF) and receptor activator of nuclear factor kappa-beta ligand (RANKL), and tartrate-resistant acid phosphatase (TRAP) staining was performed to compare differentiation morphology, size, and quantity between different groups. Western blot analysis was used to assess the expression of differentiation markers, fusion gene markers, and bone resorption ability markers in osteoclasts. Immunofluorescence staining was employed to examine the spatial distribution and quantity of osteoclast cell skeletons, P2X7 protein, and cell nuclei, while pit assay was used to evaluate osteoclast bone resorption ability. Finally, in vivo animal experiments, including micro computed tomography (micro-CT), hematoxylin and eosin (HE) staining, TRAP staining, and immunohistochemistry, were conducted to observe bone tissue morphology, osteoclast differentiation, and the phosphorylation level of the PI3K-Akt-GSK3β signaling pathway.

Results: Transcriptomic and metabolomic data collectively reveal that the P2X7 receptor can impact the pathogenesis of osteoporosis through the PI3K-Akt-GSK3β signaling pathway. Subsequent in vitro experiments showed that cells in the Sh-P2X7 + Recilisib group exhibited increased proliferative activity (1.15 versus 0.59), higher absorbance levels (0.68 versus 0.34), and a significant increase in resorption pit area (13.94 versus 3.50). Expression levels of osteoclast differentiation-related proteins MMP-9, CK, and NFATc1 were markedly elevated (MMP-9: 1.72 versus 0.96; CK: 2.54 versus 0.95; NFATc1: 3.05 versus 0.95), along with increased fluorescent intensity of F-actin rings. In contrast, the OE-P2X7 + LY294002 group showed decreased proliferative activity (0.64 versus 1.29), reduced absorbance (0.34 versus 0.82), and a significant decrease in resorption pit area (5.01 versus 14.96), accompanied by weakened expression of MMP-9, CK, and NFATc1 (MMP-9: 1.14 versus 1.79; CK: 1.26 versus 2.75; NFATc1: 1.17 versus 2.90) and decreased F-actin fluorescent intensity. Furthermore, in vivo animal experiments demonstrated that compared with the wild type (WT) + Sham group, mice in the WT + OVX group exhibited significantly increased levels of CTX and NTX in serum (CTX: 587.17 versus 129.33; NTX: 386.00 versus 98.83), a notable decrease in calcium deposition (19.67 versus 53.83), significant reduction in bone density, increased trabecular separation, and lowered bone mineral density (BMD). When compared with the KO + OVX group, mice in the KO + OVX + recilisib group showed a substantial increase in CTX and NTX levels in serum (CTX: 503.50 versus 209.83; NTX: 339.83 versus 127.00), further reduction in calcium deposition (29.67 versus 45.33), as well as decreased bone density, increased trabecular separation, and reduced BMD.

Conclusion: P2X7 receptors positively regulate osteoclast formation and bone resorption by activating the PI3K-Akt-GSK3β signaling pathway.

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对 P2X7 受体和 PI3K-Akt-GSK3β 信号介导的破骨细胞分化和骨吸收的新机理认识。
目的:骨质疏松症是一个全球性的健康问题,其特点是骨量减少和微结构退化,从而导致骨折风险增加。本研究旨在探索 P2X7 受体通过 PI3K-Akt-GSK3β 信号通路影响破骨细胞形成和骨吸收的分子机制:方法:通过对正常C57BL/6和P2X7f/f; LysM-cre小鼠进行卵巢切除术(OVX),建立骨质疏松症小鼠模型。分离破骨细胞进行转录组分析,选择差异表达基因进行功能富集分析。代谢物分析采用液相色谱-串联质谱法(LC-MS/MS)进行,多变量统计分析和模式识别用于识别不同的脂质代谢标记及其分布。利用基因和基因组百科全书数据库和 MetaboAnalyst 数据库进行了生物信息学分析,以评估潜在的生物标记物并绘制代谢途径图。破骨细胞前体细胞用于体外细胞实验,使用细胞计数试剂盒8(CCK-8)检测法评估细胞活力和增殖。使用巨噬细胞集落刺激因子(M-CSF)和核因子卡巴-β配体受体激活剂(RANKL)诱导破骨细胞前体细胞分化成破骨细胞,并进行耐酒石酸磷酸酶(TRAP)染色以比较不同组间的分化形态、大小和数量。采用 Western 印迹分析评估破骨细胞中分化标记、融合基因标记和骨吸收能力标记的表达。免疫荧光染色用于检测破骨细胞骨架、P2X7 蛋白和细胞核的空间分布和数量,而坑式试验则用于评估破骨细胞的骨吸收能力。最后,还进行了体内动物实验,包括显微计算机断层扫描(micro-CT)、苏木精和伊红(HE)染色、TRAP染色和免疫组化,以观察骨组织形态、破骨细胞分化和PI3K-Akt-GSK3β信号通路的磷酸化水平:结果:转录组和代谢组数据共同揭示了P2X7受体可通过PI3K-Akt-GSK3β信号通路影响骨质疏松症的发病机制。随后的体外实验显示,Sh-P2X7 + Recilisib组细胞的增殖活性增加(1.15对0.59),吸光度水平提高(0.68对0.34),吸收坑面积显著增加(13.94对3.50)。破骨细胞分化相关蛋白 MMP-9、CK 和 NFATc1 的表达水平明显升高(MMP-9:1.72 对 0.96;CK:2.54 对 0.95;NFATc1:3.05 对 0.95),F-肌动蛋白环的荧光强度也有所提高。相比之下,OE-P2X7 + LY294002 组的增殖活性降低(0.64 对 1.29),吸光度降低(0.34 对 0.82),吸收坑面积显著减少(5.01 对 14.96),同时 MMP-9、CK 和 NFATc1 的表达减弱(MMP-9:1.14 对 1.79;CK:1.26 对 2.75;NFATc1:1.17 对 2.90),F-肌动蛋白荧光强度降低。此外,体内动物实验表明,与野生型(WT)+ Sham 组相比,WT + OVX 组小鼠血清中 CTX 和 NTX 水平显著增加(CTX:587.17 对 129.33;NTX:386.00 对 98.83),钙沉积明显减少(19.67 对 53.83),骨密度显著降低,骨小梁分离增加,骨矿物质密度(BMD)降低。与KO + OVX组相比,KO + OVX + recilisib组小鼠血清中的CTX和NTX水平显著增加(CTX:503.50对209.83;NTX:339.83对127.00),钙沉积进一步减少(29.67对45.33),骨密度降低,骨小梁分离增加,骨密度降低:结论:P2X7 受体通过激活 PI3K-Akt-GSK3β 信号通路,对破骨细胞的形成和骨吸收起到积极的调节作用。
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来源期刊
Cellular & Molecular Biology Letters
Cellular & Molecular Biology Letters 生物-生化与分子生物学
CiteScore
11.60
自引率
13.30%
发文量
101
审稿时长
3 months
期刊介绍: Cellular & Molecular Biology Letters is an international journal dedicated to the dissemination of fundamental knowledge in all areas of cellular and molecular biology, cancer cell biology, and certain aspects of biochemistry, biophysics and biotechnology.
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