Proteomic Analysis of Signaling Pathways Modulated by Fatty Acid Binding Protein 5 (FABP5) in Macrophages.

IF 3.1 3区 医学 Q2 PHARMACOLOGY & PHARMACY Journal of Pharmacology and Experimental Therapeutics Pub Date : 2024-10-18 DOI:10.1124/jpet.123.002006
Faniya Doswell, John D Haley, Martin Kaczocha
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Abstract

Although acute inflammation serves essential functions in maintaining tissue homeostasis, chronic inflammation is causally linked to many diseases. Macrophages are a major cell type that orchestrates inflammatory processes. During inflammation, macrophages undergo polarization and activation, thereby mobilizing pro-inflammatory and anti-inflammatory transcriptional programs that regulate ensuing macrophage functions. Fatty acid binding protein 5 (FABP5) is a lipid chaperone highly expressed in macrophages. FABP5 deletion is implicated in driving macrophages toward an anti-inflammatory phenotype, yet signaling pathways regulated by macrophage-FABP5 have not been systematically profiled. We leveraged proteomic and phosphoproteomic approaches to characterize pathways modulated by FABP5 in M1 and M2 polarized bone marrow-derived macrophages (BMDMs). Stable isotope labeling by amino acids-based analysis of M1 and M2 polarized wild-type and FABP5 knockout BMDMs revealed numerous differentially regulated proteins and phosphoproteins. FABP5 deletion impacted downstream pathways associated with inflammation, cytokine production, oxidative stress, and kinase activity. Toll-like receptor 2 (TLR2) emerged as a novel target of FABP5 and pharmacological FABP5 inhibition blunted TLR2-mediated activation of downstream pathways, ascribing a novel role for FABP5 in TLR2 signaling. This study represents a comprehensive characterization of the impact of FABP5 deletion on the proteomic and phosphoproteomic landscape of M1 and M2 polarized BMDMs. Loss of FABP5 altered pathways implicated in inflammatory responses, macrophage function, and TLR2 signaling. This work provides a foundation for future studies seeking to investigate the therapeutic potential of FABP5 inhibition in pathophysiological states resulting from dysregulated inflammatory signaling. SIGNIFICANCE STATEMENT: This research offers a comprehensive analysis of fatty acid binding protein 5 (FABP5) in macrophages during inflammatory response. The authors employed quantitative proteomic and phosphoproteomic approaches to investigate this utilizing bone marrow-derived macrophages that were M1 and M2 polarized using lipopolysaccharide with interferon γ and interleukin-4, respectively. This revealed multiple pathways related to inflammation that were differentially regulated due to the absence of FABP5. These findings underscore the potential therapeutic significance of macrophage-FABP5 as a candidate for addressing inflammatory-related diseases.

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巨噬细胞中受 FABP5 调节的信号通路的蛋白质组学分析
急性炎症具有维持组织稳态的重要功能,而慢性炎症则与许多疾病有因果关系。巨噬细胞是协调炎症过程的主要细胞类型。在炎症过程中,巨噬细胞会发生极化和活化,从而调动促炎和抗炎转录程序来调节巨噬细胞的后续功能。脂肪酸结合蛋白 5(FABP5)是一种在巨噬细胞中高度表达的脂质伴侣蛋白。FABP5 基因缺失会导致巨噬细胞出现抗炎表型,但目前还没有对巨噬细胞-FABP5 调控的信号通路进行系统分析。我们利用蛋白质组学和磷酸化蛋白质组学的方法,对骨髓衍生的 M1 和 M2 极化巨噬细胞(BMDMs)中受 FABP5 调节的通路进行了表征。基于氨基酸稳定同位素标记(SILAC)技术对M1和M2极化野生型(WT)和FABP5基因敲除型(KO)骨髓衍生巨噬细胞(BMDMs)进行分析,发现了许多受不同调控的蛋白质和磷酸蛋白。FABP5 基因缺失影响了与炎症、细胞因子产生、氧化应激和激酶活性相关的下游通路。Toll样受体2(TLR2)是FABP5的一个新靶点,药理抑制FABP5会减弱TLR2介导的下游通路的激活,这说明FABP5在TLR2信号转导中发挥了新的作用。这项研究全面描述了FABP5缺失对M1和M2极化BMDMs蛋白质组和磷酸化蛋白质组的影响。FABP5 缺失改变了与炎症反应、巨噬细胞功能和 TLR2 信号转导有关的通路。这项工作为今后的研究奠定了基础,这些研究旨在探讨抑制 FABP5 在炎症信号失调导致的病理生理状态中的治疗潜力。意义声明 本研究采用定量蛋白质组学和磷酸蛋白质组学方法,描述了野生型小鼠和脂肪酸结合蛋白 5(FABP5)基因敲除小鼠骨髓衍生巨噬细胞的蛋白质组特征。我们的研究结果表明,与野生型对照组相比,M1 和 M2 极化的 FABP5 基因敲除小鼠的巨噬细胞中存在多种不同的调控通路,尤其是与炎症相关的通路。这些结果拓展了我们对巨噬细胞中 FABP5 功能的理解,并支持了最近的研究,这些研究强调了靶向巨噬细胞 FABP5 治疗炎症性疾病的潜力。
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来源期刊
CiteScore
6.90
自引率
0.00%
发文量
115
审稿时长
1 months
期刊介绍: A leading research journal in the field of pharmacology published since 1909, JPET provides broad coverage of all aspects of the interactions of chemicals with biological systems, including autonomic, behavioral, cardiovascular, cellular, clinical, developmental, gastrointestinal, immuno-, neuro-, pulmonary, and renal pharmacology, as well as analgesics, drug abuse, metabolism and disposition, chemotherapy, and toxicology.
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