簇内受体密度(IRD)决定了 TNFR1 簇的信号功效

Subhamoy Jana, Priyanka Roy, Jibitesh Das, Parijat Biswas, Nandana Nanda, Bidisha Sinha, Deepak Sinha
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摘要

在炎症、免疫发病和肿瘤发生过程中,肿瘤坏死因子受体 1(TNFR1)信号决定着细胞的命运。TNFR1 蛋白在质膜上同源偶联成团。TNFR1 聚类对下游信号转导的潜在影响仍有待探索。同源 FREET 测量阐明,簇内受体密度(IRD)的改变决定了下游 TNFR1 信号传导的结果。可溶性 TNF-α(sTNF-α)通过 TNFR1 簇内动态重组,提高了 TNFR1 簇核心内的 IRD,同时降低了边缘内的 IRD。通过增加膜张力、施用 TNFR1 拮抗剂扎非司特、肌动蛋白解聚或消耗胆固醇来减少 TNFR1 IRD 会阻碍 sTNF-α 介导的刺激。相反,通过降低膜张力或将细胞暴露于三维凝胶状微环境来增加IRD,可诱导配体依赖性TNFR1信号传导。这些发现表明,IRD 在调节其他受体家族的信号通路方面具有更广泛的适用性,为 TNFR1 信号调节的创新策略提供了启示。
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Intra-cluster receptor density (IRD) dictates TNFR1 clusters' signaling efficacy
Tumor Necrosis Factor Receptor 1 (TNFR1) signaling determines cell fate during inflammation, immunopathogenesis, and tumorigenesis. TNFR1 proteins homo-oligomerize into clusters on the plasma membrane. The potential impact of TNFR1 clustering on downstream signaling remains unexplored. Homo-FRET measurements elucidate that alterations in intra-cluster receptor density (IRD) dictate the outcomes of downstream TNFR1 signaling. Soluble TNF-α (sTNF-α) elevates IRD within the TNFR1 clusters core while diminishing it in the rim, through intra-cluster dynamic reorganization of TNFR1. Decreasing TNFR1 IRD through increasing membrane tension, administering TNFR1 antagonist zafirlukast, actin depolymerization, or depleting cholesterol impedes sTNF-α-mediated stimulation. Conversely, increasing IRD by reducing membrane tension or exposing cells to 3D gel-like microenvironment induces ligand-independent TNFR1 signaling. These findings suggest a broader applicability of IRD in modulating signaling pathways across other receptor families, offering insights for innovative strategies in TNFR1 signaling modulation.
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