Decoy peptides that inhibit TNF signaling by disrupting the TNF homotrimeric oligomer

Nasir Javaid, Bilal Ahmad, Mahesh Chandra Patra, Sangdun Choi
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Abstract

Tumor necrosis factor (TNF) is a pro-inflammatory cytokine and its functional homotrimeric form interacts with the TNF receptor (TNFR) to activate downstream apoptotic, necroptotic, and inflammatory signaling pathways. Excessive activation of these pathways leads to various inflammatory diseases, which makes TNF a promising therapeutic target. Here, 12-mer peptides were selected from the interface of TNF-TNFR based upon their relative binding energies and were named ‘TNF-inhibiting decoys’ (TIDs). These decoy peptides inhibited TNF-mediated secretion of cytokines and cell death, as well as activation of downstream signaling effectors. Effective TIDs inhibited TNF signaling by disrupting the formation of TNF's functional homotrimeric form. Among derivatives of TIDs, TID3c showed slightly better efficacy in cell-based assays by disrupting TNF trimer formation. Moreover, TID3c oligomerized TNF to a high molecular weight configuration. In silico modeling and simulations revealed that TID3c and its parent peptide, TID3, form a stable complex with TNF through hydrogen bonds and electrostatic interactions, which makes them the promising lead to develop peptide-based anti-TNF therapeutics.

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诱饵肽,通过破坏 TNF 同源三聚体寡聚体来抑制 TNF 信号传导。
肿瘤坏死因子(TNF)是一种促炎细胞因子,其功能性同源形式与 TNF 受体(TNFR)相互作用,激活下游的凋亡、坏死和炎症信号通路。这些途径的过度激活会导致各种炎症性疾病,从而使 TNF 成为一个很有前景的治疗靶点。本文根据相对结合能,从 TNF-TNFR 界面筛选出 12 聚体肽,并将其命名为 "TNF 抑制诱饵"(TIDs)。这些诱饵肽可抑制 TNF 介导的细胞因子分泌和细胞死亡,以及下游信号效应器的激活。有效的诱饵肽通过破坏 TNF 功能性同三聚体形式的形成来抑制 TNF 信号转导。在 TIDs 的衍生物中,TID3c 通过破坏 TNF 三聚体的形成,在基于细胞的试验中表现出略微更好的疗效。此外,TID3c还能使TNF寡聚成高分子量构型。硅学建模和模拟显示,TID3c及其母肽TID3通过氢键和静电作用与TNF形成稳定的复合物,这使它们成为开发基于肽的抗TNF疗法的有希望的先导物。
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