Strategic internal covalent cross-linking of TNF produces a stable TNF trimer with improved TNFR2 signaling.

Molecular and cellular therapies Pub Date : 2015-08-12 eCollection Date: 2015-01-01

Liqin Ban, Willem Kuhtreiber, John Butterworth, Yoshiaki Okubo, Éva S Vanamee, Denise L Faustman

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Abstract

Background: Soluble TNF superfamily (TNFSF) ligands are less stable and less active than their transmembrane (tm) analogues. This is a problem for the therapeutic use of recombinant TNFSF ligands in diverse diseases including cancer and autoimmunity. Creating TNFSF ligand analogues with improved targeting of their respective receptors is important for research and therapeutic purposes.

Findings: Covalent internal cross-linking of TNF monomers by double mutations, S95C/G148C, results in stable trimers with improved TNFR2 function. The resulting mutein induced the selective death of autoreactive CD8 T cells in type-1 diabetic patients and demonstrates targeted proliferation and expansion of human CD4 Tregs.

Conclusions: Stable TNF trimers, created by internal covalent cross-linking, show improved signaling. The high structural homology within the TNF superfamily provides an opportunity to extend internal cross-linking to other TNF superfamily proteins to produce active trimers with improved stability and receptor signaling, and with potential applications for cancer, autoimmunity, infections, and transplantation.

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TNF的战略性内部共价交联产生稳定的TNF三聚体，并改善TNFR2信号传导。

背景:可溶性TNF超家族(TNFSF)配体比它们的跨膜(tm)类似物更不稳定，活性更低。这是重组TNFSF配体治疗多种疾病(包括癌症和自身免疫)的一个问题。创造具有更好靶向各自受体的tnf - sf配体类似物对于研究和治疗目的非常重要。研究结果:通过双突变(S95C/G148C)将TNF单体共价内交联，产生稳定的三聚体，改善TNFR2功能。由此产生的mutein诱导1型糖尿病患者自身反应性CD8 T细胞的选择性死亡，并显示出人类CD4 Tregs的靶向增殖和扩增。结论:通过内部共价交联产生的稳定的TNF三聚体显示出改善的信号传导。TNF超家族内部的高度结构同源性为将内部交联扩展到其他TNF超家族蛋白提供了机会，从而产生具有更高稳定性和受体信号传导的活性三聚体，并在癌症、自身免疫、感染和移植方面具有潜在的应用前景。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Molecular and cellular therapies

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