Proteostasis of immune checkpoint receptors.

IF 4.3 3区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Biochemical Journal Pub Date : 2025-10-01 DOI:10.1042/BCJ20253299

Pei Yee Tey, Sylvie Urbé, Michael J Clague

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引用次数: 0

Abstract

Immunotherapy relies on the targeting of immune checkpoint receptors and their respective ligands by specific antibodies that bind to the cell surface proteins. The pace of this highly successful clinical advancement has outstripped our cell biological understanding of these receptors. Here, we discuss what is known about their intracellular trafficking itineraries, which determine the bioavailability of these proteins for clinical targeting. Some of them are amongst the shortest-lived membrane proteins (CTLA-4), whilst others can be very stable (PD-L1). We highlight the ubiquitin system, which is key to determining their turnover, as it plays a key role in disposing of misfolded newly synthesised proteins via the ERAD pathway and generating a key signal for endosomal sorting towards lysosomes. In some cases, ubiquitylation can modulate the signalling function of the immune checkpoint receptor, as seen for LAG-3. Immune checkpoint proteins can evade lysosomal degradation by effective recycling to the plasma membrane using highly specialised factors, including CMTM6 (for PD-L1) and LRBA (for CTLA-4). Lastly, we consider how reprogramming the ubiquitin system emerges as an alternative modality in targeting immune checkpoint receptors.

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免疫检查点受体的蛋白质停滞。

免疫治疗依赖于结合细胞表面蛋白的特异性抗体靶向免疫检查点受体及其相应的配体。这种非常成功的临床进展的速度已经超过了我们对这些受体的细胞生物学理解。在这里，我们讨论了已知的细胞内运输路线，这决定了这些蛋白质在临床靶向中的生物利用度。其中一些是寿命最短的膜蛋白（CTLA-4），而另一些则非常稳定（PD-L1）。我们强调了泛素系统，这是决定其周转的关键，因为它在通过ERAD途径处理错误折叠的新合成蛋白质和产生内体向溶酶体分选的关键信号中起关键作用。在某些情况下，泛素化可以调节免疫检查点受体的信号功能，如LAG-3。免疫检查点蛋白可以通过使用高度特化的因子，包括CMTM6（用于PD-L1）和LRBA（用于CTLA-4），有效地再循环到质膜，从而逃避溶酶体降解。最后，我们考虑如何重编程泛素系统出现作为一种替代模式，在靶向免疫检查点受体。

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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来源期刊

Biochemical Journal 生物-生化与分子生物学

CiteScore

8.00

自引率

0.00%

发文量

255

审稿时长

1 months

期刊介绍： Exploring the molecular mechanisms that underpin key biological processes, the Biochemical Journal is a leading bioscience journal publishing high-impact scientific research papers and reviews on the latest advances and new mechanistic concepts in the fields of biochemistry, cellular biosciences and molecular biology. The Journal and its Editorial Board are committed to publishing work that provides a significant advance to current understanding or mechanistic insights; studies that go beyond observational work using in vitro and/or in vivo approaches are welcomed. Painless publishing: All papers undergo a rigorous peer review process; however, the Editorial Board is committed to ensuring that, if revisions are recommended, extra experiments not necessary to the paper will not be asked for. Areas covered in the journal include: Cell biology Chemical biology Energy processes Gene expression and regulation Mechanisms of disease Metabolism Molecular structure and function Plant biology Signalling