小分子 FICD 抑制剂抑制内源性和病理性 FICD 介导的蛋白质 AMPylation

bioRxiv Pub Date : 2024-07-16 DOI:10.1101/2024.07.13.603377

Bhaskar K. Chatterjee, Maroof Alam, Arghya Chakravorty, Shannon M. Lacy, Jason Rech, Charles L. Brooks, Peter D. Arvan, Matthias C. Truttmann

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引用次数: 0

摘要

AMP 转移酶 FICD 是一种新兴的药物靶点，可对内质网（ER）中的应激信号进行微调。FICD 是一种双功能酶，既能催化 AMP 加成（AMPylation），也能催化 ER 驻留伴侣 BiP/GRP78 的脱除（deAMPylation）。尽管有越来越多的证据表明，BiP/GRP78 的过度 AMPylation 与人类疾病有关，但目前还缺乏抑制致病性 FICD 变体的小分子药物。通过体外高通量筛选，我们发现了两种小分子 FICD 抑制剂 C22 和 C73。这两种分子都能在完整细胞中明显抑制 FICD 介导的 BiP/GRP78 AMPylation，而对 BiP/GRP78 deAMPylation 的抑制作用很弱。C22 和 C73 还能有效抑制致病性 FICD 变体，改善 β 细胞中原胰岛素的加工。我们的研究确定并验证了 FICD 抑制剂，为对抗病理性蛋白 AMPylation 开辟了一条新的治疗途径。

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Small molecule FICD inhibitors suppress endogenous and pathologic FICD-mediated protein AMPylation

The AMP transferase, FICD, is an emerging drug target finetuning stress signaling in the endoplasmic reticulum (ER). FICD is a bi-functional enzyme, catalyzing both AMP addition (AMPylation) and removal (deAMPylation) from the ER resident chaperone BiP/GRP78. Despite increasing evidence linking excessive BiP/GRP78 AMPylation to human diseases, small molecules to inhibit pathogenic FICD variants are lacking. Using an in-vitro high-throughput screen, we identify two small-molecule FICD inhibitors, C22 and C73. Both molecules significantly inhibit FICD-mediated BiP/GRP78 AMPylation in intact cells while only weakly inhibiting BiP/GRP78 deAMPylation. C22 and C73 also efficiently inhibit pathogenic FICD variants and improve proinsulin processing in β cells. Our study identifies and validates FICD inhibitors, highlighting a novel therapeutic avenue against pathologic protein AMPylation.

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