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烟酰胺的噻吩衍生物通过 NAD 补救途径代谢为非天然 NAD 衍生物，抑制 IMPDH 并对周围神经癌细胞有毒性。

Thiophenyl Derivatives of Nicotinamide Are Metabolized by the NAD Salvage Pathway into Unnatural NAD Derivatives That Inhibit IMPDH and Are Toxic to Peripheral Nerve Cancers.

机构信息

Department of Biochemistry, University of Texas Southwestern Medical Center, Dallas, Texas 75390, United States.

Department of Internal Medicine, Program in Molecular Medicine and Division of Hematology/Oncology, University of Texas Southwestern Medical Center, Dallas, Texas 75390, United States.

出版信息

ACS Chem Biol. 2024 Jun 21;19(6):1339-1350. doi: 10.1021/acschembio.4c00170. Epub 2024 Jun 3.

DOI:10.1021/acschembio.4c00170

PMID:38829020

Abstract

N-Pyridinylthiophene carboxamide (compound 21) displays activity against peripheral nerve sheath cancer cells and mouse xenografts by an unknown mechanism. Through medicinal chemistry, we identified a more active derivative, compound , and found that only analogues with structures similar to nicotinamide retained activity. Genetic screens using compound found that both NAMPT and NMNAT1, enzymes in the NAD salvage pathway, are necessary for activity. Compound is metabolized by NAMPT and NMNAT1 into an adenine dinucleotide (AD) derivative in a cell-free system, cultured cells, and mice, and inhibition of this metabolism blocked compound activity. AD analogues derived from compound inhibit IMPDH in vitro and cause cell death by inhibiting IMPDH in cells. These findings nominate these compounds as preclinical candidates for the development of tumor-activated IMPDH inhibitors to treat neuronal cancers.

摘要

N-吡啶基噻吩甲酰胺（化合物 21）通过未知机制显示出对周围神经鞘癌细胞和小鼠异种移植物的活性。通过药物化学，我们鉴定出一种更具活性的衍生物，化合物，并发现只有结构类似于烟酰胺的类似物保留活性。使用化合物的遗传筛选发现，NAD 补救途径中的酶 NAMPT 和 NMNAT1 对于活性都是必需的。在无细胞体系、培养细胞和小鼠中，化合物被 NAMPT 和 NMNAT1 代谢成腺嘌呤二核苷酸 (AD) 衍生物，而抑制这种代谢会阻断化合物的活性。来源于化合物的 AD 类似物在体外抑制 IMPDH，并通过抑制细胞中的 IMPDH 导致细胞死亡。这些发现将这些化合物命名为开发肿瘤激活 IMPDH 抑制剂的临床前候选药物，以治疗神经癌。

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烟酰胺的噻吩衍生物通过 NAD 补救途径代谢为非天然 NAD 衍生物，抑制 IMPDH 并对周围神经癌细胞有毒性。

Thiophenyl Derivatives of Nicotinamide Are Metabolized by the NAD Salvage Pathway into Unnatural NAD Derivatives That Inhibit IMPDH and Are Toxic to Peripheral Nerve Cancers.

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