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基于结构的新型NAPRT抑制剂的鉴定与生物学特性研究

Structure-Based Identification and Biological Characterization of New NAPRT Inhibitors.

作者信息

Franco Jorge, Piacente Francesco, Walter Melanie, Fratta Simone, Ghanem Moustafa, Benzi Andrea, Caffa Irene, Kurkin Alexander V, Altieri Andrea, Herr Patrick, Martínez-Bailén Macarena, Robina Inmaculada, Bruzzone Santina, Nencioni Alessio, Del Rio Alberto

机构信息

Innovamol Consulting Srl, 41126 Modena, Italy.

Department of Internal Medicine and Medical Specialties, University of Genoa, 16132 Genoa, Italy.

出版信息

Pharmaceuticals (Basel). 2022 Jul 12;15(7):855. doi: 10.3390/ph15070855.

DOI:10.3390/ph15070855
PMID:35890155
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9320560/
Abstract

NAPRT, the rate-limiting enzyme of the Preiss-Handler NAD biosynthetic pathway, has emerged as a key biomarker for the clinical success of NAMPT inhibitors in cancer treatment. Previous studies found that high protein levels of NAPRT conferred resistance to NAMPT inhibition in several tumor types whereas the simultaneous blockade of NAMPT and NAPRT results in marked anti-tumor effects. While research has mainly focused on NAMPT inhibitors, the few available NAPRT inhibitors (NAPRTi) have a low affinity for the enzyme and have been scarcely characterized. In this work, a collection of diverse compounds was screened in silico against the NAPRT structure, and the selected hits were tested through cell-based assays in the NAPRT-proficient OVCAR-5 ovarian cell line and on the recombinant hNAPRT. We found different chemotypes that efficiently inhibit the enzyme in the micromolar range concentration and for which direct engagement with the target was verified by differential scanning fluorimetry. Of note, the therapeutic potential of these compounds was evidenced by a synergistic interaction between the NAMPT inhibitor FK866 and the new NAPRTi in terms of decreasing OVCAR-5 intracellular NAD levels and cell viability. For example, compound IM29 can potentiate the effect of FK866 of more than two-fold in reducing intracellular NAD levels. These results pave the way for the development of a new generation of human NAPRTi with anticancer activity.

摘要

NAPRT是普赖斯-汉德勒NAD生物合成途径的限速酶,已成为NAMPT抑制剂在癌症治疗中取得临床成功的关键生物标志物。先前的研究发现,在几种肿瘤类型中,高水平的NAPRT蛋白赋予了对NAMPT抑制的抗性,而同时阻断NAMPT和NAPRT则会产生显著的抗肿瘤效果。虽然研究主要集中在NAMPT抑制剂上,但现有的几种NAPRT抑制剂(NAPRTi)对该酶的亲和力较低,且几乎没有得到充分的表征。在这项工作中,通过计算机模拟针对NAPRT结构筛选了一系列不同的化合物,并在NAPRT功能正常的OVCAR-5卵巢癌细胞系和重组人NAPRT上通过基于细胞的试验对筛选出的命中化合物进行了测试。我们发现了不同的化学类型,它们在微摩尔浓度范围内能有效抑制该酶,并且通过差示扫描荧光法验证了它们与靶点的直接结合。值得注意的是,这些化合物的治疗潜力通过NAMPT抑制剂FK866与新型NAPRTi在降低OVCAR-5细胞内NAD水平和细胞活力方面的协同相互作用得到了证明。例如,化合物IM29在降低细胞内NAD水平方面可使FK866的效果增强两倍以上。这些结果为开发具有抗癌活性的新一代人NAPRTi铺平了道路。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6101/9320560/68270bd79f45/pharmaceuticals-15-00855-g006.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6101/9320560/6c8eb5f78806/pharmaceuticals-15-00855-g002.jpg
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