具有降低真核细胞毒性且能增强β-内酰胺类抗菌活性的修饰衣霉素。

Modified tunicamycins with reduced eukaryotic toxicity that enhance the antibacterial activity of β-lactams.

作者信息

Price Neil Pj, Hartman Trina M, Li Jiakun, Velpula Kiran K, Naumann Todd A, Guda Maheedhara R, Yu Biao, Bischoff Kenneth M

机构信息

Agricultural Research Service, US Department of Agriculture, National Center for Agricultural Utilization Research, Peoria, IL, USA.

State Key Laboratory of Bioorganic and Natural Products Chemistry, Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences, Shanghai, China.

出版信息

J Antibiot (Tokyo). 2017 Nov;70(11):1070-1077. doi: 10.1038/ja.2017.101. Epub 2017 Sep 27.

DOI:10.1038/ja.2017.101

PMID:28951601

Abstract

Tunicamycins (TUN) are inhibitors of the UDP-HexNAc: polyprenol-P HexNAc-1-P transferase family of enzymes, which initiate the biosynthesis of bacterial peptidoglycan and catalyze the first step in eukaryotic protein N-glycosylation. The TUN are therefore general and potent toxins to both eukaryotes and prokaryotes. Screening a library of synthetic TUN against Bacillus and yeast identified TUN that are antibacterial, but have significantly reduced eukaryotic toxicity. One of these (Tun-15:0) differs from the native TUN control only by the lack of the conjugated double bond in the tunicaminyl N-acyl group. Tun-15:0 also showed reduced inhibition for protein N-glycosylation in a Pichia-based bioassay. Natural TUN was subsequently modified by chemically reducing the N-acyl double bond (TunR1) or both the N-acyl and uridyl double bonds (TunR2). TunR1 and TunR2 retain their antibacterial activity, but with considerably reduced eukaryotic toxicity. In protein N-glycosylation bioassays, TunR1 is a less potent inhibitor than native TUN and TunR2 is entirely inactive. Importantly, the less toxic TunR1 and TunR2 both enhance the antibacterial activity of β-lactams: oxacillin by 32- to 64-fold, comparable with native TUN, and with similar enhancements for methicillin and penicillin G. Hence, the modified TUNs, TunR1 and TunR2, are potentially important as less-toxic synergistic enhancers of the β-lactams.

摘要

衣霉素（TUN）是UDP-己糖胺：聚异戊二烯磷酸己糖胺-1-磷酸转移酶家族酶的抑制剂，该家族酶启动细菌肽聚糖的生物合成并催化真核蛋白质N-糖基化的第一步。因此，衣霉素对真核生物和原核生物都是通用且强效的毒素。针对芽孢杆菌和酵母筛选合成衣霉素文库，鉴定出具有抗菌作用但真核毒性显著降低的衣霉素。其中一种（Tun-15:0）与天然衣霉素对照的区别仅在于衣霉素胺N-酰基中缺少共轭双键。在基于毕赤酵母的生物测定中，Tun-15:0对蛋白质N-糖基化的抑制作用也有所降低。随后通过化学还原N-酰基双键（TunR1）或N-酰基和尿苷基双键（TunR2）对天然衣霉素进行修饰。TunR1和TunR2保留了它们的抗菌活性，但真核毒性大大降低。在蛋白质N-糖基化生物测定中，TunR1是一种比天然衣霉素效力更低的抑制剂，而TunR2完全无活性。重要的是，毒性较低的TunR1和TunR2均能将β-内酰胺类抗生素：苯唑西林的抗菌活性提高32至64倍，与天然衣霉素相当，对甲氧西林和青霉素G也有类似的增强作用。因此，修饰后的衣霉素TunR1和TunR2作为毒性较低的β-内酰胺类协同增强剂可能具有重要意义。

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具有降低真核细胞毒性且能增强β-内酰胺类抗菌活性的修饰衣霉素。

Modified tunicamycins with reduced eukaryotic toxicity that enhance the antibacterial activity of β-lactams.

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