硫代麦芽糖三苯甲基偶联物增强了体内的抗菌功效。

A Trimethoprim Conjugate of Thiomaltose Has Enhanced Antibacterial Efficacy In Vivo.

机构信息

Institute of Advanced Synthesis, School of Chemistry and Molecular Engineering, Jiangsu National Synergetic Innovation Center for Advanced Materials , Nanjing Tech University , Nanjing 211816 , China.

Emory University School of Medicine , Department of Medicine, Division of Cardiology , Atlanta , Georgia 30322 , United States.

出版信息

Bioconjug Chem. 2018 May 16;29(5):1729-1735. doi: 10.1021/acs.bioconjchem.8b00177. Epub 2018 Apr 25.

DOI:10.1021/acs.bioconjchem.8b00177

PMID:29660287

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5966298/

Abstract

Trimethoprim is one of the most widely used antibiotics in the world. However, its efficacy is frequently limited by its poor water solubility and dose limiting toxicity. Prodrug strategies based on conjugation of oligosaccharides to trimethoprim have great potential for increasing the solubility of trimethoprim and lowering its toxicity, but they have been challenging to develop due to the sensitivity of trimethoprim to chemical modifications, and the rapid degradation of oligosaccharides in serum. In this report, we present a trimethoprim conjugate of maltodextrin termed TM-TMP, which increased the water solubility of trimethoprim by over 100 times, was stable to serum enzymes, and was active against urinary tract infections in mice. TM-TMP is composed of thiomaltose conjugated to trimethoprim, via a self-immolative disulfide linkage, and releases 4'-OH-trimethoprim (TMP-OH) after disulfide cleavage, which is a known metabolic product of trimethoprim and is as potent as trimethoprim. TM-TMP also contains a new maltodextrin targeting ligand composed of thiomaltose, which is stable to hydrolysis by serum amylases and therefore has the metabolic stability needed for in vivo use. TM-TMP has the potential to significantly improve the treatment of a wide number of infections given its high water solubility and the widespread use of trimethoprim.

摘要

甲氧苄啶是世界上应用最广泛的抗生素之一。然而，其疗效常受到较差的水溶性和剂量限制毒性的限制。基于寡糖与甲氧苄啶缀合的前药策略具有提高甲氧苄啶水溶性和降低其毒性的巨大潜力，但由于甲氧苄啶对化学修饰敏感以及寡糖在血清中快速降解，因此开发具有挑战性。在本报告中，我们提出了一种称为 TM-TMP 的麦芽糊精修饰的甲氧苄啶，它将甲氧苄啶的水溶性提高了 100 多倍，对血清酶稳定，并且对小鼠尿路感染有效。TM-TMP 由通过自毁二硫键连接的硫麦芽糖与甲氧苄啶组成，二硫键断裂后释放 4'-OH-甲氧苄啶（TMP-OH），TMP-OH 是甲氧苄啶的已知代谢产物，与甲氧苄啶一样有效。TM-TMP 还含有一种新的麦芽糊精靶向配体，由硫麦芽糖组成，它对血清淀粉酶的水解稳定，因此具有体内应用所需的代谢稳定性。鉴于其高水溶性和甲氧苄啶的广泛应用，TM-TMP 有可能显著改善多种感染的治疗效果。

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