An efficient biosensor based on the synergistic catalysis of Helicobacter pylori urease b subunit and nanoplatinum for urease inhibitors screening and antagonistic mechanism analyzing

IF 8 1区化学 Q1 CHEMISTRY, ANALYTICAL

Sensors and Actuators B: Chemical Pub Date : 2022-03-15 DOI:10.1016/j.snb.2021.131284

Sa Xiao , Keshuai Shang , Wenjuan Li , Xia Wang

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引用次数: 7

Abstract

Helicobacter pylori (H. pylori) is the main non-genetic factor leading to gastric cancer. Due to the important role of urease produced by H. pylori in its initial colonization, survival, and infection, the activity inhibition of urease has been proven to be a promising therapeutic strategy for H. pylori infection. Therefore, the screening of effective urease inhibitors has become an important direction for the development of new therapeutic drugs. In this study, a novel biosensor for rapid screening of H. pylori urease inhibitors was constructed based on glassy carbon electrode (GCE) modified by heterologously expressed H. pylori 26695 urease b subunit (HPUb), Pt nanoparticles, and nanoporous gold (NPG). Five inhibitors were successfully screened for HPUb using the proposed biosensor (HPUb/Pt/NPG/GCE). The inhibition constants calculated according to the established mathematical model indicated that the inhibitory intensity order of these inhibitors was methylurea > acetamide > formamide > acetohydroxamic acid > hydroxyurea. Combining the inhibition constant of urease inhibitors with the molecular binding mechanism of the urease inhibitor and HPUb, it can be inferred that the non-polar long-chain modification of one of the primary amino groups based on the molecular structure of urea is a promising direction for the development of high-efficiency urease inhibitors. The elucidation of this mechanism will provide a theoretical foundation and new ideas for the design of competitive urease inhibitors based on urea structure and the development of new anti H. pylori drugs.

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基于幽门螺杆菌脲酶b亚基与纳米铂协同催化的高效生物传感器筛选脲酶抑制剂及拮抗机制分析

幽门螺杆菌(Helicobacter pylori, H. pylori)是导致胃癌的主要非遗传因素。由于幽门螺杆菌产生的脲酶在其初始定植、生存和感染中起着重要作用，抑制脲酶的活性已被证明是一种很有前景的治疗幽门螺杆菌感染的策略。因此，筛选有效的脲酶抑制剂已成为开发新型治疗药物的重要方向。本研究基于异源表达幽门螺杆菌26695脲酶b亚基(HPUb)修饰的玻璃碳电极(GCE)、纳米铂和纳米孔金(NPG)构建了一种用于快速筛选幽门螺杆菌脲酶抑制剂的新型生物传感器。利用提出的生物传感器(HPUb/Pt/NPG/GCE)成功筛选了5种HPUb抑制剂。根据所建立的数学模型计算的抑制常数表明，这些抑制剂的抑制强度顺序为甲基脲;乙酰胺比;甲酰胺的在乙羟肟酸>羟基脲。结合脲酶抑制剂的抑制常数和脲酶抑制剂与HPUb的分子结合机制，可以推断，基于尿素分子结构对其中一个一级氨基进行非极性长链修饰是开发高效脲酶抑制剂的一个有希望的方向。这一机制的阐明将为基于尿素结构的竞争性脲酶抑制剂的设计和新型抗幽门螺杆菌药物的开发提供理论基础和新思路。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Sensors and Actuators B: Chemical 工程技术-电化学

CiteScore

14.60

自引率

11.90%

发文量

1776

审稿时长

3.2 months

期刊介绍： Sensors & Actuators, B: Chemical is an international journal focused on the research and development of chemical transducers. It covers chemical sensors and biosensors, chemical actuators, and analytical microsystems. The journal is interdisciplinary, aiming to publish original works showcasing substantial advancements beyond the current state of the art in these fields, with practical applicability to solving meaningful analytical problems. Review articles are accepted by invitation from an Editor of the journal.