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克隆和鉴定 与 核苷转运蛋白揭示了 P1 型载体在发现广谱基于核苷的抗动物非洲锥虫病治疗药物方面的潜力。

Cloning and Characterization of and Nucleoside Transporters Reveal the Potential of P1-Type Carriers for the Discovery of Broad-Spectrum Nucleoside-Based Therapeutics against Animal African Trypanosomiasis.

机构信息

School of Infection and Immunity, College of Medical, Veterinary and Life Sciences, University of Glasgow, Glasgow G12 8TA, UK.

Department of Veterinary Pharmacology and Toxicology, Ahmadu Bello University, Zaria 810107, Kaduna State, Nigeria.

出版信息

Int J Mol Sci. 2023 Feb 5;24(4):3144. doi: 10.3390/ijms24043144.

DOI:10.3390/ijms24043144
PMID:36834557
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9960827/
Abstract

African Animal Trypanosomiasis (AAT), caused predominantly by , and , is a fatal livestock disease throughout Sub-Saharan Africa. Treatment options are very limited and threatened by resistance. Tubercidin (7-deazaadenosine) analogs have shown activity against individual parasites but viable chemotherapy must be active against all three species. Divergence in sensitivity to nucleoside antimetabolites could be caused by differences in nucleoside transporters. Having previously characterized the nucleoside carriers, we here report the functional expression and characterization of the main adenosine transporters of (TvxNT3) and (TcoAT1/NT10), in a cell line ('SUPKO') lacking adenosine uptake. Both carriers were similar to the P1-type transporters and bind adenosine mostly through interactions with N3, N7 and 3'-OH. Expression of TvxNT3 and TcoAT1 sensitized SUPKO cells to various 7-substituted tubercidins and other nucleoside analogs although tubercidin itself is a poor substrate for P1-type transporters. Individual nucleoside ECs were similar for , , and but correlated less well with . However, multiple nucleosides including 7-halogentubercidines displayed pEC50>7 for all species and, based on transporter and anti-parasite SAR analyses, we conclude that nucleoside chemotherapy for AAT is viable.

摘要

非洲动物锥虫病(AAT)主要由 、 和 引起,是撒哈拉以南非洲地区一种致命的牲畜疾病。治疗选择非常有限,并且受到耐药性的威胁。结核苷(7-脱氮腺苷)类似物已显示出对个别寄生虫的活性,但可行的化疗必须对所有三种物种都有效。对核苷抗代谢物的敏感性差异可能是由于核苷转运体的差异造成的。我们之前已经对 核苷载体进行了表征,在此我们报告了非洲锥虫(TvxNT3)和(TcoAT1/NT10)主要腺苷转运体的功能表达和特性,在缺乏腺苷摄取的 细胞系('SUPKO')中。这两种载体都类似于 P1 型转运体,主要通过与 N3、N7 和 3'-OH 的相互作用来结合腺苷。TvxNT3 和 TcoAT1 的表达使 SUPKO 细胞对各种 7-取代的结核苷和其他核苷类似物敏感,尽管结核苷本身是 P1 型转运体的较差底物。个别核苷的 ECs 对于 、 、 和 相似,但与 相关性较差。然而,包括 7-卤代结核苷在内的多种核苷对所有物种的 pEC50>7,并且基于转运体和抗寄生虫 SAR 分析,我们得出结论,针对 AAT 的核苷化疗是可行的。

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