羧基荜茇酰胺的直接和间接靶点，包括对核苷二磷酸激酶（NDPK）和线粒体 H 渗漏的被忽视的毒性。

Direct and indirect targets of carboxyatractyloside, including overlooked toxicity toward nucleoside diphosphate kinase (NDPK) and mitochondrial H leak.

机构信息

Department of Bioenergetics, Faculty of Biology, Adam Mickiewicz University, Poznan, Poland.

出版信息

Pharm Biol. 2023 Dec;61(1):372-390. doi: 10.1080/13880209.2023.2168704.

DOI:10.1080/13880209.2023.2168704

PMID:36799406

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9946330/

Abstract

CONTEXT

The toxicity of atractyloside/carboxyatractyloside is generally well recognized and commonly ascribed to the inhibition of mitochondrial ADP/ATP carriers, which are pivotal for oxidative phosphorylation. However, these glycosides may 'paralyze' additional target proteins.

OBJECTIVE

This review presents many facts about atractyloside/carboxyatractyloside and their plant producers, such as spp. (Asteraceae), named cockleburs.

METHODS

Published studies and other information were obtained from databases, such as 'CABI - Invasive Species Compendium', 'PubMed', and 'The World Checklist of Vascular Plants', from 1957 to December 2022. The following major keywords were used: 'carboxyatractyloside', 'cockleburs', 'hepatotoxicity', 'mitochondria', 'nephrotoxicity', and ''.

RESULTS

In the third decade of the twenty first century, public awareness of the severe toxicity of cockleburs is still limited. Such toxicity is often only perceived by specialists in Europe and other continents. Interestingly, cocklebur is among the most widely distributed invasive plants worldwide, and the recognition of new European stands of spp. is provided here. The findings arising from field and laboratory research conducted by the author revealed that (i) some livestock populations may instinctively avoid eating cocklebur while grazing, (ii) carboxyatractyloside inhibits ADP/GDP metabolism, and (iii) the direct/indirect target proteins of carboxyatractyloside are ambiguous.

CONCLUSIONS

Many aspects of the genus still require substantial investigation/revision in the future, such as the unification of the Latin nomenclature of currently distinguished species, bur morphology status, true fruit (achene) description and biogeography of cockleburs, and a detailed description of the physiological roles of atractyloside/carboxyatractyloside and the toxicity of these glycosides, mainly toward mammals. Therefore, a more careful interpretation of atractyloside/carboxyatractyloside data, including laboratory tests using -derived extracts and purified toxins, is needed.

摘要

背景

阿托瑞林/羧基阿托瑞林的毒性通常被很好地认识，并通常归因于抑制线粒体 ADP/ATP 载体，而 ADP/ATP 载体对氧化磷酸化至关重要。然而，这些糖苷可能会“麻痹”其他靶蛋白。

目的

本综述介绍了阿托瑞林/羧基阿托瑞林及其植物生产者，如 spp.（菊科），命名为苍耳。

方法

从数据库（如“CABI-入侵物种总览”、“PubMed”和“世界维管植物清单”）获取发表的研究和其他信息，时间从 1957 年到 2022 年 12 月。使用了以下主要关键词：“羧基阿托瑞林”、“苍耳”、“肝毒性”、“线粒体”、“肾毒性”和“”。

结果

在二十一世纪的第三个十年，公众对苍耳严重毒性的认识仍然有限。这种毒性通常只被欧洲和其他大陆的专家所感知。有趣的是，苍耳是全球分布最广的入侵植物之一，这里提供了对 spp.的新的欧洲种群的认识。作者进行的田间和实验室研究结果表明，（i）一些牲畜种群在放牧时可能本能地避免食用苍耳，（ii）羧基阿托瑞林抑制 ADP/GDP 代谢，以及（iii）羧基阿托瑞林的直接/间接靶蛋白尚不清楚。

结论

该属的许多方面在未来仍需要大量的调查/修订，例如目前区分的物种的拉丁学名的统一、苍耳的形态学地位、真正的果实（瘦果）描述和苍耳的生物地理学，以及阿托瑞林/羧基阿托瑞林的生理作用和这些糖苷的毒性的详细描述，主要针对哺乳动物。因此，需要更仔细地解释阿托瑞林/羧基阿托瑞林的数据，包括使用衍生提取物和纯化毒素进行的实验室测试。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/93f4/9946330/ba67d7688679/IPHB_A_2168704_F0001_C.jpg

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羧基荜茇酰胺的直接和间接靶点，包括对核苷二磷酸激酶（NDPK）和线粒体 H 渗漏的被忽视的毒性。

Direct and indirect targets of carboxyatractyloside, including overlooked toxicity toward nucleoside diphosphate kinase (NDPK) and mitochondrial H leak.

机构信息

出版信息

CONTEXT

OBJECTIVE

METHODS

RESULTS

CONCLUSIONS

背景

目的

方法

结果

结论

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