铬（III）和铬（VI）在遗传毒性诱导中的重要作用——当前观点

Chromium (III) and chromium (VI) as important players in the induction of genotoxicity - current view.

作者信息

Sawicka Ewa, Jurkowska Karolina, Piwowar Agnieszka

机构信息

Medical University, Wrocław, Poland.

出版信息

Ann Agric Environ Med. 2021 Mar 18;28(1):1-10. doi: 10.26444/aaem/118228. Epub 2020 Mar 10.

DOI:10.26444/aaem/118228

PMID:33775062

Abstract

INTRODUCTION

Genotoxicity of chemical compounds is primarily associated with the interaction with DNA, formation of mutations, damage to chromosomes and initiating carcinogenesis processes. Currently, many compounds found in the environment are considered to be genotoxic agents, among them chromium: trivalent (III) and hexavalent (VI). The genotoxicity of hexavalent (VI) chromium has been proven in numerous epidemiological, in vitro and in vivo studies. The main source of Cr (VI) is environmental pollution associated with its use in various industries. On the other hand, the role of chromium (III) as a microelement is widely discussed. Due to its beneficial properties, associated with maintaining adequate blood glucose levels and supporting weight loss, it is widely used in the form of dietary supplements, often in doses exceeding the daily requirement. However, the safety of chromium compounds is disputable. Data about the mechanism of genotoxic effects are still incomplete.

OBJECTIVE

The aim of this review is to present the current knowledge about the induction of genotoxicity from two forms of chromium: trivalent (III) and hexavalent (VI).

STATE OF KNOWLEDGE

Chromium (VI) is a carcinogen with proven mutagenic and genotoxic effects, but this issue is still being investigated by scientists. In recent years, numerous studies have also been conducted on the genotoxic effect of chromium (III).

CONCLUSIONS

Due to the still unexplained mechanism of the genotoxic action and incomplete knowledge about the transformation of chromium in the body, further research is needed, especially due to the growing popularity of Cr (III) compounds and their consumption in the form of dietary supplements and doubts as to the safety of its use, as well as environmental exposure to Cr (VI).

摘要

引言

化学化合物的遗传毒性主要与DNA相互作用、突变形成、染色体损伤以及引发致癌过程相关。目前，环境中发现的许多化合物被认为是遗传毒性剂，其中包括铬：三价（III）和六价（VI）。六价（VI）铬的遗传毒性已在众多流行病学、体外和体内研究中得到证实。Cr（VI）的主要来源是与其在各种工业中的使用相关的环境污染。另一方面，铬（III）作为一种微量元素的作用受到广泛讨论。由于其有益特性，与维持适当的血糖水平和支持体重减轻相关，它以膳食补充剂的形式被广泛使用，剂量常常超过每日需求量。然而，铬化合物的安全性存在争议。关于遗传毒性作用机制的数据仍然不完整。

目的

本综述的目的是介绍关于两种铬形式：三价（III）和六价（VI）诱导遗传毒性的当前知识。

知识现状

铬（VI）是一种具有已证实的诱变和遗传毒性作用的致癌物，但科学家们仍在对这个问题进行研究。近年来，也对铬（III）的遗传毒性作用进行了大量研究。

结论

由于遗传毒性作用机制仍未得到解释，且对铬在体内的转化了解不完整，需要进一步研究，特别是鉴于Cr（III）化合物越来越受欢迎，其以膳食补充剂形式的消费以及对其使用安全性的怀疑，以及环境中Cr（VI）的暴露情况。

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铬（III）和铬（VI）在遗传毒性诱导中的重要作用——当前观点

Chromium (III) and chromium (VI) as important players in the induction of genotoxicity - current view.

作者信息

机构信息

出版信息

INTRODUCTION

OBJECTIVE

STATE OF KNOWLEDGE

CONCLUSIONS

引言

目的

知识现状

结论

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