Low levels of reactive oxygen species as modulators of cell function

Mutation Research/DNAging Pub Date : 1995-02-01 DOI:10.1016/0921-8734(95)90004-7

José Remacle , Martine Raes , Olivier Toussaint , Patricia Renard , Govind Rao

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引用次数: 263

Abstract

In this paper, we present various arguments supporting the hypothesis that reactive oxygen species (ROS) could be responsible for the modulation of various cellular functions, besides their well known toxic effects.

We first review the recent evidence indicating that ROS are able to modulate genome expression through specific and precise mechanisms during cell activation. The role of the nitrogen reactive radicals such as nitric oxide is separately analyzed because of its specific role in the nervous and vascular systems. The action of the other ROS on gene activation will then be reviewed by first looking at their possible involvement in the activation of transcription factors like NF-κB. Arguments will then be developed in favor of the implication of the ROS in the cellular effects of PMA, TNF-α and other cytokines on the modulation of the genetic expression. Possible mechanisms will be presented for linking the production of the ROS with cell activation. In a general way we postulate that ROS can play a role of secondary messengers in several cell responses to external stimuli.

In the second part of the paper, we will examine the long term influence of ROS and their possible roles in cellular aging. Different links exist between ROS and aging and the relationship between them is probably indirect. We propose to consider the effect of ROS as one of the multiple challenges that cells have to face, the cell being considered as a global system which must optimize its energy expenditure for carrying out its basic functions such as turnover, differentiated phenotype functions, multiplication, defense and repair processes. This thermodynamic point of view will help to understand the effect of low ROS stresses, among others, on accelerated aging.

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低水平的活性氧作为细胞功能调节剂

在本文中，我们提出了各种论据来支持活性氧(ROS)除了众所周知的毒性作用外，还可能负责调节各种细胞功能的假设。我们首先回顾了最近的证据表明，ROS能够在细胞激活过程中通过特定和精确的机制调节基因组表达。氮反应性自由基如一氧化氮在神经和血管系统中的作用是单独分析的，因为它的特殊作用。其他活性氧对基因激活的作用将首先通过观察它们可能参与转录因子如NF-κB的激活来回顾。在PMA、TNF-α和其他细胞因子对基因表达调节的细胞效应中，ROS的影响将得到进一步的论证。可能的机制将提出连接活性氧的生产与细胞活化。在一般情况下，我们假设活性氧可以在几种细胞对外部刺激的反应中发挥次生信使的作用。在本文的第二部分，我们将研究活性氧的长期影响及其在细胞衰老中的可能作用。ROS与衰老之间存在不同的联系，两者之间的关系可能是间接的。我们建议将ROS的影响视为细胞必须面对的多重挑战之一，细胞被认为是一个全局系统，必须优化其能量消耗以执行其基本功能，如周转，分化表型功能，增殖，防御和修复过程。这种热力学观点将有助于理解低活性氧应力对加速老化的影响。

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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Mutation Research/DNAging

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