Adaptive Responses Account for the beta-Curve-Hormesis is Linked to Acquired Tolerance.

Nonlinearity in biology, toxicology, medicine Pub Date : 2003-10-01 DOI:10.1080/15401420390271100

A R D Stebbing

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Abstract

To date there is no single shared property of the various physical and chemical agents that elicit the beta-curve to account for its form, leading to the proposition that hormesis is a consequence of the nonspecificity of adaptive responses. It is argued that adaptive responses to toxic agents may be expected to follow the beta-curve. Four kinds of examples are reviewed (enzyme activity, sequestration and repair, and reproductive and homeostatic responses) that corroborate this proposition. The homeostasis example (incorporating homeorhesis) is considered in more detail, using the author's published hydroid experimental growth data, to show that both the alpha- and beta-curves are satisfactorily explained in this way. Many consider that hormesis is merely due to regulatory overcorrections, but it is proposed that it is a consequence of adaptations of the rate-sensitive growth control mechanism (homeorhesis) to sustained levels of inhibition to which the growth control mechanism adapts. In response to low levels of inhibition, upward adjustment of preferred growth rates confers greater resistance to inhibition, with growth hormesis as a cumulative byproduct.

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适应性反应是β曲线的原因--激素作用与获得性耐受有关。

迄今为止，各种物理和化学制剂都没有一个共同的特性来解释β曲线的形式，因此有人认为激素作用是适应性反应非特异性的结果。有人认为，对有毒物质的适应性反应可能会遵循贝塔曲线。本文回顾了证实这一观点的四种实例（酶活性、螯合与修复、生殖与平衡反应）。作者利用已发表的水螅实验性生长数据，更详细地讨论了同源反应的例子（包括同源合成），以说明α-曲线和β-曲线都能以这种方式得到令人满意的解释。许多人认为激素作用仅仅是由于调节过度造成的，但有人提出，激素作用是速率敏感型生长控制机制（同源合成）适应持续抑制水平的结果，而生长控制机制能够适应这种抑制水平。针对低水平的抑制，优先生长率的上调赋予了更大的抗抑制能力，而生长激素作用则是一种累积性副产品。

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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Nonlinearity in biology, toxicology, medicine

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