Control of fluid intake in dehydrated rats and evolution of sodium appetite

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Laurival A. De Luca Jr. , Michel Laurin , José Vanderlei Menani
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Abstract

The objective of the present work is to examine from a new perspective the existence of causal factors not predicted by the classical theory that thirst and sodium appetite are two distinct motivations. For example, we ask why water deprivation induces sodium appetite, thirst is not “water appetite”, and intracellular dehydration potentially causes sodium appetite. Contrary to the classical theory, we suggest that thirst first, and sodium appetite second, designate a temporal sequence underlying the same motivation. The single motivation becomes an “intervenient variable” a concept borrowed from the literature, fully explained in the text, between causes of dehydration (extracellular, intracellular, or both together), and respective behavioral responses subserved by hindbrain-dependent inhibition (e.g., lateral parabrachial nucleus) and forebrain facilitation (e.g., angiotensin II). A corollary is homology between rat sodium appetite and marine teleost thirst-like motivation that we name “protodipsia”. The homology argument rests on similarities between behavior (salty water intake) and respective neuroanatomical as well as functional mechanisms. Tetrapod origin in a marine environment provides additional support for the homology. The single motivation hypothesis is also consistent with ingestive behaviors in nature given similarities (e.g., thirst producing brackish water intake) between the behavior of the laboratory rat and wild animals, rodents included. The hypotheses of single motivation and homology might explain why hyperosmotic rats, or eventually any other hyperosmotic tetrapod, shows paradoxical signs of sodium appetite. They might also explain how ingestive behaviors determined by dehydration and subserved by hindbrain inhibitory mechanisms contributed to tetrapod transition from sea to land.

控制脱水大鼠的液体摄入量和钠食欲的变化
本研究的目的是从一个新的角度来研究是否存在 "口渴和钠食欲是两种不同的动机 "这一经典理论所无法预测的因果因素。例如,我们询问为什么缺水会诱发钠食欲,口渴不是 "水食欲",而细胞内脱水可能会引起钠食欲。与经典理论相反,我们认为口渴在先,钠食欲在后,这是同一动机的时间序列。在脱水的原因(细胞外、细胞内或两者同时)和各自的行为反应之间,后脑依赖的抑制(如外侧副腋核)和前脑的促进(如血管紧张素 II)是一个 "干预变量",这一概念借用了文献中的说法,并在文中进行了充分解释。一个推论是,大鼠钠食欲与我们命名为 "原嗜食 "的海洋鳍足类动物口渴动机之间存在同源性。同源性的论据在于行为(摄入咸水)与各自的神经解剖学和功能机制之间的相似性。四足动物起源于海洋环境为同源性提供了额外的支持。鉴于实验室大鼠的行为与野生动物(包括啮齿类动物)之间的相似性(如口渴时摄入咸水),单一动机假说与自然界中的摄食行为也是一致的。单一动机假说和同源性假说也许可以解释为什么高渗大鼠或任何其他高渗四足动物会出现钠食欲的矛盾迹象。这些假说还可以解释脱水决定的摄食行为以及后脑抑制机制是如何促进四足动物从海洋过渡到陆地的。
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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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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