Diet, cellular, and systemic homeostasis control the cycling of potassium stable isotopes in endothermic vertebrates.

IF 2.9 3区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Metallomics Pub Date : 2023-11-02 DOI:10.1093/mtomcs/mfad065
T Tacail, J Lewis, M Clauss, C D Coath, R Evershed, E Albalat, T R Elliott, T Tütken
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Abstract

The naturally occurring stable isotopes of potassium (41K/39K, expressed as δ41K) have the potential to make significant contributions to vertebrate and human biology. The utility of K stable isotopes is, however, conditioned by the understanding of the dietary and biological factors controlling natural variability of δ41K. This paper reports a systematic study of K isotopes in extant terrestrial endothermic vertebrates. δ41K has been measured in 158 samples of tissues, biofluids, and excreta from 40 individuals of four vertebrate species (rat, guinea pig, pig and quail) reared in two controlled feeding experiments. We show that biological processing of K by endothermic vertebrates produces remarkable intra-organism δ41K variations of ca. 1.6‰. Dietary δ41K is the primary control of interindividual variability and δ41K of bodily K is +0.5-0.6‰ higher than diet. Such a trophic isotope effect is expected to propagate throughout trophic chains, opening promising use for reconstructing dietary behaviors in vertebrate ecosystems. In individuals, cellular δ41K is related to the intensity of K cycling and effectors of K homeostasis, including plasma membrane permeability and electrical potential. Renal and intestinal transepithelial transports also control fractionation of K isotopes. Using a box-modeling approach, we establish a first model of K isotope homeostasis. We predict a strong sensitivity of δ41K to variations of intracellular and renal K cycling in normal and pathological contexts. Thus, K isotopes constitute a promising tool for the study of K dyshomeostasis.

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饮食、细胞和系统稳态控制吸热脊椎动物中钾稳定同位素的循环。
钾的天然稳定同位素(41K/39K,表示为δ41K)有可能对脊椎动物和人类生物学做出重大贡献。然而,K稳定同位素的效用取决于对控制δ41K自然变异的饮食和生物因素的理解。本文对现存陆生吸热脊椎动物的K同位素进行了系统的研究。在两个对照喂养实验中,对四种脊椎动物(大鼠、豚鼠、猪和鹌鹑)的40个个体的158个组织、生物流体和排泄物样本中的δ41K进行了测量。我们发现,吸热脊椎动物对K的生物处理产生了约1.6‰的显著体内δ41K变化。日粮δ41K是个体间变异的主要控制因子,体钾δ41K比日粮高+0.5~0.6‰。这种营养同位素效应预计将在整个营养链中传播,为重建脊椎动物生态系统的饮食行为开辟了有前景的用途。在个体中,细胞δ41K与K循环的强度和K稳态的效应物有关,包括质膜通透性和电势。肾脏和肠道跨上皮转运也控制着K同位素的分馏。使用盒子建模方法,我们建立了第一个K同位素稳态模型。我们预测在正常和病理情况下,δ41K对细胞内和肾脏K循环的变化具有很强的敏感性。因此,钾同位素为研究钾稳态失调提供了一个很有前途的工具。
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
Metallomics
Metallomics 生物-生化与分子生物学
CiteScore
7.00
自引率
5.90%
发文量
87
审稿时长
1 months
期刊介绍: Global approaches to metals in the biosciences
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