The effect of hydration status on plasma FGF21 concentrations in humans: A subanalysis of a randomised crossover trial.

The effect of hydration status on plasma FGF21 concentrations in humans: A subanalysis of a randomised crossover trial.

<h4>Aim</h4>Fibroblast growth factor 21 (FGF21) has recently been implicated in thirst in rodent models. The mechanisms for this are currently uncertain, and it is unclear whether hydration status can alter FGF21 concentrations, potentially providing an additional mechanism by which hypo...

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Main Authors: Harriet A Carroll, Yung-Chih Chen, Iain Templeman, Lewis J James, James A Betts, William V Trim
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2020-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0235557
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spelling doaj-3ade691a5aea4a4c94cae3b8bbddb4032021-03-04T11:15:17ZengPublic Library of Science (PLoS)PLoS ONE1932-62032020-01-01158e023555710.1371/journal.pone.0235557The effect of hydration status on plasma FGF21 concentrations in humans: A subanalysis of a randomised crossover trial.Harriet A CarrollYung-Chih ChenIain TemplemanLewis J JamesJames A BettsWilliam V Trim<h4>Aim</h4>Fibroblast growth factor 21 (FGF21) has recently been implicated in thirst in rodent models. The mechanisms for this are currently uncertain, and it is unclear whether hydration status can alter FGF21 concentrations, potentially providing an additional mechanism by which hypohydration induces thirst. The aim of this study is therefore to understand whether hydration status can alter circulating FGF21 in humans.<h4>Methods</h4>Using a heat tent and fluid restriction, we induced hypohydration (1.9% body mass loss) in 16 healthy participants (n = 8 men), and compared their glycaemic regulation to a rehydration protocol (heat tent and fluid replacement) in a randomised crossover design.<h4>Results</h4>After the hypohydration procedure, urine specific gravity, urine and serum osmolality, and plasma copeptin (as a marker for arginine vasopressin) increased as expected, with no change after the rehydration protocol. In the fasted state, the median paired difference in plasma FGF21 concentrations from the rehydrated to hypohydrated trial arm was -37 (interquartile range -125, 10) pg∙mL-1(P = 0.278), with average concentrations being 458 ± 462 pg∙mL-1 after hypohydration and 467 ± 438 pg∙mL-1 after rehydration; mean difference -9 ± 173 pg∙mL-1.<h4>Conclusion</h4>To our knowledge, these are the first causal data in humans investigating hydration and FGF21, demonstrating that an acute bout of hypohydration does not impact fasted plasma FGF21 concentrations. These data may suggest that whilst previous research has found FGF21 administration can induce thirst and drinking behaviours, a physiological state implicated in increased thirst (hypohydration) does not appear to impact plasma FGF21 concentrations in humans.https://doi.org/10.1371/journal.pone.0235557
collection DOAJ
language English
format Article
sources DOAJ
author Harriet A Carroll
Yung-Chih Chen
Iain Templeman
Lewis J James
James A Betts
William V Trim
spellingShingle Harriet A Carroll
Yung-Chih Chen
Iain Templeman
Lewis J James
James A Betts
William V Trim
The effect of hydration status on plasma FGF21 concentrations in humans: A subanalysis of a randomised crossover trial.
PLoS ONE
author_facet Harriet A Carroll
Yung-Chih Chen
Iain Templeman
Lewis J James
James A Betts
William V Trim
author_sort Harriet A Carroll
title The effect of hydration status on plasma FGF21 concentrations in humans: A subanalysis of a randomised crossover trial.
title_short The effect of hydration status on plasma FGF21 concentrations in humans: A subanalysis of a randomised crossover trial.
title_full The effect of hydration status on plasma FGF21 concentrations in humans: A subanalysis of a randomised crossover trial.
title_fullStr The effect of hydration status on plasma FGF21 concentrations in humans: A subanalysis of a randomised crossover trial.
title_full_unstemmed The effect of hydration status on plasma FGF21 concentrations in humans: A subanalysis of a randomised crossover trial.
title_sort effect of hydration status on plasma fgf21 concentrations in humans: a subanalysis of a randomised crossover trial.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2020-01-01
description <h4>Aim</h4>Fibroblast growth factor 21 (FGF21) has recently been implicated in thirst in rodent models. The mechanisms for this are currently uncertain, and it is unclear whether hydration status can alter FGF21 concentrations, potentially providing an additional mechanism by which hypohydration induces thirst. The aim of this study is therefore to understand whether hydration status can alter circulating FGF21 in humans.<h4>Methods</h4>Using a heat tent and fluid restriction, we induced hypohydration (1.9% body mass loss) in 16 healthy participants (n = 8 men), and compared their glycaemic regulation to a rehydration protocol (heat tent and fluid replacement) in a randomised crossover design.<h4>Results</h4>After the hypohydration procedure, urine specific gravity, urine and serum osmolality, and plasma copeptin (as a marker for arginine vasopressin) increased as expected, with no change after the rehydration protocol. In the fasted state, the median paired difference in plasma FGF21 concentrations from the rehydrated to hypohydrated trial arm was -37 (interquartile range -125, 10) pg∙mL-1(P = 0.278), with average concentrations being 458 ± 462 pg∙mL-1 after hypohydration and 467 ± 438 pg∙mL-1 after rehydration; mean difference -9 ± 173 pg∙mL-1.<h4>Conclusion</h4>To our knowledge, these are the first causal data in humans investigating hydration and FGF21, demonstrating that an acute bout of hypohydration does not impact fasted plasma FGF21 concentrations. These data may suggest that whilst previous research has found FGF21 administration can induce thirst and drinking behaviours, a physiological state implicated in increased thirst (hypohydration) does not appear to impact plasma FGF21 concentrations in humans.
url https://doi.org/10.1371/journal.pone.0235557
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