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Potential Contribution of the Intestinal Microbiome to Phenethylamine-Induced Hyperthermia.

Authors :
Aburahma A
Pachhain S
Choudhury SR
Rana S
Phuntumart V
Larsen R
Sprague JE
Source :
Brain, behavior and evolution [Brain Behav Evol] 2020; Vol. 95 (5), pp. 256-271. Date of Electronic Publication: 2021 Jan 20.
Publication Year :
2020

Abstract

Phenethylamines (e.g., methamphetamine) are a common source of drug toxicity. Phenethylamine-induced hyperthermia (PIH) can activate a cascade of events that may result in rhabdomyolysis, coagulopathy, and even death. Here, we review recent evidence that suggests a potential link between the gut-brain axis and PIH. Within the preoptic area of the hypothalamus, phenethylamines lead to changes in catecholamine levels, that activate the sympathetic nervous system (SNS) and increase the peripheral levels of norepinephrine (NE), resulting in: (1) the loss of heat dissipation through α1 adrenergic receptor (α1-AR)-mediated vasoconstriction, (2) heat generation through β-AR activation and subsequent free fatty acid (FFA) activation of uncoupling proteins (UCPs) in brown and white adipose tissue, and (3) alteration of the gut microbiome and its link to the gut-brain axis. Recent studies have shown that phenethylamine derivatives can influence the composition of the gut microbiome and thus its metabolic potential. Phenethylamines increase the relative level of Proteuswhich has been linked to enhanced NE turnover. Bidirectional fecal microbial transplants (FMT) between PIH-tolerant and PIH-naïve rats demonstrated that the transplantation of gut microbiome can confer phenotypic hyperthermic and tolerant responses to phenethylamines. These phenethylamine-mediated changes in the gut microbiome were also associated with epigenetic changes in the mediators of thermogenesis. Given the significant role that the microbiome has been shown to play in the maintenance of body temperature, we outline current studies demonstrating the effects of phenethylamines on the gut microbiome and how these microbiome changes may mechanistically contribute to alterations in body temperature.<br /> (© 2021 S. Karger AG, Basel.)

Details

Language :
English
ISSN :
1421-9743
Volume :
95
Issue :
5
Database :
MEDLINE
Journal :
Brain, behavior and evolution
Publication Type :
Academic Journal
Accession number :
33472193
Full Text :
https://doi.org/10.1159/000512098