Thermal Preconditioning and Heat-shock Protein 72 Preserve Synaptic Transmission During Thermal Stress

Overview

Journal J Neurosci

Specialty Neurology

Date 2002 Jan 5

PMID 11756523

Citations 27

Authors

Jonathan D Kelty

Peter A Noseworthy

Martin E Feder

R Meldrum Robertson

Jan-Marino Ramirez

Affiliations

Soon will be listed here.

Abstract

As with other tissues, exposing the mammalian CNS to nonlethal heat stress (i.e., thermal preconditioning) increases levels of heat-shock proteins (Hsps) such as Hsp70 and enhances the viability of neurons under subsequent stress. Using a medullary slice preparation from a neonatal mouse, including the site of the neural network that generates respiratory rhythm (the pre-Bötzinger complex), we show that thermal preconditioning has an additional fundamental effect, protection of synaptic function. Relative to 30 degrees C baseline, initial thermal stress (40 degrees C) greatly increased the frequency of synaptic currents recorded without pharmacological manipulation by approximately 17-fold (p < 0.01) and of miniature postsynaptic currents (mPSCs) elicited by GABA (20-fold) glutamate (10-fold), and glycine (36-fold). Thermal preconditioning (15 min at 40 degrees C) eliminated the increase in frequency of overall synaptic transmission during acute thermal stress and greatly attenuated the frequency increases of GABAergic, glutamatergic, and glycinergic mPSCs (for each, p < 0.05). Moreover, without thermal preconditioning, incubation of slices in solution containing inducible Hsp70 (Hsp72) mimicked the effect of thermal preconditioning on the stress-induced release of neurotransmitter. That preconditioning and exogenous Hsp72 can affect and preserve normal physiological function has important therapeutic implications.

Citing Articles

Acute Effect of Exposure to Extreme Heat (100 ± 3 °C) on Lower Limb Maximal Resistance Strength.

Bartolome I, Toro-Roman V, Siquier-Coll J, Munoz D, Robles-Gil M, Maynar-Marino M Int J Environ Res Public Health. 2022; 19(17).

PMID: 36078656 PMC: 9517895. DOI: 10.3390/ijerph191710934.

Modulation of neuromuscular excitability in response to acute noxious heat exposure has no additional effects on central and peripheral fatigability.

Eimantas N, Ivanove S, Baranauskiene N, Solianik R, Brazaitis M Front Physiol. 2022; 13:936885.

PMID: 36035478 PMC: 9412021. DOI: 10.3389/fphys.2022.936885.

Effect of Handgrip Training in Extreme Heat on the Development of Handgrip Maximal Isometric Strength among Young Males.

Bartolome I, Siquier-Coll J, Perez-Quintero M, Robles-Gil M, Munoz D, Maynar-Marino M Int J Environ Res Public Health. 2021; 18(10).

PMID: 34069110 PMC: 8156655. DOI: 10.3390/ijerph18105240.

Astaxanthin supplementation impacts the cellular HSP expression profile during passive heating.

Fleischmann C, Bar-Ilan N, Horowitz M, Bruchim Y, Deuster P, Heled Y Cell Stress Chaperones. 2020; 25(3):549-558.

PMID: 31970694 PMC: 7192986. DOI: 10.1007/s12192-019-01061-4.

Heat-Shock Proteins in Neuroinflammation.

Dukay B, Csoboz B, Toth M Front Pharmacol. 2019; 10:920.

PMID: 31507418 PMC: 6718606. DOI: 10.3389/fphar.2019.00920.