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Temperature (Austin). 2015 Nov 11;2(4):499-505. doi: 10.1080/23328940.2015.1110655. eCollection 2015 Oct-Dec.

Insights into the role of heat shock protein 72 to whole-body heat acclimation in humans.

Author information

1
Laboratório de Biologia do Exercício; Centro Integrado de Pesquisa em Saúde; Universidade Federal dos Vales do Jequitinhonha e Mucuri ; Diamantina, Brazil.
2
Departamento de Educação Física; Universidade Federal de Juiz de Fora ; Governador Valadares, Brazil.

Abstract

Heat acclimation results in systemic and cellular adaptions that reduce the negative effect of heat and, consequently, the risk of heat illness. Although the classical changes observed with heat acclimation lead to increased tolerance to exercise in the heat by reducing heat storage (reflected in reduced core and skin temperatures) and increasing whole-body capacity for heat dissipation (greater plasma volume, sweat output, and skin blood flow), it appears that heat acclimation also induces changes at the cellular level that might increase tolerance of the whole organism to a higher core temperature for the development of fatigue. Thermotolerance is a process that involves increased resilience to an otherwise lethal heat stress that follows a sublethal exposure to heat. Thermotolerance is believed to be the result of increased content of heat shock proteins (Hsp), specially a member of the 70 kDa family, Hsp72 kDa. In humans, we and others have reported that heat acclimation increases intracellular Hsp72 levels. This increase in intracellular Hsp72 could improve whole-body organism thermotolerance by maintaining intestinal epithelial tight junction barriers, by increasing resistance to gut-associated endotoxin translocation, or by reducing the inflammatory response. In this review, we will initially provide an overview of the physiological adaptations induced by heat acclimation and emphasize the main cellular changes that occur with heat acclimation associated with intracellular accumulation of Hsp72. Finally, we will present an argument for a role of whole-body heat acclimation in augmenting cellular thermotolerance, which may protect vital organs from deleterious effects of heat stress in humans.

KEYWORDS:

cellular adaptation; heat acclimation; heat shock proteins; heat stress; heat tolerance; thermotolerance

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