Reversible protein aggregation as cytoprotective mechanism against heat stress
Paola Gallardo, Silvia Salas-Pino, Rafael R. Daga
Abstract
Temperature fluctuation is one of the most frequent threats to which organisms are exposed in nature. The activation of gene expression programs that trigger the transcription of heat stress-protective genes is the main cellular response to resist high temperatures. In addition, reversible accumulation and compartmentalization of thermosensitive proteins in high-order molecular assemblies are emerging as critical mechanisms to ensure cellular protection upon heat stress. Here, we summarize representative examples of membrane-less intracellular bodies formed upon heat stress in yeasts and human cells and highlight how protein aggregation can be turned into a cytoprotective mechanism.
Topics & Concepts
Mechanism (biology)BiologyProteomicsProtein aggregationHeat stressHeat shock proteinCell biologyBiophysicsStress (linguistics)Computational biologyBiochemistryGeneEpistemologyLinguisticsPhilosophyAnimal scienceHeat shock proteins researchEndoplasmic Reticulum Stress and DiseaseRNA Research and Splicing