Small heat shock proteins: multifaceted proteins with important implications for life

Date

2019-02-13

Authors

Carra, Serena
Alberti, Simon
Benesch, Justin L. P.
Boelens, Wilbert C.
Carver, John
Cecconi, Ciro
Ecroyd, Heath
Gusev, Nikolai
Hightower, Lawrence E.
Klevit, Rachel E.

Journal Title

Journal ISSN

Volume Title

Publisher

Cell Stress Society International

Abstract

Small Heat Shock Proteins (sHSPs) evolved early in the history of life; they are present in archaea, bacteria, and eukaryota. sHSPs belong to the superfamily of molecular chaperones: they are components of the cellular protein quality control machinery and are thought to act as the first line of defense against conditions that endanger the cellular proteome. In plants, sHSPs protect cells against abiotic stresses, providing innovative targets for sustainable agricultural production. In humans, sHSPs (also known as HSPBs) are associated with the development of several neurological diseases. Thus, manipulation of sHSP expression may represent an attractive therapeutic strategy for disease treatment. Experimental evidence demonstrates that enhancing the chaperone function of sHSPs protects against age-related protein conformation diseases, which are characterized by protein aggregation. Moreover, sHSPs can promote longevity and healthy aging in vivo. In addition, sHSPs have been implicated in the prognosis of several types of cancer. Here, sHSP upregulation, by enhancing cellular health, could promote cancer development; on the other hand, their downregulation, by sensitizing cells to external stressors and chemotherapeutics, may have beneficial outcomes. The complexity and diversity of sHSP function and properties and the need to identify their specific clients, as well as their implication in human disease, have been discussed by many of the world’s experts in the sHSP field during a dedicated workshop in Québec City, Canada, on 26–29 August 2018.

Description

Keywords

Small heat shock proteins, Protein quality control, Human diseases, Plant biology

Citation

Source

Cell Stress and Chaperones

Type

Journal article

Book Title

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Restricted until

2037-12-31