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Review
. 2017;244:1-11.
doi: 10.1007/164_2017_41.

Introduction to Sigma Proteins: Evolution of the Concept of Sigma Receptors

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Review

Introduction to Sigma Proteins: Evolution of the Concept of Sigma Receptors

Felix J Kim. Handb Exp Pharmacol. .

Abstract

For over 40 years, scientists have endeavored to understand the so-called sigma receptors. During this time, the concept of sigma receptors has continuously and significantly evolved. With thousands of publications on the subject, these proteins have been implicated in various diseases, disorders, and physiological processes. Nevertheless, we are just beginning to understand what sigma proteins do and how they work. Two subtypes have been identified, Sigma1 and Sigma2. Whereas Sigma1 (also known as sigma-1 receptor, Sig1R, σ1 receptor, and several other names) was cloned over 20 years ago, Sigma2 (sigma-2 receptor, σ2 receptor) was cloned very recently and had remained a pharmacologically defined entity. In this volume, we will focus primarily on Sigma1. We will highlight several key subject areas in which Sigma1 has been well characterized as well as (re)emerging areas of interest. Despite the large number of publications regarding Sigma1, several fundamental questions remain unanswered or only partially answered. Most of what we know about Sigma1 comes from pharmacological studies; however, a clearly defined molecular mechanism of action remains elusive. One concept has become clear; Sigma1 is not a traditional receptor. Sigma1 is now considered a unique pharmacologically regulated integral membrane chaperone or scaffolding protein. A number of landmark discoveries over the past decade have begun to reshape the concept of sigma receptors. With the rapid emergence of new information, development of new tools, and changing conceptual frameworks, the field is poised for a period of accelerated progress.

Keywords: Alcohol abuse; Allosteric modulation; Anchor patch; Cancer; Chaperone; Crystal structure; Drug addiction; Drug mechanism of action; Imaging agents; Medicinal chemistry; Neurodegeneration; Neuronal excitability; Nuclear magnetic resonance; Pain; Pharmacology; Puzzle; Scaffold; Self-administration; Sigma-1 receptor; Sigma-2 receptor; Sigma1; Sigma2; Small molecule modulator; Three-dimensional homology model.

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