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Analysis of IP3 receptors in and out of cells
Authors:Ana M. Rossi  Stephen C. ToveyTaufiq Rahman  David L. ProleColin W. Taylor
Affiliation:Department of Pharmacology, Tennis Court Road, Cambridge, CB2 1PD, UK
Abstract:

Background

Inositol 1,4,5-trisphosphate receptors (IP3R) are expressed in almost all animal cells. Three mammalian genes encode closely related IP3R subunits, which assemble into homo- or hetero-tetramers to form intracellular Ca2 + channels.

Scope of the review

In this brief review, we first consider a variety of complementary methods that allow the links between IP3 binding and channel gating to be defined. How does IP3 binding to the IP3-binding core in each IP3R subunit cause opening of a cation-selective pore formed by residues towards the C-terminal? We then describe methods that allow IP3, Ca2 + signals and IP3R mobility to be examined in intact cells. A final section briefly considers genetic analyses of IP3R signalling.

Major conclusions

All IP3R are regulated by both IP3 and Ca2 +. This allows them to initiate and regeneratively propagate intracellular Ca2 + signals. The elementary Ca2 + release events evoked by IP3 in intact cells are mediated by very small numbers of active IP3R and the Ca2 +-mediated interactions between them. The spatial organization of these Ca2 + signals and their stochastic dependence on so few IP3Rs highlight the need for methods that allow the spatial organization of IP3R signalling to be addressed with single-molecule resolution.

General significance

A variety of complementary methods provide insight into the structural basis of IP3R activation and the contributions of IP3-evoked Ca2 + signals to cellular physiology. This article is part of a Special Issue entitled Biochemical, biophysical and genetic approaches to intracellular calcium signaling.
Keywords:IP3 receptor   Ca signaling   TIRF microscopy   Patch clamp
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