Abstract
We have used limited trypsin digestion and reactivity with PEG-maleimides (MPEG) to study Ca(2+)-induced conformational changes of IP(3)Rs in their native membrane environment. We found that Ca(2+) decreased the formation of the 95-kDa C-terminal tryptic fragment when detected by an Ab directed at a C-terminal epitope (CT-1) but not with an Ab recognizing a protected intraluminal epitope. This suggests that Ca(2+) induces a conformational change in the IP(3)R that allows trypsin to cleave the C-terminal epitope. Half-maximal effects of Ca(2+) were observed at approximately 0.5 microm and was sensitive to inhibition by IP(3). Ca(2+) also stimulated the reaction of MPEG-5 with an endogenous thiol in the 95-kDa fragment. This effect was eliminated when six closely spaced cysteine residues proximal to the transmembrane domains were mutated (C2000S, C2008S, C2010S, C2043S, C2047S, and C2053S) or when the N-terminal suppressor domain (amino acids 1-225) was deleted. A cysteine substitution mutant introduced at the C-terminal residue (A2749C) was freely accessible to MPEG-5 or MPEG-20 in the absence of Ca(2+). However, cysteine substitution mutants in the interior of the tail were poorly reactive with MPEG-5, although reactivity was enhanced by Ca(2+). We conclude the following: a) that large conformational changes induced by Ca(2+) can be detected in IP(3)Rs in situ; b) these changes may be driven by Ca(2+) binding to the N-terminal suppressor domain and expose a group of closely spaced endogenous thiols in the channel domain; and c) that the C-terminal cytosol-exposed tail of the IP(3)R may be relatively inaccessible to regulatory proteins unless Ca(2+) is present.
Highlights
Inositol 1,4,5-trisphosphate receptors (IP3Rs)3 are large tetrameric intracellular Ca2ϩ-release channels that mediate the release of Ca2ϩ from endoplasmic reticulum stores into the cytosol in response to IP3 [1,2,3,4,5]
The IP3 binding domain of the receptor is organized into a “core” segment that binds IP3 with high affinity and a “suppressor domain” that inhibits IP3 binding to the core
The relationship of the conformational changes detected in fusion proteins or isolated purified receptors to the conformational dynamics of full-length receptors embedded in native membranes remains to be established
Summary
Inositol 1,4,5-trisphosphate receptors (IP3Rs)3 are large tetrameric intracellular Ca2ϩ-release channels that mediate the release of Ca2ϩ from endoplasmic reticulum stores into the cytosol in response to IP3 [1,2,3,4,5]. Our interpretation of this data is that Ca2ϩ induces a conformational change in the receptor that allows trypsin access to the C-terminal tail, resulting in cleavage and loss of the CT-1 Ab epitope.
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