Abstract

The three isoforms of the inositol 1,4,5-trisphosphate receptor (IP(3)R) exhibit distinct IP(3) sensitivities and cooperativities in calcium (Ca(2+)) channel function. The determinants underlying this isoform-specific channel gating mechanism have been localized to the N-terminal suppressor region of IP(3)R. We determined the 1.9 Å crystal structure of the suppressor domain from type 3 IP(3)R (IP(3)R3(SUP), amino acids 1-224) and revealed structural features contributing to isoform-specific functionality of IP(3)R by comparing it with our previously determined structure of the type 1 suppressor domain (IP(3)R1(SUP)). The molecular surface known to associate with the ligand binding domain (amino acids 224-604) showed marked differences between IP(3)R3(SUP) and IP(3)R1(SUP). Our NMR and biochemical studies showed that three spatially clustered residues (Glu-20, Tyr-167, and Ser-217 in IP(3)R1 and Glu-19, Trp-168, and Ser-218 in IP(3)R3) within the N-terminal suppressor domains of IP(3)R1(SUP) and IP(3)R3(SUP) interact directly with their respective C-terminal fragments. Together with the accompanying paper (Yamazaki, H., Chan, J., Ikura, M., Michikawa, T., and Mikoshiba, K. (2010) J. Biol. Chem. 285, 36081-36091), we demonstrate that the single aromatic residue in this region (Tyr-167 in IP(3)R1 and Trp-168 in IP(3)R3) plays a critical role in the coupling between ligand binding and channel gating.

Highlights

  • The three isoforms of the inositol 1,4,5-trisphosphate receptor (IP3R) exhibit distinct IP3 sensitivities and cooperativities in calcium (Ca2؉) channel function

  • Chem. 285, 36081–36091), we demonstrate that the single aromatic residue in this region (Tyr-167 in IP3R1 and Trp-168 in IP3R3) plays a critical role in the coupling between ligand binding and channel gating

  • The IP3R family consists of three genes, which encode for isoforms type 1 (IP3R1), type 2 (IP3R2), and type 3 (IP3R3) [1]

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Summary

Introduction

The three isoforms of the inositol 1,4,5-trisphosphate receptor (IP3R) exhibit distinct IP3 sensitivities and cooperativities in calcium (Ca2؉) channel function. In our accompanying paper [31], we report the identification of critical amino acid residues in the suppressor domain for IP3R channel gating function.

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Conclusion

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