Abstract
Metabotropic glutamate receptor 1α (mGluR1α) exerts important effects on numerous neurological processes. Although mGluR1α is known to respond to extracellular Ca(2+) ([Ca(2+)](o)) and the crystal structures of the extracellular domains (ECDs) of several mGluRs have been determined, the calcium-binding site(s) and structural determinants of Ca(2+)-modulated signaling in the Glu receptor family remain elusive. Here, we identify a novel Ca(2+)-binding site in the mGluR1α ECD using a recently developed computational algorithm. This predicted site (comprising Asp-318, Glu-325, and Asp-322 and the carboxylate side chain of the receptor agonist, Glu) is situated in the hinge region in the ECD of mGluR1α adjacent to the reported Glu-binding site, with Asp-318 involved in both Glu and calcium binding. Mutagenesis studies indicated that binding of Glu and Ca(2+) to their distinct but partially overlapping binding sites synergistically modulated mGluR1α activation of intracellular Ca(2+) ([Ca(2+)](i)) signaling. Mutating the Glu-binding site completely abolished Glu signaling while leaving its Ca(2+)-sensing capability largely intact. Mutating the predicted Ca(2+)-binding residues abolished or significantly reduced the sensitivity of mGluR1α not only to [Ca(2+)](o) and [Gd(3+)](o) but also, in some cases, to Glu. The dual activation of mGluR1α by [Ca(2+)](o) and Glu has important implications for the activation of other mGluR subtypes and related receptors. It also opens up new avenues for developing allosteric modulators of mGluR function that target specific human diseases.
Highlights
Memory, learning, pain, synaptic plasticity, and the control of the activity of various circuits throughout the brain [1]
Prediction of a Novel Ca2ϩ-binding Site Adjacent to the Glubinding Site in the extracellular domains (ECDs) of mGluR1␣—We recently developed the computational algorithm MUG, which predicts Ca2ϩ-binding sites using graph theory by identifying all possible liganding oxygen clusters and finding maximal cliques
Asp-318) retained a sensitivity to [Ca2ϩ]o (Fig. 8B and Table 3), 318, Glu-325, Asp-322, and the carboxylate side chain of Glualthough their EC50 values were increased compared with that 701) does not completely overlap the Glu-binding site [15, 25]. of wild type mGluR1␣ (Table 3), again perhaps owing to local both sites include Asp-318, which our data suggest is conformational effects of mutating the Glu-binding site on Ca2ϩ involved in both Glu and Ca2ϩ binding
Summary
Memory, learning, pain, synaptic plasticity, and the control of the activity of various circuits throughout the brain [1]. We investigated the intracellular Ca2ϩ responses resulting from the binding of [Ca2ϩ]o, [Gd3ϩ]o, or Glu individually or of both [Ca2ϩ]o and Glu together by expressing wild type and mGluR1␣ variants with predicted ligand residues mutated.
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