1. Mechanistic and structural studies reveal NRAP-1-dependent coincident activation of NMDARs
- Author
-
Dayton J. Goodell, Frank G. Whitby, Jerry E. Mellem, Ning Lei, Penelope J. Brockie, Aleksander J. Maricq, Debra M. Eckert, Christopher P. Hill, David M. Madsen, and Andres V. Maricq
- Subjects
CP: Molecular biology ,CP: Neuroscience ,Biology (General) ,QH301-705.5 - Abstract
Summary: N-methyl-D-aspartate (NMDA)-type ionotropic glutamate receptors have essential roles in neurotransmission and synaptic plasticity. Previously, we identified an evolutionarily conserved protein, NRAP-1, that is required for NMDA receptor (NMDAR) function in C. elegans. Here, we demonstrate that NRAP-1 was sufficient to gate NMDARs and greatly enhanced glutamate-mediated NMDAR gating, thus conferring coincident activation properties to the NMDAR. Intriguingly, vertebrate NMDARs—and chimeric NMDARs where the amino-terminal domain (ATD) of C. elegans NMDARs was replaced by the ATD from vertebrate receptors—were spontaneously active when ectopically expressed in C. elegans neurons. Thus, the ATD is a primary determinant of NRAP-1- and glutamate-mediated gating of NMDARs. We determined the crystal structure of NRAP-1 at 1.9-Å resolution, which revealed two distinct domains positioned around a central low-density lipoprotein receptor class A domain. The NRAP-1 structure, combined with chimeric and mutational analyses, suggests a model where the three NRAP-1 domains work cooperatively to modify the gating of NMDARs.
- Published
- 2024
- Full Text
- View/download PDF