Efficient Binding of the NOS1AP C-Terminus to the NNOS PDZ Pocket Requires the Concerted Action of the PDZ Ligand Motif, the Internal ExF Site and Structural Integrity of an Independent Element

Overview

Journal Front Mol Neurosci

Specialty Molecular Biology

Date 2017 Apr 1

PMID 28360833

Citations 2

Authors

Li-Li Li

Katryna Cisek

Michael J Courtney

Affiliations

Soon will be listed here.

Abstract

Neuronal nitric oxide synthase is widely regarded as an important contributor to a number of disorders of excitable tissues. Recently the adaptor protein NOS1AP has emerged as a contributor to several nNOS-linked conditions. As a consequence, the unexpectedly complex mechanisms of interaction between nNOS and its effector NOS1AP have become a particularly interesting topic from the point of view of both basic research and the potential for therapeutic applications. Here we demonstrate that the concerted action of two previously described motif regions contributing to the interaction of nNOS with NOS1AP, the ExF region and the PDZ ligand motif, efficiently excludes an alternate ligand from the nNOS-PDZ ligand-binding pocket. Moreover, we identify an additional element with a denaturable structure that contributes to interaction of NOS1AP with nNOS. Denaturation does not affect the functions of the individual motifs and results in a relatively mild drop, ∼3-fold, of overall binding affinity of the C-terminal region of NOS1AP for nNOS. However, denaturation selectively prevents the concerted action of the two motifs that normally results in efficient occlusion of the PDZ ligand-binding pocket, and results in 30-fold reduction of competition between NOS1AP and an alternate PDZ ligand.

Citing Articles

ZLc002, a putative small-molecule inhibitor of nNOS interaction with NOS1AP, suppresses inflammatory nociception and chemotherapy-induced neuropathic pain and synergizes with paclitaxel to reduce tumor cell viability.

Lee W, Carey L, Li L, Xu Z, Lai Y, Courtney M Mol Pain. 2018; 14:1744806918801224.

PMID: 30157705 PMC: 6144507. DOI: 10.1177/1744806918801224.

Disruption of nNOS-NOS1AP protein-protein interactions suppresses neuropathic pain in mice.

Lee W, Li L, Chawla A, Hudmon A, Lai Y, Courtney M Pain. 2018; 159(5):849-863.

PMID: 29319606 PMC: 6085107. DOI: 10.1097/j.pain.0000000000001152.

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