Shivani Patel scite author profile

Existing pharmacotherapies acting on the opioid receptor system have been extensively used to treat chronic pain and addictive disorders. Nevertheless, the adverse side effects associated with opioid therapy underscore the need for concerted measures to develop safer analgesics. A promising avenue of research stems from the characterization of a sodium-dependent allosteric regulation site housed within the delta-opioid receptor and several other G protein-coupled receptors (GPCRs), thereby revealing the presence of a cluster of sodium and water molecules lodged in a cavity thought to be present only in the inactive conformation of the receptor. Studies into the structure–function relationship of said pocket demonstrated its critical involvement in the functional control of GPCR signaling. While the sodium pocket has been proposed to be present in the majority of class A GPCRs, the shape of this allosteric cavity appears to have significant structural variation among crystallographically solved GPCRs, making this site optimal for the design of new allosteric modulators that will be selective for opioid receptors. The size of the sodium pocket supports the accommodation of small molecules, and it has been speculated that promiscuous amiloride and 5′-substituted amiloride-related derivatives could target this cavity within many GPCRs, including opioid receptors. Using pharmacological approaches, we have described the selectivities of 5′-substituted amiloride-related derivatives, as well as the hitherto undescribed activity of the NHE1 inhibitor zoniporide toward class A GPCRs. Our investigations into the structural features of the delta-opioid receptor and its ensuing signaling activities suggest a bitopic mode of overlapping interactions involving the orthosteric site and the juxtaposed Na + pocket, but only at the active or partially active opioid receptor.

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Development of a multifunctional toolkit of intrabody-based biosensors recognizing the V5 peptide tag: highlighting applications with G protein-coupled receptors

Zeghal

Matte

Venes

et al. 2023

Preprint

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Protein-protein interactions (PPIs) form the underpinnings of any cellular signaling network. PPIs are highly dynamic processes and often, cell-based assays can be essential for their study as they closely mimic the biological intricacies of cellular environments. Since no sole platform can perform all needed experiments to gain a thoroughly comprehensive understanding into these processes, developing a versatile toolkit is much needed to address this longstanding gap. The use of small peptide tags, such as the V5-tag, has been extensively used in biological and biomedical research, including labeling the C-termini of one of the largest human genome-wide open-reading frame collections. However, these small peptide tags have been primarily used in vitro and lack the in vivo traceability and functionality of larger specialized tags. In this study, we combined structural studies and computer-aided maturation to generate an intracellular nanobody, interacting with the V5-tag. Suitable for assays commonly used to study protein-protein interactions, our nanobody has been applied herein to interrogate G protein-coupled receptor signalling. This novel serviceable intrabody is the cornerstone of a multipurpose intracellular nanobody-based biosensors toolkit, named iBodyV5, which will be available for the scientific community at large.

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Development of a V5-tag–directed nanobody and its implementation as an intracellular biosensor of GPCR signaling

Zeghal

Matte

Venes

et al. 2023

Journal of Biological Chemistry

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Shivani Patel

Functional Characterization of Sodium Channel Inhibitors at the Delta-Opioid Receptor

Development of a multifunctional toolkit of intrabody-based biosensors recognizing the V5 peptide tag: highlighting applications with G protein-coupled receptors

Development of a V5-tag–directed nanobody and its implementation as an intracellular biosensor of GPCR signaling

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