Dual action of neurokinin-1 antagonists on Mas-related GPCRs
Ehsan Azimi, Vemuri B. Reddy, Kai-Ting C. Shade, Robert M. Anthony, Sebastien Talbot, Paula Juliana Seadi Pereira, Ethan A. Lerner
Ehsan Azimi, Vemuri B. Reddy, Kai-Ting C. Shade, Robert M. Anthony, Sebastien Talbot, Paula Juliana Seadi Pereira, Ethan A. Lerner
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Research Article Dermatology Inflammation

Dual action of neurokinin-1 antagonists on Mas-related GPCRs

Abstract

The challenge of translating findings from animal models to the clinic is well known. An example of this challenge is the striking effectiveness of neurokinin-1 receptor (NK-1R) antagonists in mouse models of inflammation coupled with their equally striking failure in clinical investigations in humans. Here, we provide an explanation for this dichotomy: Mas-related GPCRs (Mrgprs) mediate some aspects of inflammation that had been considered mediated by NK-1R. In support of this explanation, we show that conventional NK-1R antagonists have off-target activity on the mouse receptor MrgprB2 but not on the homologous human receptor MRGPRX2. An unrelated tripeptide NK-1R antagonist has dual activity on MRGPRX2. This tripeptide both suppresses itch in mice and inhibits degranulation from the LAD-2 human mast cell line elicited by basic secretagogue activation of MRGPRX2. Antagonists of Mrgprs may fill the void left by the failure of NK-1R antagonists.

Authors

Ehsan Azimi, Vemuri B. Reddy, Kai-Ting C. Shade, Robert M. Anthony, Sebastien Talbot, Paula Juliana Seadi Pereira, Ethan A. Lerner

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Figure 2

NK-1R antagonists are selective antagonists of mouse and human Mrgprs.

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NK-1R antagonists are selective antagonists of mouse and human Mrgprs. L...
L733060 (top row) and aprepitant (middle row) inhibit substance P–induced (SP-induced) activation of NK-1R and mouse MrgprB2 but do not inhibit human MRGPRX2 and mouse MrgprA1. QWF (bottom row) inhibits SP-induced activation of human MRGPRX2, mouse MrgprB2, and mouse MrgprA1. HeLa cells were transfected with cDNAs encoding NK-1R, mouse MrgprB2, and mouse MrgprA1. A stably transfected HEK293 cell line was used for human MRGPRX2. Intracellular calcium ([Ca2+]i) was determined by ratiometric Fura-2 imaging after addition of SP and antagonists. The concentration of SP for each receptor is based on the EC50s (Figure 1). The concentrations of the antagonists are used to balance out the concentration of SP. Each trace is a response from a different cell, and studies in each panel were performed at least twice.