Development of a Novel Class for Opioid Drugs

Project: Research project

Project Details


DESCRIPTION (provided by applicant): The mu-opioid receptor (MOR) is the primary target for opioid analgesics. While opioids are the most frequently used and effective analgesics for the treatment of moderate to severe clinical pain, their prolonged use leads to reduced efficacy and a number of adverse side effects, including post dosing-induced hyperalgesia and analgesic tolerance. MOR induces analgesia through several mechanisms including the inhibition of second messenger pathways and modulation of ion channel activity. Nevertheless, the opposite, opioid induced cellular excitation, has also been demonstrated and proposed to mediate reductions in efficacy, tolerance, and opioid-induced hyperalgesia following the exposure to opioids. While an array of mechanisms has been advanced that contribute to these use-dependence changes in MOR-mediated effects, we have recently identified a novel mechanism underlying the shift in MOR signaling: a MOR splice variant encoding a functional 6 transmembrane (6TM) receptor. This 6TM isoform was identified in a study designed to determine the genetic basis for variability in sensitivity to exogenous opiates. Importantly, morphine exposure to cells overexpressing the 6TM receptor isoform leads to excitatory cellular effects rather than the classic inhibitory effects that are produced by stimulating the canonical 7TM MOR isoform. The discovery of this new alternative 6TM isoform, which evokes responses that oppose the biological effects of the major 7TM isoform, provides a unique opportunity to identify pharmacological probes that will further our understanding of the mechanisms that mediate the pharmacodynamic effects of opioids and will enable the future development of new opioid compounds that show 7TM agonist and/or 6TM antagonist properties providing high analgesic efficacy with a diminished ability to produce post dosing-induced hyperalgesia, analgesic tolerance, and unwanted physiological side effects. To take maximal advantage of this opportunity, an interdisciplinary investigative team with unique, but complementary, areas of expertise has been assembled to develop, validate and characterize the in silico models of the major 7TM and alternative 6TM receptor isoforms can be used to identity putative isoform selective compounds. The long-term goal of this effort is to develop novel opioids that evoke high potency analgesia without deleterious short- or long-term consequences.
Effective start/end date4/1/129/30/14


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