Differential impacts of exon 1-associated and exon 11-associated variants of the rat mu opioid receptor gene, Oprm1, on buprenorphine- and morphine-induced analgesia and respiratory depression in male rats

Abstract

Buprenorphine has long been recognized as a mu opioid agonist with a distinctive and intricate pharmacological profile. It is a partial agonist at the mu opioid receptor, an antagonist at the kappa and delta opioid receptors, and an agonist at the nociception opioid receptor. Similar to other mu agonists such as morphine and fentanyl, buprenorphine can produce side effects, including tolerance, physical dependence, respiratory depression, and addiction. The mu opioid receptor gene, OPRM1, undergoes extensive alternative splicing, generating an array of splice variants or isoforms, which are conserved from rodents to humans. These splice variants can be categorized into 2 main types, exon 1 (E1)-associated variants and exon 11 (E11)-associated variants. E1-associated variants primarily consist of full-length, 7-transmembrane C-terminal variants, whereas E11-associated variants are typically truncated 6-transmembrane variants. Previous studies established that buprenorphine analgesia in mice is dependent on both E1- and E11-associated variants. However, the role of these variants in buprenorphine analgesia and respiratory depression in rats remains unclear. In this study, we used CRISPR/Cas9 technology to develop 2 rat Oprm1 gene-targeting models in which E1- and E11-associated variants were selectively disrupted, aiming to investigate their roles in buprenorphine and morphine's actions. The results showed that both E1- and E11-associated variants are essential for buprenorphine's analgesic and respiratory depressional effects in rats, whereas morphine's effects are solely attributed to the E1-associated variants. These findings provide new and important insights into the distinct contributions of the E1- and E11-associated variants to the pharmacological actions of buprenorphine and morphine. SIGNIFICANCE STATEMENT: Differential dependences of buprenorphine and morphine analgesia and respiratory depression on Oprm1 exon 1- and exon 11-associated variants revealed in rat gene-targeting models provide new and important insights into unique contributions of these variants to buprenorphine and morphine actions.

Keywords: Alternative splicing; Analgesia; Buprenorphine; Morphine; Mu opioid receptor; Respiratory depression.