mu opioids
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Biomolecules ◽  
2021 ◽  
Vol 11 (10) ◽  
pp. 1525
Author(s):  
Shan Liu ◽  
Wen-Jia Kang ◽  
Anna Abrimian ◽  
Jin Xu ◽  
Luca Cartegni ◽  
...  

Most opioid analgesics used clinically, including morphine and fentanyl, as well as the recreational drug heroin, act primarily through the mu opioid receptor, a class A Rhodopsin-like G protein-coupled receptor (GPCR). The single-copy mu opioid receptor gene, OPRM1, undergoes extensive alternative splicing, creating multiple splice variants or isoforms via a variety of alternative splicing events. These OPRM1 splice variants can be categorized into three major types based on the receptor structure: (1) full-length 7 transmembrane (TM) C-terminal variants; (2) truncated 6TM; and (3) single TM variants. Increasing evidence suggests that these OPRM1 splice variants are pharmacologically important in mediating the distinct actions of various mu opioids. More importantly, the OPRM1 variants can be targeted for development of novel opioid analgesics that are potent against multiple types of pain, but devoid of many side-effects associated with traditional opiates. In this review, we provide an overview of OPRM1 alternative splicing and its functional relevance in opioid pharmacology.


2020 ◽  
Vol 16 (10) ◽  
pp. 20200485 ◽  
Author(s):  
S. J. Charles ◽  
M. Farias ◽  
V. van Mulukom ◽  
A. Saraswati ◽  
S. Dein ◽  
...  

Religious rituals are universal human practices that play a seminal role in community bonding. In two experiments, we tested the role of mu-opioids as the active factor fostering social bonding. We used a mu-opioid blocker (naltrexone) in two double-blind studies of rituals from different religious traditions. We found the same effect across both studies, with naltrexone leading to significantly lower social bonding compared with placebo. These studies suggest that mu-opioids play a significant role in experiences of social bonding within ritual contexts.


2020 ◽  
Vol 40 (31) ◽  
pp. 5894-5907
Author(s):  
Benjamin K. Lau ◽  
Brittany P. Ambrose ◽  
Catherine S. Thomas ◽  
Min Qiao ◽  
Stephanie L. Borgland

Author(s):  
Benjamin K. Lau ◽  
Brittany P. Ambrose ◽  
Catherine S. Thomas ◽  
Min Qiao ◽  
Stephanie L. Borgland

AbstractThe orbitofrontal cortex (OFC) plays a critical role in evaluating outcomes in a changing environment. Administering opioids to the OFC can alter the hedonic reaction to food rewards and increase their consumption in a subregion specific manner. However, it is unknown how mu-opioid signalling influences synaptic transmission in the OFC. Thus, we investigated the cellular actions of mu-opioids within distinct subregions of the OFC. Using in-vitro patch clamp electrophysiology in brain slices containing the OFC, we found that the mu-opioid agonist, DAMGO produced a concentration-dependant inhibition of GABAergic synaptic transmission onto medial OFC (mOFC), but not lateral OFC (lOFC) neurons. This effect was mediated by presynaptic mu-opioid receptor activation of local parvalbumin (PV+)-expressing interneurons. The DAMGO-induced suppression of inhibition was long-lasting and not reversed upon washout of DAMGO, or by application of the mu-opioid receptor antagonist, CTAP, suggesting an inhibitory long-term depression (iLTD) induced by an exogenous mu-opioid. We show that LTD at inhibitory synapses is dependent on downstream cAMP/PKA signaling, which differs between the mOFC and lOFC. Finally, we demonstrate that endogenous opioid release triggered via moderate physiological stimulation can induce LTD. Taken together, these results suggest that presynaptic mu-opioid stimulation of local PV+ interneurons induces a long-lasting suppression of GABAergic synaptic transmission, which depends on subregional differences in mu-opioid receptor coupling to the downstream cAMP/PKA intracellular cascade. These findings provide mechanistic insight into the opposing functional effects produced by mu-opioids within the OFC.Significance StatementConsidering that both the OFC and the opioid system regulate reward, motivation, and food intake; understanding the role of opioid signaling within the OFC is fundamental for a mechanistic understanding of the sequelae for several psychiatric disorders. This study makes several novel observations. First, mu-opioids induce a long-lasting suppression of inhibitory synaptic transmission onto OFC pyramidal neurons in a regionally selective manner. Secondly, mu-opioids recruit PV+ inputs to suppress inhibitory synaptic transmission in the mOFC. Thirdly, the regional selectivity of mu-opioid action of endogenous opioids is due to the efficacy of mu-opioid receptor coupling to the downstream cAMP/PKA intracellular cascades. These experiments are the first to reveal a cellular mechanism of opioid action within the OFC.


2020 ◽  
Author(s):  
Sarah Jane Charles ◽  
Miguel Farias ◽  
Valerie van Mulukom ◽  
Ambikananda Saraswati ◽  
Simon Dein ◽  
...  

Religious rituals are universal human practices, generally practiced in groups. Social scientists have highlighted for over 100 years its role in bonding individuals, but the mechanisms underlying this function have yet to be explored. Here we tested the role of mu-opioids in fostering social bonding in rituals across two double-blind studies. For both studies a mu-opioid blocker (Naltrexone) was taken before the ritual and we assessed strength of social bonding before and after the ritual. Participants were randomly allocated into a placebo or Naltrexone condition. For study 1 (N = 9), we conducted a pilot, yoga-based ritual session in our lab. In study 2 (N = 24), we conducted a naturalistic field study with participants who regularly attended an Afro-Brazilian religious ritual. We found the same effect across both studies, where Naltrexone lead to significantly lower social bonding compared to placebo. These studies show that mu-opioids play a significant role in experiences of social bonding within ritual contexts.


2017 ◽  
Vol 8 ◽  
Author(s):  
Max Henning ◽  
Glenn R. Fox ◽  
Jonas Kaplan ◽  
Hanna Damasio ◽  
Antonio Damasio

2017 ◽  
Vol 7 (1) ◽  
Author(s):  
Adiel Mallik ◽  
Mona Lisa Chanda ◽  
Daniel J. Levitin
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