Molecular Mechanisms of Opioid Receptor-dependent Signaling and Behavior

Al‐Hasani, Ream; Bruchas, Michael R.

doi:10.1097/aln.0b013e318238bba6

Cited by 770 publications

(540 citation statements)

References 187 publications

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“…The opioid system acts by modulating the ion channels of the neurons in the descending pathways of nociception. When activated, the opioid receptors inhibit the influx of Ca 2+ in the presynaptic fibers, reducing the release of neurotransmitters, while hyperpolarizing the postsynaptic fibers due to K + efflux [30]. TRPM8 is a major cold and cooling transduction channel in mammalian sensory neurons and it is strongly activated by the cool-mimetic chemical menthol and by physical cooling [20].…”

Section: Resultsmentioning

confidence: 99%

Involvement of Opioid System, TRPM8, and ASIC Receptors in Antinociceptive Effect of <em>Arrabidaea Brachypoda </em>(DC) Bureau

Rodrigues¹,

Rocha²,

Périco³

et al. 2017

Preprint

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Arrabidaea brachypoda (DC) Bureau is a medicinal plant found in Brazil. Known as "cipó-una", it is popularly used as a natural therapeutic agent against pain and inflammation. This study evaluated the chemical composition and antinociceptive activity of the dichloromethane fraction from the roots of A. brachypoda (DEAB) and its mechanism of action. The chemical composition was characterized by high-performance liquid chromatography, and this fraction is composed only of dimeric flavonoids. The antinociceptive effect was evaluated in formalin and hot plate tests after oral administration (10-100 mg/kg) in male Swiss mice. We also investigated the involvement of TRPV1 (transient receptor potential vanilloid 1), TRPA1 (transient receptor potential ankyrin 1), TRPM8 (transient receptor potential melastatin 8), and ASIC (acid-sensing ion channel), as well as the opioidergic, glutamatergic, and supraspinal pathways. Moreover, the nociceptive response was reduced (30 mg/kg) in the early and late phase of the formalin test. DEAB activity appears to involve the opioid system, TRPM8, and ASIC receptors, clearly showing that the DEAB alleviates acute pain in mice and suggesting the involvement of the TRPM8 and ASIC receptors and the opioid system in acute pain relief.

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Section: Resultsmentioning

confidence: 99%

Involvement of Opioid System, TRPM8, and ASIC Receptors in Antinociceptive Effect of <em>Arrabidaea Brachypoda </em>(DC) Bureau

Rodrigues¹,

Rocha²,

Périco³

et al. 2017

Preprint

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“…These responses are mainly mediated from Gi proteins by closing N-type voltageoperated calcium channels and opening calcium-dependent inwardly rectifying potassium channels, which result in hyperpolarization and reduction in neuronal excitability. Another mediated effect is the decrease of intracellular cAMP, which modulates the release of substance P, a nociceptive neurotransmitter [48].…”

Section: Nonsteroidal Anti-inflammatory Drugs (Nsaids) Opioids and Tmentioning

confidence: 99%

Analgesics Use in Dentistry

Krasniqi¹,

Daci²

2017

Pain Relief - From Analgesics to Alternative Therapies

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Pain is a protective warning sign activated by tissue damage during different pathological processes. The clinical manifestation of pain is individual, multifactorial and very complex and requires the implementation of sound pharmacological approaches. The treatment of odontogenic pain is focused not only in the relief of pain but also in the suppression of causes of pain, mainly the inflammation. Acting as inhibitors of pain mechanism, analgesics are used for symptomatic treatment of pain. There are several groups of analgesic drugs used in dentistry practice and most frequent are nonsteroidal anti-inflammatory drugs (NSAIDs) and aniline analgesics. The contemporary strategies for the treatment of odontogenic pain are focused in analgesic drug combinations, which are more effective and have a better safety profile. Ibuprofen and acetaminophen agents are considered gold standard of dental analgesia for mild to moderate intensity of pain, while in moderate to severe pain the use of individual opioid analgesics or combination of opioid and nonopioid analgesics is recommended. The treatment of pain in children and elderly patients is associated with some limitations accompanied with safety concerns and dose reduction. Treatment of pain in dentistry is focused in achieving the satisfactory level of analgesia at low doses possible.

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“…Following acute morphine administration, activation of opioid receptors results primarily in the inhibition of synaptic transmission, ultimately leading to the well-characterized analgesia induced by morphine. As a result of their G i /G o coupling, activation of opioid receptors by acute administration of morphine or other opiates leads to an inhibition of adenylyl cyclase activity (Duman et al, 1988;Taussig et al, 1993), and consequently to a decrease in cyclic AMP (cAMP) levels (Minneman and Iversen, 1976;Al-Hasani and Bruchas, 2011) and to decreased activity of protein kinase A (PKA). In addition, acute administration of morphine or other opiates results in diminished presynaptic Ca 2 þ conductance (Lovinger et al, 2003;Lovinger, 2010), increased K þ conductance, and hyperpolarization of the pre-and postsynaptic terminals (Faber and Sah 2004), along with an overall reduction in both neurotransmitter release and postsynaptic neurotransmitter signaling (Law et al, 2000).…”

Section: Morphine and Opioid Receptor Signalingmentioning

confidence: 99%

“…Currently, it is thought that the facilitated activity of AC, PKA, and cAMP in response to chronic morphine exposure, while representing a homeostatic compensatory mechanism (Nestler, 1996;Al-Hasani and Bruchas, 2011), may also contribute to the etiology of opiate addiction (Terwilliger et al, 1991;Nestler, 2001). This is thought to be because of changes in gene expression; chronic exposure to morphine has been shown to induce the activity of a number of transcription factors.…”

Section: Morphine and Opioid Receptor Signalingmentioning

confidence: 99%

An Integrated Quantitative Proteomics and Systems Biology Approach to Explore Synaptic Protein Profile Changes During Morphine Exposure

Stockton

Devi

2013

Neuropsychopharmacol

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Morphine is a classic analgesic for the treatment of chronic pain. However, its repeated use is known to produce tolerance, physical dependence, and addiction; these properties limit its long-term therapeutic use and this has led to a quest for therapeutics without these unwanted side effects. Understanding the molecular changes in response to long-term use of morphine is likely to aid in the development of novel therapeutics for the treatment of pain. Studies examining the effects of chronic morphine administration have reported alterations in gene expression, synapse morphology, and synaptic transmission implying changes in synaptic protein profile. To fully understand the changes in protein profiles, proteomic techniques have been used. Studies using two-dimensional gel electrophoresis of various brain regions combined with mass spectrometry have found alterations in the levels of a number of proteins. However, neither the changes in brain regions relevant to morphine effects nor changes in the abundance of synaptic proteins have been clearly delineated. Recent studies employing subcellular fractionation to isolate the striatal synapse, combined with quantitative proteomics and graph theoryinspired network analyses, have begun to quantify morphine-regulated changes in synaptic proteins and facilitate the generation of networks that could serve as targets for the development of novel therapeutics for the treatment of chronic pain. Thus, an integrated quantitative proteomics and systems biology approach can be useful to identify novel targets for the treatment of pain and other disorders of the brain.

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Molecular Mechanisms of Opioid Receptor-dependent Signaling and Behavior

Cited by 770 publications

References 187 publications

Involvement of Opioid System, TRPM8, and ASIC Receptors in Antinociceptive Effect of <em>Arrabidaea Brachypoda </em>(DC) Bureau

Involvement of Opioid System, TRPM8, and ASIC Receptors in Antinociceptive Effect of <em>Arrabidaea Brachypoda </em>(DC) Bureau

Analgesics Use in Dentistry

An Integrated Quantitative Proteomics and Systems Biology Approach to Explore Synaptic Protein Profile Changes During Morphine Exposure

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