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Proceedings of the National Academy of Sciences of the United States of America
|
November 7, 1995
Ultra-low concentrations of naloxone selectively antagonize excitatory effects of morphine on sensory neurons, thereby increasing its antinociceptive potency and attenuating tolerance/dependence during chronic cotreatment
S M Crain, K F Shen
Brain Research
|
November 2, 2001
Cholera toxin-B subunit blocks excitatory opioid receptor-mediated hyperalgesic effects in mice, thereby unmasking potent opioid analgesia and attenuating opioid tolerance/dependence
K F Shen, S M Crain
Brain Research
|
August 20, 1990
Cholera toxin-A subunit blocks opioid excitatory effects on sensory neuron action potentials indicating mediation by Gs-linked opioid receptors
K F Shen, S M Crain
Neurochemical Research
|
November 1, 1996
Modulatory effects of Gs-coupled excitatory opioid receptor functions on opioid analgesia, tolerance, and dependence
S M Crain, K F Shen
Brain Research
|
October 2, 1995
Chronic morphine-treated sensory ganglion neurons remain supersensitive to the excitatory effects of naloxone for months after return to normal culture medium: an in vitro model of 'protracted opioid dependence'
S M Crain, K F Shen
Neuropharmacology
|
April 1, 1990
Dynorphin prolongs the action potential of mouse sensory ganglion neurons by decreasing a potassium conductance whereas another specific kappa opioid does so by increasing a calcium conductance
K F Shen, S M Crain
Brain Research
|
November 27, 1992
Chronic selective activation of excitatory opioid receptor functions in sensory neurons results in opioid 'dependence' without tolerance
K F Shen, S M Crain
Brain Research
|
March 13, 1992
After chronic opioid exposure sensory neurons become supersensitive to the excitatory effects of opioid agonists and antagonists as occurs after acute elevation of GM1 ganglioside
S M Crain, K F Shen
Brain Research
|
February 27, 1995
Specific N- or C-terminus modified dynorphin and beta-endorphin peptides can selectively block excitatory opioid receptor functions in sensory neurons and unmask potent inhibitory effects of opioid agonists
K F Shen, S M Crain
The Journal of Neuroscience : the Official Journal of the Society for Neuroscience
|
September 1, 1994
Nerve growth factor rapidly prolongs the action potential of mature sensory ganglion neurons in culture, and this effect requires activation of Gs-coupled excitatory kappa-opioid receptors on these cells
K F Shen, S M Crain
Page
of 6
Search research articles
Search
Showing results (11-20 of 55) with videos related to
Sort By:
Page
of 6
Proceedings of the National Academy of Sciences of the United States of America
|
November 7, 1995
Ultra-low concentrations of naloxone selectively antagonize excitatory effects of morphine on sensory neurons, thereby increasing its antinociceptive potency and attenuating tolerance/dependence during chronic cotreatment
S M Crain, K F Shen
Brain Research
|
November 2, 2001
Cholera toxin-B subunit blocks excitatory opioid receptor-mediated hyperalgesic effects in mice, thereby unmasking potent opioid analgesia and attenuating opioid tolerance/dependence
K F Shen, S M Crain
Brain Research
|
August 20, 1990
Cholera toxin-A subunit blocks opioid excitatory effects on sensory neuron action potentials indicating mediation by Gs-linked opioid receptors
K F Shen, S M Crain
Neurochemical Research
|
November 1, 1996
Modulatory effects of Gs-coupled excitatory opioid receptor functions on opioid analgesia, tolerance, and dependence
S M Crain, K F Shen
Brain Research
|
October 2, 1995
Chronic morphine-treated sensory ganglion neurons remain supersensitive to the excitatory effects of naloxone for months after return to normal culture medium: an in vitro model of 'protracted opioid dependence'
S M Crain, K F Shen
Neuropharmacology
|
April 1, 1990
Dynorphin prolongs the action potential of mouse sensory ganglion neurons by decreasing a potassium conductance whereas another specific kappa opioid does so by increasing a calcium conductance
K F Shen, S M Crain
Brain Research
|
November 27, 1992
Chronic selective activation of excitatory opioid receptor functions in sensory neurons results in opioid 'dependence' without tolerance
K F Shen, S M Crain
Brain Research
|
March 13, 1992
After chronic opioid exposure sensory neurons become supersensitive to the excitatory effects of opioid agonists and antagonists as occurs after acute elevation of GM1 ganglioside
S M Crain, K F Shen
Brain Research
|
February 27, 1995
Specific N- or C-terminus modified dynorphin and beta-endorphin peptides can selectively block excitatory opioid receptor functions in sensory neurons and unmask potent inhibitory effects of opioid agonists
K F Shen, S M Crain
The Journal of Neuroscience : the Official Journal of the Society for Neuroscience
|
September 1, 1994
Nerve growth factor rapidly prolongs the action potential of mature sensory ganglion neurons in culture, and this effect requires activation of Gs-coupled excitatory kappa-opioid receptors on these cells
K F Shen, S M Crain
Page
of 6