2008
DOI: 10.1523/jneurosci.4123-08.2008
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Sex Differences in μ-Opioid Receptor Expression in the Rat Midbrain Periaqueductal Gray Are Essential for Eliciting Sex Differences in Morphine Analgesia

Abstract: Opioid-based narcotics are the most widely prescribed therapeutic agent for the alleviation of persistent pain; however, it is becoming increasingly clear that morphine is significantly less potent in women compared with men. Morphine primarily binds to -opioid receptors (MORs), and the periaqueductal gray (PAG) contains a dense population of MOR-expressing neurons. Via its descending projections to the rostral ventromedial medulla and the dorsal horn of the spinal cord, the PAG is considered an essential neur… Show more

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Cited by 164 publications
(158 citation statements)
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“…The male-specific enhanced utilization of the spinal EM2/ MOR-coupled system during opioid withdrawal is consistent with other reports of MOR-related sexual dimorphism, e.g., 1) greater antinociceptive responsiveness to morphine of male versus female rats (Cicero et al, 1996(Cicero et al, , 1997Wang et al, 2006;Loyd et al, 2008), 2) greater K ϩ -induced release of EM2 from spinal cord of male versus female rats (Gupta et al, 2007), 3) exclusive mediation of spinal morphine antinociception by spinal MOR in males but KOR as well as MOR in females (Liu et al, 2007), and 4) the almost 5-fold greater expression of MOR heterodimerized with KOR in the spinal cord of females than males (Chakrabarti et al, 2010). All suggest the predominance and perhaps the exclusivity of MOR-mediated events in males versus the importance in females of alternative opioid systems, alone or in combination with MOR.…”
Section: Discussionsupporting
confidence: 89%
“…The male-specific enhanced utilization of the spinal EM2/ MOR-coupled system during opioid withdrawal is consistent with other reports of MOR-related sexual dimorphism, e.g., 1) greater antinociceptive responsiveness to morphine of male versus female rats (Cicero et al, 1996(Cicero et al, , 1997Wang et al, 2006;Loyd et al, 2008), 2) greater K ϩ -induced release of EM2 from spinal cord of male versus female rats (Gupta et al, 2007), 3) exclusive mediation of spinal morphine antinociception by spinal MOR in males but KOR as well as MOR in females (Liu et al, 2007), and 4) the almost 5-fold greater expression of MOR heterodimerized with KOR in the spinal cord of females than males (Chakrabarti et al, 2010). All suggest the predominance and perhaps the exclusivity of MOR-mediated events in males versus the importance in females of alternative opioid systems, alone or in combination with MOR.…”
Section: Discussionsupporting
confidence: 89%
“…In addition, other systems involved in pain modulation have sex differences. For example, male rats have a higher level of MOPR in the ventrolateral PAG compared with cycling females (Loyd et al, 2008). The higher levels of MOPR and KOPR in the PAG suggest higher endogenous opioid tone in males.…”
Section: Discussionmentioning
confidence: 98%
“…Brains from six male and six female prairie voles were collected and prepared for MOR autoradiography using H(N)]-DAMGO ([3H]DAMGO) (PerkinElmer, MA) and analyzed as described previously (Loyd et al, 2008). Noncompetitive binding to brain slices was measured using [3H]DAMGO alone.…”
Section: Mor Autoradiographymentioning
confidence: 99%