Alan R. Gintzler scite author profile

Sexually dimorphic nociception and opioid antinociception is very pervasive but poorly understood. We had demonstrated that spinal morphine antinociception in females, but not males, requires the concomitant activation of spinal μ-and κ-opioid receptors (MOR and KOR, respectively). This finding suggests an interrelationship between MOR and KOR in females that is not manifest in males. Here, we show that expression of a MOR/KOR heterodimer is vastly more prevalent in the spinal cord of proestrous vs. diestrous females and vs. males. Cross-linking experiments in combination with in vivo pharmacological analyses indicate that heterodimeric MOR/KOR utilizes spinal dynorphin 1-17 as a substrate and is likely to be the molecular transducer for the female-specific KOR component of spinal morphine antinociception. The activation of KOR within the heterodimeric MOR/KOR provides a mechanism for recruiting spinal KOR-mediated antinociception without activating the concomitant pronociceptive functions that monomeric KOR also subserves. Spinal cord MOR/KOR heterodimers represent a unique pharmacological target for female-specific pain control.estrous cycle | sexual dimorphism | sex steroids | signaling complexes | estrogen and progesterone S exual dimorphism in nociception and opioid antinociception has been extensively documented in humans (1-4) and laboratory animals (5-9). Nevertheless, underlying molecular mechanisms causally associated with sex-dependent nociception and opioid antinociception remain enigmatic. For example, there is little mechanistic understanding of why women are more likely than men to experience myriad chronic pain syndromes (1-3) as well as recurrent pain, more severe levels of pain, and pain of longer duration (10). Similarly, reports of more robust κ-opioid receptor (KOR) antinociception in females vs. males (11)(12)(13)(14) are not accompanied by compelling mechanistic rationales.In addition to proposed genetic contributions (15), the milieu of ovarian sex steroids is thought to contribute to sex-dependent nociception (5, 6) and opioid antinociception (5, 16). However, sex steroid molecular targets and their altered functionality that are relevant to sex-dependent nociception and opioid antinociception are not defined. This laboratory reported (17) that the antinociception produced by intrathecal (i.t.) morphine results from the sex-based differential recruitment of spinal analgesic components. In males, spinal morphine antinociception results from the exclusive activation of spinal μ-opioid receptor (MOR). In contrast, in females, spinal morphine antinociception requires the concomitant activation of spinal MOR and KOR (17). The most parsimonious explanation for this sex-dependent dichotomy would be the female-specific recruitment of spinal MOR/KOR heterodimers.We investigated the hypothesized sexually dimorphic expression in spinal cord of MOR/KOR heterodimers by comparing their presence in the spinal cord of male, proestrous and diestrous rats as well as rats subjected to ovariectomy. Here, ...

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Endorphin-Mediated Increases in Pain Threshold During Pregnancy

Gintzler

1980

Science

339

109

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Maternal pain thresholds in rats were determined during various stages of pregnancy and parturition by measuring the intensity of electric shock that elicited reflexive jumping. There was a gradual rise in the pain threshold between 16 and 4 days prior to parturition and a more abrupt rise 1 to 2 days before that event. This increase was abolished by long-term administration of the narcotic antagonist naltrexone. The endorphin system is thus an important component of intrinsic mechanisms that modulate responsiveness to aversive stimuli. The data also demonstrate the activation during pregnancy of an endorphin system that is apparently quiescent in nonpregnant female rats treated the same way.

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Spinal Synthesis of Estrogen and Concomitant Signaling by Membrane Estrogen Receptors Regulate Spinal κ- and μ-Opioid Receptor Heterodimerization and Female-Specific Spinal Morphine Antinociception

Liu¹,

Chakrabarti²,

Schnell³

et al. 2011

J. Neurosci.

106

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We previously demonstrated that the spinal cord κ-opioid receptor (KOR) and μ-opioid receptor (MOR) form heterodimers (KOR/MOR). KOR/MOR formation and the associated KOR dependency of spinal morphine antinociception are most robust during proestrus. Using Sprague Dawley rats, we now demonstrate that (1) spinal synthesis of estrogen is critical to these processes, and (2) blockade of either estrogen receptor (ER) α-, β-, or G-protein-coupled ER1 or progesterone receptor (PR) substantially reduces KOR/MOR and eliminates mediation by KOR of spinal morphine antinociception. Effects of blocking ERs were manifest within 15 min, whereas those of PR blockade were manifest after 18 h, indicating the requirement for rapid signaling by estrogen and transcriptional effects of progesterone. Individual or combined blockade of ERs produced the same magnitude of effect, suggesting that they work in tandem as part of a macromolecular complex to regulate KOR/MOR formation. Consistent with this inference, we found that KOR and MOR were coexpressed with ERα and G-protein-coupled ER1 in the spinal dorsal horn. Reduction of KOR/MOR by ER or PR blockade or spinal aromatase inhibition shifts spinal morphine antinociception from KOR dependent to KOR independent. This indicates a sex steroid-dependent plasticity of spinal KOR functionality, which could explain the greater analgesic potency of KOR agonists in women versus men. We suggest that KOR/MOR is a molecular switch that shifts the function of KOR and thereby endogenous dynorphin from pronociceptive to antinociceptive. KOR/MOR could thus serve as a novel molecular target for pain management in women.

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Biochemical demonstration of mu-opioid receptor association with Gsα: enhancement following morphine exposure

Chakrabarti

Regec

Gintzler

2005

Molecular Brain Research

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Alan R. Gintzler

Formation of μ-/κ-opioid receptor heterodimer is sex-dependent and mediates female-specific opioid analgesia

Endorphin-Mediated Increases in Pain Threshold During Pregnancy

Spinal Synthesis of Estrogen and Concomitant Signaling by Membrane Estrogen Receptors Regulate Spinal κ- and μ-Opioid Receptor Heterodimerization and Female-Specific Spinal Morphine Antinociception

Biochemical demonstration of mu-opioid receptor association with Gsα: enhancement following morphine exposure

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