Mary I. McIntosh scite author profile

AimsTest the putative contribution of 17-β-estradiol in the development of spreading depression (SD) events and head pain in awake, non-restrained rats.Main MethodsFemale, Sprague-Dawley rats were intact or underwent ovariectomy followed one week later by surgery to place electrodes onto the dura to detect epidural electroencephalographic activity (dEEG). dEEG activity was recorded two days later for 12 hours after systemic administration of 17-β-estradiol (180 μg/kg, i.p.). A separate set of rats were observed for changes in exploratory, ambulatory, fine, and rearing behaviors; periorbital allodynia was also assessed.Key FindingsA bolus of 17-β-estradiol significantly elevated serum estrogen levels, increased SD episodes over a 12-hour recording period and decreased rearing behaviors in ovariectomized rats. Pre-administration of ICI 182,780, an estrogen receptor antagonist, blocked 17-β-estradiol-evoked SD events and pain behaviors; similar results were observed when the antimigraine therapeutic sumatriptan was used.SignificanceThese data indicate that an estrogen receptor-mediated mechanism contributes to SD events in ovariectomized rats and pain behaviors in both ovariectomized -and intact- rats. This suggests that estrogen plays a different role in each phenomenon of migraine where intense fluctuations in concentration may influence SD susceptibility. This is the first study to relate estrogen peaks to SD development and pain behaviors in awake, freely moving female rats, establishing a framework for future preclinical migraine studies.

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Genetic and pharmacological antagonism of NK1 receptor prevents opiate abuse potential

Sandweiss

McIntosh

Moutal

et al. 2017

Mol Psychiatry

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Development of an efficacious, non-addicting analgesic has been challenging. Discovery of novel mechanisms underlying addiction may present a solution. Here, we target the neurokinin system, which is involved in both pain and addiction. Morphine exerts its rewarding actions, at least in part, by inhibiting GABAergic input onto substance P (SP) neurons in the ventral tegmental area (VTA), subsequently increasing SP release onto dopaminergic neurons. Genome editing of the neurokinin 1 receptor (NK1R) in the VTA renders morphine non-rewarding. Complementing our genetic approach, we demonstrate utility of a bivalent pharmacophore with dual activity as a μ/δ opioid agonist and NK1R antagonist in inhibiting nociception in an animal model of acute pain while lacking any positive reinforcement. These data indicate that dual targeting of the dopaminergic reward circuitry and pain pathways with a multifunctional opioid agonist-NK1R antagonist may be an efficacious strategy in developing future analgesics that lack abuse potential.

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Synthesis and Investigation of Mixed μ‐Opioid and δ‐Opioid Agonists as Possible Bivalent Ligands for Treatment of Pain

Vardanyan

Cain

Haghighi

et al. 2016

Journal of Heterocyclic Chem

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Several studies have suggested functional association between μ-opioid and δ-opioid receptors and showed that μ-activity could be modulated by δ-ligands. The general conclusion is that agonists for the δ-receptor can enhance the analgesic potency and efficacy of μ-agonists. Our preliminary investigations demonstrate that new bivalent ligands constructed from the μ-agonist fentanyl and the δ-agonist enkephalin-like peptides are promising entities for creation of new analgesics with reduced side effects for treatment of neuropathic pain. A new superposition of the mentioned pharmacophores led to novel μ-bivalent/δ-bivalent compounds that demonstrate both μ-opioid and δ-opioid receptor agonist activity and high efficacy in anti-inflammatory and neuropathic pain models with the potential of reduced unwanted side effects.

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Structure–Activity Relationships of [des-Arg⁷]Dynorphin A Analogues at the κ Opioid Receptor

et al. 2016

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Dynorphin A (Dyn A) is an endogenous ligand for the opioid receptors with preference for the κ opioid receptor (KOR), and its structure–activity relationship (SAR) has been extensively studied at the KOR to develop selective potent agonists and antagonists. Numerous SAR studies have revealed that the Arg7 residue is essential for KOR activity. In contrast, our systematic SAR studies on [des-Arg7]Dyn A analogues found that Arg7 is not a key residue and even deletion of the residue does not affect biological activities at the KOR. In addition, it was also found that [des-Arg7]Dyn A-(1–9)-NH2 is a minimum pharmacophore and its modification at the N-terminus leads to selective KOR antagonists. A lead ligand, 14, with high affinity and antagonist activity showed improved metabolic stability and could block antinociceptive effects of a KOR selective agonist, FE200665, in vivo, indicating high potential to treat KOR mediated disorders such as stress-induced relapse.

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Mary I. McIntosh

A Kappa Opioid Receptor Agonist Blocks Bone Cancer Pain Without Altering Bone Loss, Tumor Size, or Cancer Cell Proliferation in a Mouse Model of Cancer-Induced Bone Pain

17-β-Estradiol induces spreading depression and pain behavior in alert female rats

Genetic and pharmacological antagonism of NK1 receptor prevents opiate abuse potential

Synthesis and Investigation of Mixed μ‐Opioid and δ‐Opioid Agonists as Possible Bivalent Ligands for Treatment of Pain

Structure–Activity Relationships of [des-Arg⁷]Dynorphin A Analogues at the κ Opioid Receptor

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Mary I. McIntosh

A Kappa Opioid Receptor Agonist Blocks Bone Cancer Pain Without Altering Bone Loss, Tumor Size, or Cancer Cell Proliferation in a Mouse Model of Cancer-Induced Bone Pain

17-β-Estradiol induces spreading depression and pain behavior in alert female rats

Genetic and pharmacological antagonism of NK1 receptor prevents opiate abuse potential

Synthesis and Investigation of Mixed μ‐Opioid and δ‐Opioid Agonists as Possible Bivalent Ligands for Treatment of Pain

Structure–Activity Relationships of [des-Arg7]Dynorphin A Analogues at the κ Opioid Receptor

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Structure–Activity Relationships of [des-Arg⁷]Dynorphin A Analogues at the κ Opioid Receptor