Husam K. Mohammad scite author profile

Pain is the primary reason that people seek medical care. At present chronic unremitting pain is the third greatest health problem after heart disease and cancer. Chronic pain is an economic burden in lost wages, lost productivity, medical expenses, legal fees and compensation. Chronic pain is defined as a pain of greater than two months duration and can be of an inflammatory or neuropathic origin that can arise following nerve injury or in the absence of any apparent injury. Chronic pain is characterized by an altered pain perception that includes allodynia (a response to a normally nonnoxious stimuli), and hyperalgesia (an exaggerated response to a normally noxious stimuli). This type of pain is often insensitive to the traditional pain drugs or surgical intervention and thus the study of the cellular and molecular mechanisms that contribute to chronic pain are of the up-most importance for the development of a new generation of analgesic agents. Protein kinase C isozymes are under investigation as potential therapeutics for the treatment of chronic pain conditions. The anatomical localization of protein kinase C isozymes in both peripheral and central nervous system sites that process pain have made them the topic of basic science research for close to two decades. This review will outline the research to date on protein kinase C involvement in pain and analgesia. In addition, this review will try to synthesize these works to begin to develop a comprehensive mechanistic understanding of how protein kinase C may function as the master regulator of peripheral and central sensitization that underlies many chronic pain conditions.

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Enhanced Peripheral Analgesia Using Virally Mediated Gene Transfer of the μ-Opioid Receptor in Mice

Zhang

Mohammad

Peper

et al. 2008

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Overexpression of µ-Opioid Receptors in Peripheral Afferents, but Not in Combination with Enkephalin, Decreases Neuropathic Pain Behavior and Enhances Opioid Analgesia in Mouse

Klein

Mohammad

Ali

et al. 2018

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Background The current study used recombinant herpes simplex virus type I to increase expression of µ-opiate receptors and the opioid ligand preproenkephalin in peripheral nerve fibers in a mouse model of neuropathic pain. It was predicted that viral vector delivery of a combination of genes encoding the µ-opioid receptor and preproenkephalin would attenuate neuropathic pain and enhance opioid analgesia. The behavioral effects would be paralleled by changes in response properties of primary afferent neurons. Methods Recombinant herpes simplex virus type 1 containing cDNA sequences of the µ-opioid receptor, human preproenkephalin, a combination, or Escherichia coli lacZ gene marker (as a control) was used to investigate the role of peripheral opioids in neuropathic pain behaviors. Results Inoculation with the µ-opioid receptor viral vector (n = 13) reversed mechanical allodynia and thermal hyperalgesia and produced leftward shifts in loperamide (ED50 = 0.6 ± 0.2 mg/kg vs. ED50 = 0.9 ± 0.2 mg/kg for control group, n = 8, means ± SD) and morphine dose-response curves (ED50 = 0.3 ± 0.5 mg/kg vs. ED50 = 1.1 ± 0.1 mg/kg for control group). In µ-opioid receptor viral vector inoculated C-fibers, heat-evoked responses (n = 12) and ongoing spontaneous activity (n = 18) were decreased after morphine application. Inoculation with both µ-opioid receptor and preproenkephalin viral vectors did not alter mechanical and thermal responses. Conclusions Increasing primary afferent expression of opioid receptors can decrease neuropathic pain-associated behaviors and increase systemic opioid analgesia through inhibition of peripheral afferent fiber activity.

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Modulation of delta opioid receptor expression with herpes simplex viral vectors attenuates allodynia and hyperalgesia in a rodent model of neuropathic pain

Velázquez

Mohammad

Spears

et al. 2009

The Journal of Pain

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Husam K. Mohammad

Protein kinase C in pain: Involvement of multiple isoforms

Enhanced Peripheral Analgesia Using Virally Mediated Gene Transfer of the μ-Opioid Receptor in Mice

Overexpression of µ-Opioid Receptors in Peripheral Afferents, but Not in Combination with Enkephalin, Decreases Neuropathic Pain Behavior and Enhances Opioid Analgesia in Mouse

Modulation of delta opioid receptor expression with herpes simplex viral vectors attenuates allodynia and hyperalgesia in a rodent model of neuropathic pain

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