Experimental neurology
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Experimental neurology · Apr 2012
ReviewImmune responses of microglia in the spinal cord: contribution to pain states.
The role of microglia and their contribution to the development and maintenance of pain states has emerged as an attractive field of study. Sensitization of central nociceptors and interneurons is thought to be responsible for the symptoms of chronic neuropathic pain states. Microglia interact with these neurons at the site of injury or disease as well as remotely. ⋯ Activated microglia also exhibit a modulated cell surface receptor and ion channel profile. The activation of several intracellular pathways in microglia has also been implicated in pain states. Attenuation of microglia activity is being presented as a viable therapeutic approach with regard to not only the reduction of pain symptoms but also in preventing the development of chronic pain states.
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Experimental neurology · Apr 2012
ReviewSpatial and temporal activation of spinal glial cells: role of gliopathy in central neuropathic pain following spinal cord injury in rats.
In the spinal cord, neuron and glial cells actively interact and contribute to neurofunction. Surprisingly, both cell types have similar receptors, transporters and ion channels and also produce similar neurotransmitters and cytokines. The neuroanatomical and neurochemical similarities work synergistically to maintain physiological homeostasis in the normal spinal cord. ⋯ In this review, we describe time and regional dependence of glial activation and describe activation mechanisms in various SCI models in rats. These data are placed in the broader context of glial activation mechanisms and chronic pain states. Our work in the context of work by others in SCI models demonstrates that dysfunctional glia, a condition called "gliopathy", is a key contributor in the underlying cellular mechanisms contributing to neuropathic pain.
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Experimental neurology · Apr 2012
ReviewThe mechanisms of microgliosis and pain following peripheral nerve injury.
Microglia are the resident macrophages in the central nervous system (CNS). Any insult to the CNS homeostasis will induce a rapid change in microglia morphology, gene expression profile and functional behaviour. These responses of microglia have been collectively known as 'microgliosis'. ⋯ It should also be noted that in certain contexts microglia may have a role in the resolution of neuro-inflammation. Although there is still no direct evidence demonstrating that spinal microglia have a role in neuropathic pain in humans, these patients present a pro-inflammatory cytokine profile and it is a reasonable hypothesis that these cells may contribute to this inflammatory response. Modulating microglial functions offers a novel therapeutic opportunity following nerve injury which ideally would involve reducing the pro-inflammatory nature of these cells whilst retaining their potential beneficial functions.
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Experimental neurology · Apr 2012
ReviewATP receptors gate microglia signaling in neuropathic pain.
Microglia were described by Pio del Rio-Hortega (1932) as being the 'third element' distinct from neurons and astrocytes. Decades after this observation, the function and even the very existence of microglia as a distinct cell type were topics of intense debate and conjecture. However, considerable advances have been made towards understanding the neurobiology of microglia resulting in a radical shift in our view of them as being passive bystanders that have solely immune and supportive roles, to being active principal players that contribute to central nervous system pathologies caused by disease or following injury. ⋯ Microglia express several P2 receptor subtypes, and of these the P2X4, P2X7, and P2Y12 receptor subtypes have been implicated in neuropathic pain. The P2X4 receptor has emerged as the core microglia-neuron signaling pathway: activation of this receptor causes release of brain-derived neurotrophic factor (BDNF) which causes disinhibition of pain-transmission neurons in spinal lamina I. The present review highlights recent advances in understanding the signaling and regulation of P2 receptors expressed in microglia and the implications for microglia-neuron interactions for the management of neuropathic pain.
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Experimental neurology · Apr 2012
ReviewPurinergic systems, neuropathic pain and the role of microglia.
We have learned various data on the role of purinoceptors (P2X4, P2X7, P2Y6 and P2Y12) expressed in spinal microglia and several factors that presumably activate microglia in neuropathic pain after peripheral nerve injury. Purinergic receptor-mediated spinal microglial functions make a critical contribution to pathologically enhanced pain processing in the dorsal horn. Microglial purinoceptors might be promising targets for treating neuropathic pain. A predicted therapeutic benefit of interfering with microglial purinergic receptors may be that normal pain sensitivity would be unaffected since expression or activity of most of these receptors are upregulated or enhanced predominantly in activated microglia in the spinal cord where damaged sensory fibers project.