Abstract
Neuropathic pain exerts a global burden caused by the lesions in the somatosensory nerve system, including the central and peripheral nervous systems. The mechanisms of nerve injury-induced neuropathic pain involve multiple mechanisms, various signaling pathways, and molecules. Currently, poor efficacy is the major limitation of medications for treating neuropathic pain. Thus, understanding the detailed molecular mechanisms should shed light on the development of new therapeutic strategies for neuropathic pain. Several well-established in vivo pain models were used to investigate the detail mechanisms of peripheral neuropathic pain. Molecular mediators of pain are regulated differentially in various forms of neuropathic pain models; these regulators include purinergic receptors, transient receptor potential receptor channels, and voltage-gated sodium and calcium channels. Meanwhile, post-translational modification and transcriptional regulation are also altered in these pain models and have been reported to mediate several pain related molecules. In this review, we focus on molecular mechanisms and mediators of neuropathic pain with their corresponding transcriptional regulation and post-translational modification underlying peripheral sensitization in the dorsal root ganglia. Taken together, these molecular mediators and their modification and regulations provide excellent targets for neuropathic pain treatment.
Highlights
Intraepidermal nerve fiber (IENF) density from the skin biopsy with immunohistochemistry staining of protein gene product 9.5 could be a standard and useful tool to estimate the degeneration of small-diameter sensory neurons in these neuropathic pain models [19]
These findings suggest that P2X3 is responsible for peripheral sensitization of neuropathic pain
In injury-induced neuropathic pain models, the expression levels of transient receptor potential vanilloid subtype 1 (TRPV1) were upregulated in spinal nerve ligation (SNL) and constriction injury (CCI) but downregulated in spared nerve injury (SNI) [56,64,65,66]
Summary
The prevalence of chronic pain with neuropathic characteristics has been reported to be over. In addition to the lesions in the central nervous system causing neuropathic pain, peripheral nerve degeneration (peripheral neuropathy) induces neuropathic pain by affecting small myelinated Aδ fibers and unmyelinated C fibers [4]. The small myelinated Aδ fibers and unmyelinated C nerve fibers are mainly affected in peripheral neuropathic pain syndromes. To investigate the detailed mechanisms of neuropathic pain, well-established in vivo models have been applied to mimic different etiologies of neuropathic pain such as the injury-induced and systemic exposure to neurotoxins. The molecules in DRG could be potential therapeutic targets in neuropathic pain.
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