Abstract
It is well known that interferons (IFNs), such as type-I IFN (IFN-α) and type-II IFN (IFN-γ) are produced by immune cells to elicit antiviral effects. IFNs are also produced by glial cells in the CNS to regulate brain functions. As a proinflammatory cytokine, IFN-γ drives neuropathic pain by inducing microglial activation in the spinal cord. However, little is known about the role of IFN-α in regulating pain sensitivity and synaptic transmission. Strikingly, we found that IFN-α/β receptor (type-I IFN receptor) was expressed by primary afferent terminals in the superficial dorsal horn that co-expressed the neuropeptide CGRP. In the spinal cord IFN-α was primarily expressed by astrocytes. Perfusion of spinal cord slices with IFN-α suppressed excitatory synaptic transmission by reducing the frequency of spontaneous excitatory postsynaptic current (sEPSCs). IFN-α also inhibited nociceptive transmission by reducing capsaicin-induced internalization of NK-1 and phosphorylation of extracellular signal-regulated kinase (ERK) in superficial dorsal horn neurons. Finally, spinal (intrathecal) administration of IFN-α reduced inflammatory pain and increased pain threshold in naïve rats, whereas removal of endogenous IFN-α by a neutralizing antibody induced hyperalgesia. Our findings suggest a new form of neuronal-glial interaction by which IFN-α, produced by astrocytes, inhibits nociceptive transmission in the spinal cord.
Highlights
Recent progress in pain research has demonstrated a critical role of glial cells such as microglia and astrocytes in the pathogenesis of pain via producing inflammatory mediators to mediate neuronal-glial interactions in the spinal cord and supraspinal region[11,12,13,14,15,16,17,18]
We investigated the expression of IFN-αand its type-I IFN receptor (IFN-α/βR) in the spinal cord and explored the role of IFN-αin modulating nociceptive synaptic transmission in the spinal cord
To determine the role of spinal IFN-αin pain modulation, we first investigated the expression of type-I IFN receptor (IFN-α/βR) in the spinal cord
Summary
Recent progress in pain research has demonstrated a critical role of glial cells such as microglia and astrocytes in the pathogenesis of pain via producing inflammatory mediators to mediate neuronal-glial interactions in the spinal cord and supraspinal region[11,12,13,14,15,16,17,18]. Several lines of evidence indicate that IFN-γmight mediate neuronal-glial interactions in the spinal cord in neuropathic pain. IFN-γis produced by spinal cord astrocytes, microglia and infiltrating T cells[8,19]. IFN-γcan directly increase excitatory synaptic transmission in the spinal cord[21]. In contrast to well-documented pronociceptive role of IFN-γ,it is virtually unknown whether and how IFN-αregulates pain sensitivity in the spinal cord. Our data showed that IFN-αacts as an endogenous pain suppressor via a novel form of neuronal-glial interaction
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