Extracellular caspase-6 drives murine inflammatory pain via microglial TNF-α secretion
Temugin Berta, … , Yen-Chin Liu, Ru-Rong Ji
Temugin Berta, … , Yen-Chin Liu, Ru-Rong Ji
Published February 17, 2014
Citation Information: J Clin Invest. 2014;124(3):1173-1186. https://doi.org/10.1172/JCI72230.
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Research Article Neuroscience

Extracellular caspase-6 drives murine inflammatory pain via microglial TNF-α secretion

Abstract

Increasing evidence indicates that the pathogenesis of neuropathic pain is mediated through spinal cord microglia activation. The intracellular protease caspase-6 (CASP6) is known to regulate neuronal apoptosis and axonal degeneration; however, the contribution of microglia and CASP6 in modulating synaptic transmission and pain is unclear. Here, we found that CASP6 is expressed specifically in C-fiber axonal terminals in the superficial spinal cord dorsal horn. Animals exposed to intraplantar formalin or bradykinin injection exhibited CASP6 activation in the dorsal horn. Casp6-null mice had normal baseline pain, but impaired inflammatory pain responses. Furthermore, formalin-induced second-phase pain was suppressed by spinal injection of CASP6 inhibitor or CASP6-neutralizing antibody, as well as perisciatic nerve injection of CASP6 siRNA. Recombinant CASP6 (rCASP6) induced marked TNF-α release in microglial cultures, and most microglia within the spinal cord expressed Tnfa. Spinal injection of rCASP6 elicited TNF-α production and microglia-dependent pain hypersensitivity. Evaluation of excitatory postsynaptic currents (EPSCs) revealed that rCASP6 rapidly increased synaptic transmission in spinal cord slices via TNF-α release. Interestingly, the microglial inhibitor minocycline suppressed rCASP6 but not TNF-α–induced synaptic potentiation. Finally, rCASP6-activated microglial culture medium increased EPSCs in spinal cord slices via TNF-α. Together, these data suggest that CASP6 released from axonal terminals regulates microglial TNF-α secretion, synaptic plasticity, and inflammatory pain.

Authors

Temugin Berta, Chul-Kyu Park, Zhen-Zhong Xu, Ruo-Gang Xie, Tong Liu, Ning Lü, Yen-Chin Liu, Ru-Rong Ji

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Figure 2

Upregulation of CASP6 in the spinal cord and CSF after acute inflammation.

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Upregulation of CASP6 in the spinal cord and CSF after acute inflammatio...
(A) Double staining of CASP6 and CGRP in the ipsilateral and contralateral dorsal horn 30 minutes after formalin injection. Scale bar: 100 μm. (B) Triple staining of CASP6, CGRP, and CX3CR1 (GFP) in the ipsilateral dorsal horn 30 minutes after formalin injection. Note close contacts between CASP/CGRP-expressing axonal terminals and microglial cell body and processes. Scale bar: 10 μm. (C and D) Western blot analysis showing the bands of active CASP6 (aCASP6, ≈20 and 10 kDa) 30 minutes after the formalin (5%) injection and 15 minutes after bradykinin (300 ng) injection. (D) Intensity of aCASP6 bands. *P < 0.05, n = 3–4 mice. (E and F) Western blotting analysis showing increase of aCASP6 in the CSF. The positive control band of rCASP6 is indicated. (F) Intensity of aCASP6 bands. *P < 0.05, n = 5 rats.