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 6

Tnfa is expressed in spinal microglia and upregulated after inflammation.

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Tnfa is expressed in spinal microglia and upregulated after inflammatio...
(A) A microglial cell is sucked into a glass pipette. Scale bar: 5 μm. (BD) Single-cell PCR analysis showing the expression of Tnfa, Iba1, and Gfap in 10 microglia, 5 astrocytes, and 5 neurons in lamina II of spinal cord slices. Note that 90% of microglia express Tnfa, and all microglia express Iba1 but not Gfap. Asterisks indicate positive bands. M, markers for DNA sizes; N, negative control; Gapdh, positive control. The cDNAs were amplified for 40 and 35 cycles in the first- and second-round PCR, respectively. The Tnfa cDNAs from astrocytes and neurons were amplified further for an additional 10 cycles (45 cycles in total) in the second-round PCR. (E) ELISA analysis showing TNF-α levels in the ipsilateral (Ipsi) and contralateral (Contra) dorsal horn of WT and Casp6–/– mice 30 minutes after the formalin injection. *P < 0.05, n = 6 mice.