Clinically, Microtubule-targeted agents-induced neuropathic pain hampers chemotherapeutics for patients with cancer. Here, we found that application of paclitaxel or vincristine increased the protein and mRNA expression of CXCL12 and frequency and amplitude of miniature excitatory post synaptic currents (mEPSCs) in spinal dorsal horn neurons. Spinal local application of CXCL12 induced the long-term potentiation of nociceptive synaptic transmission and increased the amplitude of mEPSCs. Inhibition of CXCL12 using the transgenic mice (CXCL12) or neutralizing antibody or siRNA ameliorated the mEPSC's enhancement and mechanical allodynia. In addition, paclitaxel and vincristine both could increase the phosphorylation of signal transducer and activator of transcription 3 (STAT3) and the acetylation of histone H4 in the CXCL12-expressing neurons. Immunoprecipitation and chromatin immunoprecipitation assays demonstrated that antitubulin chemotherapeutics increased the binding of STAT3 to the CXCL12 gene promoter and the interaction between STAT3 and p300, and contributed to the enhanced transcription of CXCL12 by increasing the acetylation of histone H4 in CXCL12 gene promoter. Inhibition of STAT3 by intrathecal injection of adeno-associated virus encoding Cre and green fluorescent protein into STAT3 mice or inhibitor S3I-201 into rats suppressed the CXCL12 upsurge by decreasing the acetylation of histone H4. Finally, blockade of CXCR4 but not CXCR7 ameliorated the paclitaxel- or vincristine-induced mechanical allodynia. Together, these results suggested that enhanced interaction between STAT3 and p300 mediated the epigenetic upregulation of CXCL12 in dorsal horn neurons, which contributed to the antitubulin chemotherapeutics-induced persistent pain.
Key points
Spinal cord dorsal horn srGAP3 (slit‐robo GTPase activating protein 3) increases in the initiation phase of neuropathic pain and decreases in the maintenance phase. However, Rac1 activity, which can be reduced by srGAP3, decreases in the initiation phase and increases in the maintenance phase.
The increased srGAP3 in the initiation phase promotes new immature dendritic spines instigating neuropathic pain. Decreased srGAP3 in the maintenance phase enhances Rac1 activity facilitating maturation of dendritic spines and the persistence of neuropathic pain.
SrGAP3 small interfering RNA can ameliorate neuropathic pain only when administrated in the initiation phase. The Rac1 inhibitor can ameliorate neuropathic pain only when administrated in the maintenance phase.
Combined targeting of srGAP3 in the initiation phase and Rac1 in the maintenance phase can produce optimal analgesic efficacy.
Abstract
Neuropathic pain includes an initiation phase and maintenance phase, each with different pathophysiological processes. Understanding the synaptic plasticity and molecular events in these two phases is relevant to exploring precise treatment strategies for neuropathic pain. In the present study, we show that dendritic spine density increases in the spinal dorsal horn in the initiation phase of neuropathic pain induced by paclitaxel and that the spine maturity ratio increases in the maintenance phase. Increased srGAP3 (slit‐robo GTPase activating protein 3) facilitates dendritic spine sprouting in the initiation phase. In the maintenance phase, srGAP3 decreases to upregulate Rac1 activity, which facilitates actin polymerization and dendritic spine maturation and thus the persistence of neuropathic pain. Knockdown of srGAP3 in the initiation phase or inhibition of Rac1 in the maintenance phase attenuates neuropathic pain. Combined intervention of srGAP3 in the initiation phase, and Rac1 in the maintenance phase shows better analgesic efficacy against neuropathic pain. The present study demonstrates the role of srGAP3‐Rac1 in dendritic spine plasticity in the two phases of neuropathic pain and, accordingly, provides treatment strategies for different phases of neuropathic pain.
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