Resolvin D5 Inhibits Neuropathic and Inflammatory Pain in Male But Not Female Mice: Distinct Actions of D-Series Resolvins in Chemotherapy-Induced Peripheral Neuropathy.
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2019-01
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Abstract
Earlier studies have demonstrated that essential fatty acid-derived specialized pro-resolving mediators (SPMs) promote the resolution of inflammation and pain. However, the potential analgesic actions of SPMs in chemotherapy-induced peripheral neuropathy (CIPN) are not known. Recent results also showed sex dimorphism in immune cell signaling in neuropathic pain. Here, we evaluated the analgesic actions of D-series resolvins (RvD1, RvD2, RvD3, RvD4, and RvD5) on a CIPN in male and female mice. Paclitaxel (PTX, 2 mg/kg), given on days 0, 2, 4, and 6, produced robust mechanical allodynia in both sexes at 2 weeks. Intrathecal injection of RvD1 and RvD2 (100 ng, i.t.) at 2 weeks reversed PTX-induced mechanical allodynia in both sexes, whereas RvD3 and RvD4 (100 ng, i.t.) had no apparent effects on either sex. Interestingly, RvD5 (100 ng, i.t.) only reduced mechanical allodynia in male mice but not in female mice. Notably, PTX-induced mechanical allodynia was fully developed in Trpv1 or Trpa1 knockout mice, showing no sex differences. Also, intrathecal RvD5 reduced mechanical allodynia in male mice lacking Trpv1 or Trpa1, whereas female mice with Trpv1 or Trpa1 deficiency had no response to RvD5. Finally, RvD5-induced male-specific analgesia was also confirmed in an inflammatory pain condition. Formalin-induced second phase pain (licking and flinching) was reduced by intrathecal RvD5 in male but not female mice. These findings identified RvD5 as the first SPM that shows sex dimorphism in pain regulation. Moreover, these results suggest that specific resolvins may be used to treat CIPN, a rising health concern in cancer survivors.
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Luo, Xin, Yun Gu, Xueshu Tao, Charles Nicholas Serhan and Ru-Rong Ji (2019). Resolvin D5 Inhibits Neuropathic and Inflammatory Pain in Male But Not Female Mice: Distinct Actions of D-Series Resolvins in Chemotherapy-Induced Peripheral Neuropathy. Frontiers in pharmacology, 10. p. 745. 10.3389/fphar.2019.00745 Retrieved from https://hdl.handle.net/10161/21784.
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Ru-Rong Ji
I have been doing neuroscience and pain research for over 25 years in multiple academic institutes, including Duke University (2012-current), Harvard Medical School (1998-2012), Johns Hopkins Medical School, Karolinska Institute, and Peking University. The long-term goal of my lab is to identify molecular and cellular mechanisms that underlie the induction and resolution of pathological pain and develop novel pain therapeutics that can target these mechanisms, with specific focus on neuroimmune interactions. We are interested in the following scientific questions. (1) How does inflammation induce and resolve pain via immune cell interaction with primary sensory neurons? (2) How does neuroinflammation drive chronic pain via activation of glial cells in the CNS (microglia and astrocytes) and PNS (satellite glial cells) and regulation of sensory neuron plasticity (peripheral sensitization) and spinal cord synaptic plasticity (central sensitization)? (3) How do specialized pro-resolution mediators (SPMs, e.g., resolvins, protectins, and maresins) control pain via GPCR signaling? (4) How do immunotherapies through the PD-L1/PD-1 and STING/IFN pathways regulate pain, cognition, and neuronal activities? (5) How do secreted miRNAs regulate pain and itch via direct activation of surface receptors and ion channels? (6) How do nerve terminals interact with cancers in chronic pain and itch? (7) How do Toll-like receptors (TLR) in primary sensory neurons sense danger signals and regulate pain and itch? (8) How do regenerative approaches such as autologous conditioned serum (ACS) and bone marrow stromal cells (MSCs) produce long-term pain relief via secreting anti-inflammatory factors and exosomes? We employ a multidisciplinary approach that covers in vitro, ex vivo, and in vivo studies for animal behaviors, electrophysiology, molecular biology, cell biology, and transgenic animals. We have identified numerous therapeutic targets and filed many patents for translational studies. As the Director of the Center for Translational Pain Medicine (CTPM) and a highly cited researcher (Cross Field, Clarivate), I have both administrative and scientific leadership for successful completion of many research projects.
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