雄性和雌性C57BL/6J小鼠的小胶质细胞敲除不会影响急性停药,但会延迟羟考酮的镇痛耐受

Advances in drug and alcohol research Pub Date : 2022-12-16 eCollection Date: 2022-01-01 DOI:10.3389/adar.2022.10848
Omar El Jordi, Kathryn D Fischer, Timothy B Meyer, Brady K Atwood, Adrian L Oblak, Raymond W Pan, David L McKinzie
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摘要

阿片类药物使用障碍(OUD)影响大约8%-12%的人口。在依赖性个体中,突然停止服用阿片类药物会导致不良戒断症状,从而强化服药行为。对于治疗阿片类药物戒断以及改善长期禁欲的新药物疗法,存在着相当大的未满足的临床需求。近年来,神经免疫系统作为对抗包括成瘾在内的各种神经退行性和精神疾病的潜在治疗靶点,受到了科学界的广泛关注。然而,小胶质细胞在羟考酮依赖性中的具体作用尚未得到研究。使用CSF1R抑制剂Pexidartinib(PLX3397)进行慢性每日治疗,以降低小胶质细胞的表达,并评估对镇痛和纳洛酮诱导的羟考酮戒断的影响。体内结果表明,PLX治疗组的脑IBA1染色减少了约40%,这与羟考酮镇痛耐受性的发展延迟有关,并保持了镇痛效果。急性戒断行为症状、脑星形胶质细胞表达和许多神经炎症标志物水平不受PLX治疗的影响。在接受PLX的羟考酮治疗的小鼠中,KC/GRO(也称为CXCL1)在体感皮层中显著增强。小胶质细胞敲除不影响纳洛酮诱导的阿片类药物戒断的表达,但影响抗伤害感受反应。阿片类药物依赖过程中,由于小胶质细胞减少,体感皮层内KC/GRO表达增加的后果尚不清楚,但可能对介导阿片类诱导镇痛的神经通路很重要。
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Microglial knockdown does not affect acute withdrawal but delays analgesic tolerance from oxycodone in male and female C57BL/6J mice.

Opioid Use Disorder (OUD) affects approximately 8%-12% of the population. In dependent individuals, abrupt cessation of opioid taking results in adverse withdrawal symptoms that reinforce drug taking behavior. Considerable unmet clinical need exists for new pharmacotherapies to treat opioid withdrawal as well as improve long-term abstinence. The neuroimmune system has received much scientific attention in recent years as a potential therapeutic target to combat various neurodegenerative and psychiatric disorders including addiction. However, the specific contribution of microglia has not been investigated in oxycodone dependence. Chronic daily treatment with the CSF1R inhibitor Pexidartinib (PLX3397) was administered to knockdown microglia expression and evaluate consequences on analgesia and on naloxone induced withdrawal from oxycodone. In vivo results indicated that an approximately 40% reduction in brain IBA1 staining was achieved in the PLX treatment group, which was associated with a delay in the development of analgesic tolerance to oxycodone and maintained antinociceptive efficacy. Acute withdrawal behavioral symptoms, brain astrocyte expression, and levels of many neuroinflammatory markers were not affected by PLX treatment. KC/GRO (also known as CXCL1) was significantly enhanced in the somatosensory cortex in oxycodone-treated mice receiving PLX. Microglial knock-down did not affect the expression of naloxoneinduced opioid withdrawal but affected antinociceptive responsivity. The consequences of increased KC/GRO expression within the somatosensory cortex due to microglial reduction during opioid dependence are unclear but may be important for neural pathways mediating opioid-induced analgesia.

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