Epigenetic regulation of microglia and neurons by proinflammatory signaling following adolescent intermittent ethanol (AIE) exposure and in human AUD.

Advances in drug and alcohol research Pub Date : 2024-03-08 eCollection Date: 2024-01-01 DOI:10.3389/adar.2024.12094
Fulton T Crews, Victoria Macht, Ryan P Vetreno
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Abstract

Adolescent alcohol drinking is linked to high rates of adult alcohol problems and alcohol use disorder (AUD). The Neurobiology of Alcohol Drinking in Adulthood (NADIA) consortium adolescent intermittent ethanol (AIE) models adolescent binge drinking, followed by abstinent maturation to adulthood to determine the persistent AIE changes in neurobiology and behavior. AIE increases adult alcohol drinking and preference, increases anxiety and reward seeking, and disrupts sleep and cognition, all risks for AUD. In addition, AIE induces changes in neuroimmune gene expression in neurons and glia that alter neurocircuitry and behavior. HMGB1 is a unique neuroimmune signal released from neurons and glia by ethanol that activates multiple proinflammatory receptors, including Toll-like receptors (TLRs), that spread proinflammatory gene induction. HMGB1 expression is increased by AIE in rat brain and in post-mortem human AUD brain, where it correlates with lifetime alcohol consumption. HMGB1 activation of TLR increase TLR expression. Human AUD brain and rat brain following AIE show increases in multiple TLRs. Brain regional differences in neurotransmitters and cell types impact ethanol responses and neuroimmune gene induction. Microglia are monocyte-like cells that provide trophic and synaptic functions, that ethanol proinflammatory signals sensitize or "prime" during repeated drinking cycles, impacting neurocircuitry. Neurocircuits are differently impacted dependent upon neuronal-glial signaling. Acetylcholine is an anti-inflammatory neurotransmitter. AIE increases HMGB1-TLR4 signaling in forebrain, reducing cholinergic neurons by silencing multiple cholinergic defining genes through upregulation of RE-1 silencing factor (REST), a transcription inhibitor known to regulate neuronal differentiation. HMGB1 REST induction reduces cholinergic neurons in basal forebrain and cholinergic innervation of hippocampus. Adult brain hippocampal neurogenesis is regulated by a neurogenic niche formed from multiple cells. In vivo AIE and in vitro studies find ethanol increases HMGB1-TLR4 signaling and other proinflammatory signaling as well as reducing trophic factors, NGF, and BDNF, coincident with loss of the cholinergic synapse marker vChAT. These changes in gene expression-transcriptomes result in reduced adult neurogenesis. Excitingly, HMGB1 antagonists, anti-inflammatories, and epigenetic modifiers like histone deacetylase inhibitors restore trophic the neurogenesis. These findings suggest anti-inflammatory and epigenetic drugs should be considered for AUD therapy and may provide long-lasting reversal of psychopathology.

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青春期间歇性乙醇(AIE)暴露和人类 AUD 后,促炎信号对小胶质细胞和神经元的表观遗传调控。
青少年饮酒与成人酗酒问题和酒精使用障碍(AUD)的高发病率有关。成年期饮酒的神经生物学(NADIA)联盟青少年间歇性乙醇(AIE)模拟青少年暴饮,然后到成年期戒酒,以确定 AIE 对神经生物学和行为的持续性改变。AIE 会增加成年后的饮酒量和偏好,增加焦虑和寻求奖赏的行为,并干扰睡眠和认知,这些都是导致 AUD 的风险。此外,AIE 还会诱导神经元和神经胶质细胞中的神经免疫基因表达发生变化,从而改变神经环路和行为。HMGB1 是乙醇从神经元和神经胶质细胞中释放的一种独特的神经免疫信号,它能激活多种促炎受体,包括 Toll 样受体 (TLR),从而传播促炎基因诱导。在大鼠大脑和死后人类 AUD 大脑中,HMGB1 的表达会因 AIE 而增加,并与终生饮酒量相关。HMGB1 对 TLR 的激活增加了 TLR 的表达。人类 AUD 脑部和大鼠脑部在 AIE 后显示出多种 TLR 的增加。大脑区域神经递质和细胞类型的差异会影响乙醇反应和神经免疫基因诱导。小胶质细胞是提供营养和突触功能的单核细胞样细胞,乙醇促炎信号在反复饮酒过程中会使其敏感或 "激发",从而影响神经环路。神经回路受到的不同影响取决于神经元与神经胶质细胞之间的信号传递。乙酰胆碱是一种抗炎神经递质。AIE 增加了前脑中的 HMGB1-TLR4 信号,通过上调 RE-1 沉默因子(REST)(一种已知可调节神经元分化的转录抑制因子)沉默多个胆碱能定义基因,从而减少胆碱能神经元。HMGB1 REST诱导减少了基底前脑的胆碱能神经元和海马的胆碱能神经支配。成人大脑海马的神经发生受由多种细胞形成的神经源龛调控。体内 AIE 和体外研究发现,乙醇会增加 HMGB1-TLR4 信号和其他促炎信号,并减少营养因子、NGF 和 BDNF,同时胆碱能突触标记 vChAT 也会丧失。基因表达转录组的这些变化导致成年神经发生减少。令人兴奋的是,HMGB1 拮抗剂、抗炎药和组蛋白去乙酰化酶抑制剂等表观遗传修饰剂能恢复营养性神经发生。这些研究结果表明,抗炎药物和表观遗传学药物应考虑用于 AUD 治疗,并可长期逆转精神病理学。
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