Liu Qiang, Whiteaker Paul, Morley Barbara J, Shi Fu-Dong, Lukas Ronald J
Division of Neurobiology, Barrow Neurological InstitutePhoenix, AZ, United States.
Boys Town National Research HospitalOmaha, NE, United States.
Front Cell Neurosci. 2017 Sep 22;11:287. doi: 10.3389/fncel.2017.00287. eCollection 2017.
Previous studies have demonstrated immunosuppressive and anti-inflammatory effects of nicotine, including in the experimental autoimmune encephalomyelitis (EAE) model in mice of some forms of multiple sclerosis (MS). Other studies using knock-out (KO) mice have implicated nicotinic acetylcholine (ACh) receptors containing α7, α9, or β2 subunits (α7*-, α9*- or β2*-nAChR) in different, disease-exacerbating or disease-ameliorating processes. These outcomes are in harmony with gene expression analyses showing nAChR subunit mRNA in many classes of immune system cell types. Consistent with influences on disease status, predictable effects of nAChR subunit (and subtype) KO, or of nicotine exposure, are seen on immune cell numbers and distribution and on cytokine levels or other markers of immunity, inflammation, demyelination, and axonal degradation. Providing support for our hypotheses about distinctive roles for nAChR subtypes in EAE, here we have used direct and adoptive EAE induction and a nAChR subunit gene double knock-out (DKO) strategy. Immune cell expression of nAChR α9 subunits as protein is demonstrated by immunostaining of isolated CD4, CD8, CD11b and CD11c cells from wild-type (WT) mice, but not in cells from nAChR α9 subunit KO animals. Nicotine exposure is protective against directly-induced EAE in WT or α7/α9 DKO animals relative to effects seen in WT/vehicle-treated mice, but, remarkably, EAE is exacerbated in vehicle-treated α7/α9 DKO mice. Brain lesion volume and intra-cranial inflammatory activity similarly are higher in DKO/vehicle than in WT/vehicle-treated animals, although nicotine's protective effects are seen in each instance. By contrast, in adoptive transfer studies, disease severity is attenuated and disease onset is delayed in recipients of splenocytes from WT animals treated with nicotine rather than with vehicle. Moreover, protection as seen in nicotine-treated WT animals is the same in recipients of splenocytes from nAChR α7/α9 DKO mice irrespective of their exposure to nicotine or vehicle. When combined with previous observations, these findings are consistent with disease exacerbation (or even induction) being mediated at least in part via α9*-nAChR in peripheral immune cells. They also suggest protective roles of central nervous system (CNS) α7*-nAChR. The results suggest that both α7*- and α9*-nAChR are potential targets of therapeutic ligands to modulate inflammation and autoimmunity.
先前的研究已证实尼古丁具有免疫抑制和抗炎作用,包括在某些形式的多发性硬化症(MS)小鼠实验性自身免疫性脑脊髓炎(EAE)模型中。其他使用基因敲除(KO)小鼠的研究表明,含有α7、α9或β2亚基的烟碱型乙酰胆碱(ACh)受体(α7* -、α9* -或β2* - nAChR)参与了不同的、疾病加重或疾病缓解过程。这些结果与基因表达分析一致,该分析显示许多类免疫系统细胞类型中存在nAChR亚基mRNA。与对疾病状态的影响一致,nAChR亚基(和亚型)敲除或尼古丁暴露对免疫细胞数量和分布以及细胞因子水平或免疫、炎症、脱髓鞘和轴突降解的其他标志物具有可预测的影响。为了支持我们关于nAChR亚型在EAE中独特作用的假设,我们在这里使用了直接和过继性EAE诱导以及nAChR亚基基因双敲除(DKO)策略。通过对野生型(WT)小鼠分离的CD4、CD8、CD11b和CD11c细胞进行免疫染色,证实了nAChRα9亚基作为蛋白质在免疫细胞中的表达,但在nAChRα9亚基敲除动物的细胞中未检测到。与WT/载体处理的小鼠相比,尼古丁暴露对WT或α7/α9 DKO动物直接诱导的EAE具有保护作用,但值得注意的是,载体处理的α7/α9 DKO小鼠的EAE会加重。尽管在每种情况下都观察到尼古丁的保护作用,但DKO/载体处理的动物的脑损伤体积和颅内炎症活性同样高于WT/载体处理的动物。相比之下,在过继性转移研究中,用尼古丁而非载体处理的WT动物脾细胞受体的疾病严重程度降低,疾病发作延迟。此外,无论暴露于尼古丁还是载体,nAChRα7/α9 DKO小鼠脾细胞受体中观察到的尼古丁处理WT动物的保护作用相同。与先前的观察结果相结合,这些发现与疾病加重(甚至诱导)至少部分通过外周免疫细胞中的α9* - nAChR介导一致。它们还表明中枢神经系统(CNS)α7* - nAChR具有保护作用。结果表明,α7* -和α9* - nAChR都是调节炎症和自身免疫的治疗性配体的潜在靶点。
