Department of Physiology and Pharmacology, 501 D.W. Brooks Drive, College of Veterinary Medicine, University of Georgia, Athens, GA 30602, USA.
Neurotoxicology. 2011 Dec;32(6):683-92. doi: 10.1016/j.neuro.2011.09.002. Epub 2011 Sep 25.
Excessive manganese (Mn) exposure increases output of glial-derived inflammatory products, which may indirectly contribute to the neurotoxic effects of this essential metal. In microglia, Mn increases hydrogen peroxide (H(2)O(2)) release and potentiates lipopolysaccharide (LPS)-induced cytokines (TNF-α, IL-6) and nitric oxide (NO). Inducible heme-oxygenase (HO-1) plays a role in the regulation of inflammation and its expression is upregulated in response to oxidative stressors, including metals and LPS. Because Mn can oxidatively affect neurons both directly and indirectly, we investigated the effect of Mn exposure on the induction of HO-1 in resting and LPS-activated microglia (N9) and dopaminergic neurons (N27). In microglia, 24h exposure to Mn (up to 250 μM) had minimal effects on its own, but it markedly potentiated LPS (100 ng/ml)-induced HO-1 protein and mRNA. Inhibition of microglial HO-1 activity with two different inhibitors indicated that HO-1 is a positive regulator of the Mn-potentiated cytokine output and a negative regulator of the Mn-induced H(2)O(2) output. Mn enhancement of LPS-induced HO-1 does not appear to be dependent on H(2)O(2) or NO, as Mn+LPS-induced H(2)O(2) release was not greater than the increase induced by Mn alone and inhibition of iNOS did not change Mn potentiation of HO-1. However, because Mn exposure potentiated the LPS-induced nuclear expression of small Maf proteins, this may be one mechanism Mn uses to affect the expression of HO-1 in activated microglia. Finally, the potentiating effects of Mn on HO-1 appear to be glia-specific for Mn, LPS, or Mn+LPS did not induce HO-1 in N27 neuronal cells.
过量的锰 (Mn) 暴露会增加神经胶质衍生的炎症产物的产量,这可能间接导致这种必需金属的神经毒性作用。在小胶质细胞中,Mn 会增加过氧化氢 (H2O2) 的释放,并增强脂多糖 (LPS) 诱导的细胞因子 (TNF-α、IL-6) 和一氧化氮 (NO)。诱导型血红素加氧酶 (HO-1) 在炎症调节中发挥作用,其表达在受到氧化应激源(包括金属和 LPS)的刺激时会上调。由于 Mn 可以直接和间接氧化影响神经元,因此我们研究了 Mn 暴露对静息和 LPS 激活的小胶质细胞 (N9) 和多巴胺能神经元 (N27) 中 HO-1 诱导的影响。在小胶质细胞中,24 小时暴露于 Mn(高达 250 μM)本身影响很小,但它显著增强了 LPS(100ng/ml)诱导的 HO-1 蛋白和 mRNA。用两种不同的抑制剂抑制小胶质细胞 HO-1 活性表明,HO-1 是 Mn 增强细胞因子分泌的正调节剂,也是 Mn 诱导的 H2O2 产生的负调节剂。Mn 增强 LPS 诱导的 HO-1 似乎不依赖于 H2O2 或 NO,因为 Mn+LPS 诱导的 H2O2 释放并不大于 Mn 单独诱导的增加,并且 iNOS 抑制没有改变 Mn 对 HO-1 的增强作用。然而,由于 Mn 暴露增强了 LPS 诱导的小 Maf 蛋白的核表达,这可能是 Mn 影响激活的小胶质细胞中 HO-1 表达的一种机制。最后,Mn 对 HO-1 的增强作用似乎是小胶质细胞特异性的,因为 Mn、LPS 或 Mn+LPS 均未诱导 N27 神经元细胞中的 HO-1。