Center for Environmental Health Sciences, Department of Basic Sciences, College of Veterinary Medicine, Mississippi State University, MS 39762, USA.
J Appl Toxicol. 2011 Jan;31(1):1-10. doi: 10.1002/jat.1552.
Multiple studies demonstrate that manganese (Mn) exposure potentiates inflammatory mediator output from activated glia; this increased output is associated with enhanced mitogen activated protein kinase (MAPK: p38, ERK and JNK) activity. We hypothesized that Mn activates MAPK by activating the kinases upstream of MAPK, i.e. MKK-3/6, MKK-1/2 and MKK-4 (responsible for activation of p38, ERK, and JNK, respectively), and/or by inhibiting a major phosphatase responsible for MAPK inactivation, MKP-1. Exposure of N9 microglia to Mn (250 µm), LPS (100 ng ml⁻¹) or Mn + LPS increased MKK-3/6 and MKK-4 activity at 1 h; the effect of Mn + LPS on MKK-4 activation was greater than the rest. At 4 h, Mn, LPS, and Mn + LPS increased MKK-3/6 and MKK-1/2 phosphorylation, whereas MKK-4 was activated only by Mn and Mn + LPS. Besides activating MKK-4 via Ser257/Thr261 phosphorylation, Mn (4 h) prevented MKK-4's phosphorylation on Ser80, which negatively regulates MKK-4 activity. Exposure to Mn or Mn + LPS (1 h) decreased both mRNA and protein expression of MKP-1, the negative MAPK regulator. In addition, we observed that at 4 h, but not at 1 h, a time point coinciding with increased MAPK activity, Mn + LPS markedly increased TNF-α, IL-6 and Cox-2 mRNA, suggesting a delayed effect. The fact that all three major groups of MKKs, MKK-1/2, MKK-3/6 and MKK-4, are activated by Mn suggests that Mn-induced activation of MAPK occurs via traditional mechanisms, which perhaps involve the MAPKs furthest upstream, MKKKs (MAP3Ks). In addition, for all MKKs, Mn-induced activation was persistent at least for 4 h, indicating a long-term effect.
多项研究表明,锰(Mn)暴露会增强激活的神经胶质细胞中炎症介质的输出;这种增加的输出与丝裂原激活的蛋白激酶(MAPK:p38、ERK 和 JNK)活性的增强有关。我们假设 Mn 通过激活 MAPK 的上游激酶,即 MKK-3/6、MKK-1/2 和 MKK-4(分别负责激活 p38、ERK 和 JNK),以及/或通过抑制负责 MAPK 失活的主要磷酸酶,即 MKP-1,来激活 MAPK。将 N9 小神经胶质细胞暴露于 Mn(250µm)、LPS(100ng/ml)或 Mn+LPS 会在 1 小时增加 MKK-3/6 和 MKK-4 的活性;Mn+LPS 对 MKK-4 激活的影响大于其他两者。在 4 小时时,Mn、LPS 和 Mn+LPS 增加了 MKK-3/6 和 MKK-1/2 的磷酸化,而只有 Mn 和 Mn+LPS 激活了 MKK-4。除了通过 Ser257/Thr261 磷酸化激活 MKK-4 外,Mn(4 小时)还阻止了 MKK-4 在 Ser80 上的磷酸化,这会负调节 MKK-4 的活性。暴露于 Mn 或 Mn+LPS(1 小时)会降低 MKP-1(负性 MAPK 调节剂)的 mRNA 和蛋白质表达。此外,我们观察到在 4 小时时,而非 1 小时时,即与 MAPK 活性增加的时间点一致,Mn+LPS 显著增加了 TNF-α、IL-6 和 Cox-2 的 mRNA,提示存在延迟效应。Mn 激活了所有三种主要的 MKK 组,即 MKK-1/2、MKK-3/6 和 MKK-4,这表明 Mn 诱导的 MAPK 激活是通过传统机制发生的,这也许涉及到 MAPKs 的上游更远的 MKKKs(MAP3Ks)。此外,对于所有的 MKK 来说,Mn 诱导的激活至少持续了 4 小时,表明这是一种长期效应。
