Ling Zaodung, Chang Qin A, Tong Chong Wai, Leurgans Susan E, Lipton Jack W, Carvey Paul M
Department of Pharmacology, Rush University Medical Center, Chicago, IL 60612, USA.
Exp Neurol. 2004 Dec;190(2):373-83. doi: 10.1016/j.expneurol.2004.08.006.
We previously demonstrated that treating gravid female rats with the bacteriotoxin lipopolysaccharide (LPS) led to the birth of offspring with fewer than normal dopamine (DA) neurons. This DA neuron loss was long-lived and associated with permanent increases in the pro-inflammatory cytokine tumor necrosis factor alpha (TNFalpha). Because of this pro-inflammatory state, we hypothesized that these animals would be more susceptible to subsequent exposure of DA neurotoxins. We tested this hypothesis by treating female Sprague-Dawley rats exposed to LPS or saline prenatally with a subtoxic dose of the DA neurotoxin rotenone (1.25 mg/kg per day) or vehicle for 14 days when they were 16 months old. After another 14 days, the animals were sacrificed. Tyrosine hydroxylase-immunoreactive (THir) cell counts were used as an index of DA neuron survival. Animals exposed to LPS prenatally or rotenone postnatally exhibited a 22% and 3%, respectively, decrease in THir cell counts relative to controls. The combined effects of prenatal LPS and postnatal rotenone exposure produced a synergistic 39% THir cell loss relative to controls. This loss was associated with decreased striatal DA and increased striatal DA activity ([HVA]/[DA]) and TNFalpha. Animals exposed to LPS prenatally exhibited a marked increase in the number of reactive microglia that was further increased by rotenone exposure. Prenatal LPS exposure also led to increased levels of oxidized proteins and the formation of alpha-Synuclein and eosin positive inclusions resembling Lewy bodies. These results suggest that exposure to low doses of an environmental neurotoxin like rotenone can produce synergistic DA neuron losses in animals with a preexisting pro-inflammatory state. This supports the notion that Parkinson's disease (PD) may be caused by multiple factors and the result of "multiple hits" from environmental toxins.
我们之前证明,用细菌毒素脂多糖(LPS)处理妊娠雌性大鼠会导致所产后代的多巴胺(DA)神经元数量少于正常水平。这种DA神经元损失是长期存在的,并且与促炎细胞因子肿瘤坏死因子α(TNFα)的永久性增加有关。由于这种促炎状态,我们推测这些动物对随后接触DA神经毒素会更敏感。我们通过在雌性Sprague-Dawley大鼠16个月大时,用亚毒性剂量的DA神经毒素鱼藤酮(每天1.25毫克/千克)或赋形剂对其进行14天的处理,来检验这一假设,这些大鼠在出生前分别接触过LPS或生理盐水。再过14天后,处死这些动物。酪氨酸羟化酶免疫反应性(THir)细胞计数被用作DA神经元存活的指标。相对于对照组,出生前接触LPS或出生后接触鱼藤酮的动物,其THir细胞计数分别减少了22%和3%。出生前接触LPS和出生后接触鱼藤酮的联合作用相对于对照组产生了协同性的39%的THir细胞损失。这种损失与纹状体DA减少、纹状体DA活性([高香草酸]/[多巴胺])增加以及TNFα增加有关。出生前接触LPS的动物,其反应性小胶质细胞数量显著增加,而鱼藤酮接触会使其进一步增加。出生前接触LPS还导致氧化蛋白水平升高以及α-突触核蛋白的形成和类似于路易小体的嗜酸性阳性包涵体。这些结果表明,接触低剂量的环境神经毒素如鱼藤酮,可在已存在促炎状态的动物中产生协同性的DA神经元损失。这支持了帕金森病(PD)可能由多种因素引起且是环境毒素“多重打击”结果的观点。
