对小胶质细胞源性氧化应激和多巴胺能神经元存活的有效调节：P物质与强啡肽。

Potent regulation of microglia-derived oxidative stress and dopaminergic neuron survival: substance P vs. dynorphin.

作者信息

Block M L, Li G, Qin L, Wu X, Pei Z, Wang T, Wilson B, Yang J, Hong J S

机构信息

Neuropharmacology Section, Laboratory of Pharmacology and Chemistry, National Institute of Environmental Health Sciences, Research Triangle Park, North Carolina 27709, USA.

出版信息

FASEB J. 2006 Feb;20(2):251-8. doi: 10.1096/fj.05-4553com.

DOI:10.1096/fj.05-4553com

PMID:16449797

Abstract

Unregulated microglial activation has been implicated as a pivotal factor contributing to Parkinson's disease. Using mesencephalic neuron-glia cultures, we address the novel possibility that peptides endogenous to the substantia nigra (SN), substance P and dynorphin (10(-13)-10(-14) M), are opposing mediators of microglial activation and consequent DA neurotoxicity. Here, we identify that substance P (10(-13)-10(-14) M) is selectively toxic to DA neurons in a microglia-dependent manner. Mechanistically, substance P (10(-13)-10(-14) M) activated microglial NADPH oxidase to produce extracellular superoxide and intracellular reactive oxygen species (ROS). Neuron-glia cultures from mice lacking a functional NADPH oxidase complex (PHOX-/-) were insensitive to substance P (10(-13)-10(-14) M) -induced loss of DA neuron function. Mixed glia cultures from (PHOX-/-) mice failed to show a significant increase in intracellular ROS in response to substance P compared with control cultures (PHOX+/+). Further, dynorphin (10(-14) M) inhibited substance P (10(-13) M) -induced loss of [3H] DA uptake. Here we demonstrate a tightly regulated mechanism governing microglia-derived oxidative stress, where the neuropeptide balance of dynorphin and substance P is critical to DA neuron survival.

摘要

小胶质细胞的无节制激活被认为是导致帕金森病的关键因素。利用中脑神经元-胶质细胞培养物，我们探讨了一种新的可能性，即黑质（SN）内源性肽、P物质和强啡肽（10^(-13)-10^(-14) M）是小胶质细胞激活及随之而来的多巴胺能神经毒性的相反介质。在此，我们发现P物质（10^(-13)-10^(-14) M）以小胶质细胞依赖的方式对多巴胺能神经元具有选择性毒性。从机制上讲，P物质（10^(-13)-10^(-14) M）激活小胶质细胞的NADPH氧化酶以产生细胞外超氧化物和细胞内活性氧（ROS）。来自缺乏功能性NADPH氧化酶复合物（PHOX-/-）小鼠的神经元-胶质细胞培养物对P物质（10^(-13)-10^(-14) M）诱导的多巴胺能神经元功能丧失不敏感。与对照培养物（PHOX+/+）相比，来自（PHOX-/-）小鼠的混合胶质细胞培养物对P物质刺激的细胞内ROS没有显著增加。此外，强啡肽（10^(-14) M）抑制P物质（10^(-13) M）诱导的[3H]多巴胺摄取丧失。在此我们证明了一种严格调控的机制来控制小胶质细胞衍生的氧化应激，其中强啡肽和P物质的神经肽平衡对多巴胺能神经元的存活至关重要。

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对小胶质细胞源性氧化应激和多巴胺能神经元存活的有效调节：P物质与强啡肽。

Potent regulation of microglia-derived oxidative stress and dopaminergic neuron survival: substance P vs. dynorphin.

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