[Dopamine slows phagocytosis of rods from bovine pigment epithelium in vitro trough D1 receptor].

H Masri, O Goureau, C Hecquet, A Simon, J Nguyen-Legros
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Abstract

Photoreceptor disc shedding and their phagocytosis by the retinal pigment epithelium undergo a daily rhythm entrained by an intrinsic oscillator involving melatonin and dopamine in non-mammals. Such a mechanism is not demonstrated in mammals, but the rhythm of photoreceptor renewal can be modulated by exogenous melatonin and dopamine. The present experiments were designed to show whether a direct action of DA occurs on pigment epithelial cells, and to identify the receptor mediating this action. Primary cultures of bovine retinal pigment epithelium were incubated with bovine rod outer segments in the presence of dopamine, D1 and D2 agonists, D1 antagonist and forskolin. Dopamine, D1 agonist and forskolin decreased phagocytosis, while D2 agonist was inactive. Thus dopamine slows pigment epithelium phagocytosis in vitro through a D1 receptor. Increased phagocytosis following blockade of the receptor by an antagonist suggests a more complex modulation of phagocytosis by dopamine.

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多巴胺通过D1受体减缓牛色素上皮杆状细胞的体外吞噬作用。
在非哺乳动物中,视网膜色素上皮的光感受器盘脱落及其吞噬经历了一个涉及褪黑激素和多巴胺的内在振荡器的日常节律。这种机制在哺乳动物中尚未得到证实,但光感受器更新的节奏可以通过外源性褪黑激素和多巴胺来调节。本实验旨在显示DA是否直接作用于色素上皮细胞,并确定介导这一作用的受体。在多巴胺、D1和D2激动剂、D1拮抗剂和福斯可林的作用下,用牛棒外段培养牛视网膜色素上皮原代培养物。多巴胺、D1激动剂和福斯克林抑制吞噬,而D2激动剂无活性。多巴胺在体外通过D1受体减缓色素上皮吞噬。受体被拮抗剂阻断后,吞噬作用增加,表明多巴胺对吞噬作用的调节更为复杂。
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