α-促黑素与刺鼠信号蛋白对B16黑色素瘤细胞的相互作用：刺鼠信号蛋白反向激动作用的证据。

Interactions of alpha-melanotropin and agouti on B16 melanoma cells: evidence for inverse agonism of agouti.

作者信息

Siegrist W, Drozdz R, Cotti R, Willard D H, Wilkison W O, Eberle A N

机构信息

Department of Research, University Hospital, Basel, Switzerland.

出版信息

J Recept Signal Transduct Res. 1997 Jan-May;17(1-3):75-98. doi: 10.3109/10799899709036595.

DOI:10.3109/10799899709036595

PMID:9029482

Abstract

alpha-Melanocyte-stimulating hormone (alpha-MSH, alpha-melanotropin) and agouti control the switch between eumelanin and pheomelanin synthesis in mammalian melanocytes. Here we investigated interactions between alpha-MSH, agouti protein, cAMP elevating agents and phorbol ester on mouse B16 melanoma cells. Agouti (Kd 3.7 nmol/l) and alpha-MSH (Kd 2.3 nmol/l) had similar affinities to the MC1 melanocortin receptor. Both alpha-MSH and agouti induced MC1 receptor down-regulation. Agouti antagonized melanogenesis induced by alpha-MSH, forskolin, cholera toxin (CT), and pertussis toxin (PT). It also reduced the constitutive melanin formation of long-term cultures. Cell proliferation was inhibited by agouti (43% at 100 nM). This effect was reversed by alpha-MSH, forskolin, or CT. B16-G4F cells, a cell variant that lacks the MC1 receptor, did not respond to agouti. From these results we conclude that agouti shows the characteristics of an inverse agonist acting through the MC1 receptor.

摘要

α-黑素细胞刺激素（α-MSH，α-促黑素）和刺鼠信号蛋白控制哺乳动物黑素细胞中真黑素和褐黑素合成之间的转换。在此，我们研究了α-MSH、刺鼠信号蛋白、cAMP升高剂和佛波酯对小鼠B16黑色素瘤细胞的相互作用。刺鼠信号蛋白（解离常数Kd为3.7 nmol/L）和α-MSH（Kd为2.3 nmol/L）对MC1黑皮质素受体具有相似的亲和力。α-MSH和刺鼠信号蛋白均诱导MC1受体下调。刺鼠信号蛋白拮抗由α-MSH、福斯可林、霍乱毒素（CT）和百日咳毒素（PT）诱导的黑素生成。它还减少了长期培养物中组成型黑色素的形成。刺鼠信号蛋白抑制细胞增殖（100 nM时抑制43%）。α-MSH、福斯可林或CT可逆转这种作用。缺乏MC1受体的细胞变体B16-G4F细胞对刺鼠信号蛋白无反应。从这些结果我们得出结论，刺鼠信号蛋白表现出通过MC1受体起作用的反向激动剂的特征。

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Interactions of alpha-melanotropin and agouti on B16 melanoma cells: evidence for inverse agonism of agouti.α-促黑素与刺鼠信号蛋白对B16黑色素瘤细胞的相互作用：刺鼠信号蛋白反向激动作用的证据。

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α-促黑素与刺鼠信号蛋白对B16黑色素瘤细胞的相互作用：刺鼠信号蛋白反向激动作用的证据。

Interactions of alpha-melanotropin and agouti on B16 melanoma cells: evidence for inverse agonism of agouti.

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