Amino acid residues of 5-lipoxygenase-activating protein critical for the binding of leukotriene biosynthesis inhibitors.

Journal of lipid mediators Pub Date : 1993-03-01
P J Vickers, M Adam, S Charleson, M Abramovitz, G O'Neill, J A Mancini
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Abstract

5-Lipoxygenase-activating protein (FLAP) plays an essential role in cellular leukotriene (LT) synthesis and represents the target of three classes of LT biosynthesis inhibitors. We have taken three approaches to localize regions of FLAP involved in the binding of these inhibitors. A comparison of the amino acid sequences of FLAP from eight mammalian species identifies regions of the protein which are highly conserved and consequently may be involved in functional and inhibitor binding properties of the protein. Conversely, amino acids not conserved amongst these species are unlikely to play an essential role in inhibitor binding. Immunoprecipitation of peptide fragments of FLAP cross-linked to photoaffinity analogues of LT biosynthesis inhibitors following site-specific peptide cleavage indicates that the inhibitor attachment site is amino-terminal to 72Trp. Taken together, the cross-species analysis and photoaffinity labelling studies suggest a region within the first hydrophilic loop of FLAP which may be important for inhibitor binding. Site-directed mutagenesis of human FLAP followed by the analysis of FLAP mutants in a radioligand binding assay was used to more accurately define critical amino acid residues within this region. Mutagenesis studies reveal that mutants containing deletions of amino acids in regions of FLAP not conserved between species retain the ability to specifically bind inhibitors. Furthermore, mutants containing deletions in a highly conserved region of the protein (residues 42-61) do not bind inhibitors. These studies have therefore localized specific amino acids of FLAP which are essential for inhibitor binding. The roles that these amino acids play in inhibitor binding and may play in 5-LO activation is under investigation.

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5-脂氧合酶激活蛋白的氨基酸残基对白三烯生物合成抑制剂的结合至关重要。
5-脂氧合酶激活蛋白(FLAP)在细胞白三烯(LT)合成中起重要作用,是三种LT生物合成抑制剂的靶标。我们采用了三种方法来定位参与这些抑制剂结合的FLAP区域。通过对8种哺乳动物的FLAP氨基酸序列的比较,我们发现了该蛋白高度保守的区域,这些区域可能与该蛋白的功能和抑制剂结合特性有关。相反,在这些物种中不保守的氨基酸不太可能在抑制剂结合中发挥重要作用。在位点特异性肽切割后,与LT生物合成抑制剂的光亲和类似物交联的FLAP肽片段的免疫沉淀表明,抑制剂的附着位点位于72Trp的氨基末端。综上所述,跨物种分析和光亲和标记研究表明,在FLAP的第一亲水环内的一个区域可能对抑制剂的结合很重要。对人皮瓣进行定点诱变,然后用放射配体结合法分析皮瓣突变体,以更准确地确定该区域内的关键氨基酸残基。诱变研究表明,在物种间不保守的FLAP区域中含有氨基酸缺失的突变体保留了特异性结合抑制剂的能力。此外,含有高度保守区域缺失的突变体(残基42-61)不与抑制剂结合。因此,这些研究定位了对抑制剂结合至关重要的FLAP的特定氨基酸。这些氨基酸在抑制剂结合中所起的作用以及可能在5-LO活化中起的作用正在研究中。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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