Involvement of Conserved Hydrophobic Residues in the CTLD of Human Lectin-like Oxidized LDL Receptor in Ligand Binding

Molecular cell biology research communications : MCBRC Pub Date : 2001-09-01 DOI:10.1006/mcbr.2001.0296

Xiaohua Shi, Setsuko Ogawa, Toshio Otani, Sachiko Machida

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引用次数: 5

Abstract

We previously identified the hydrophilic residues that are essential for ligand binding in the C-type lectin-like domain (CTLD) of human lectin-like oxidized LDL receptor (hLOX-1). To provide a more detailed understanding of ligand binding, we selected in the present study 13 conserved hydrophobic residues in the CTLD of hLOX-1 for mutagenesis analysis. The selected residues were replaced either by Ser (drastic mutation) or by size- and structure-based alternative hydrophobic residues (conserved mutation). Mutation targeted at F228, Y238, and G232 deprived hLOX-1 of ligand binding without alteration of protein expression and localization. In contrast, drastic mutation introduced into positions W203, W215, and W217 resulted in mislocalization, whereas conserved mutation at the same sites resulted in clones with similar cell surface localization and ligand binding to native hLOX-1. Our results indicate that F228, Y238, and G232 are essential for ligand binding, while W203, W215, W217, and L206 play a structural role.

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人凝集素样氧化LDL受体CTLD中保守疏水残基参与配体结合

我们之前在人类凝集素样氧化LDL受体(hLOX-1)的c型凝集素样结构域(CTLD)中发现了配体结合所必需的亲水残基。为了更详细地了解配体结合，我们在本研究中选择了hLOX-1的CTLD中13个保守的疏水残基进行诱变分析。所选择的残基要么被丝氨酸(剧烈突变)取代，要么被基于大小和结构的替代疏水残基(保守突变)取代。针对F228、Y238和G232的突变剥夺了hLOX-1的配体结合，但没有改变蛋白质的表达和定位。相反，引入W203、W215和W217位点的剧烈突变导致定位错误，而相同位点的保守突变导致克隆具有相似的细胞表面定位和与天然hLOX-1的配体结合。我们的研究结果表明F228、Y238和G232是配体结合所必需的，而W203、W215、W217和L206则起结构作用。

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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Molecular cell biology research communications : MCBRC

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