μ跨膜区段的序列决定了免疫球蛋白M向细胞表面转运的组织特异性。
The sequence of the mu transmembrane segment determines the tissue specificity of the transport of immunoglobulin M to the cell surface.
作者信息
Williams G T, Venkitaraman A R, Gilmore D J, Neuberger M S
机构信息
Laboratory of Molecular Biology, Medical Research Council, Cambridge, United Kingdom.
出版信息
J Exp Med. 1990 Mar 1;171(3):947-52. doi: 10.1084/jem.171.3.947.
Abstract
Membrane IgM is expressed on the surface of B lymphocytes. It is not transported to the surface of transfected plasmacytoma or COS cells. Here, we show that mutation of four hydrophilic amino acids in the microm transmembrane is sufficient to overcome the intracellular retention of membrane IgM in non-B cells. This suggests that the B cell-specific IgM-associated proteins that have been postulated to assist the transport of membrane IgM to the cell surface (3) act either by forming a hydrophobic sheath that surrounds the microm transmembrane segment or by displacing an interaction with this segment that would otherwise cause retention. Experiments with a CD8/mu hybrid H chain indicate that the proteins that assist the transport of membrane IgM to the B cell surface at most need the mu CH4 and transmembrane/cytoplasmic portion for interaction.
摘要
膜免疫球蛋白M(Membrane IgM)表达于B淋巴细胞表面。它不会转运至转染的浆细胞瘤或COS细胞表面。在此,我们表明微小跨膜区中四个亲水性氨基酸的突变足以克服膜免疫球蛋白M在非B细胞中的细胞内滞留。这表明,据推测有助于膜免疫球蛋白M转运至细胞表面的B细胞特异性IgM相关蛋白(3),其作用方式要么是形成围绕微小跨膜区的疏水鞘,要么是取代与该区域的相互作用,否则这种相互作用会导致滞留。用CD8/μ杂交重链进行的实验表明,协助膜免疫球蛋白M转运至B细胞表面的蛋白最多需要μ链恒定区4(mu CH4)以及跨膜/细胞质部分进行相互作用。
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