磷酸甘露糖受体缺陷细胞的鉴定与特性分析:溶酶体酶靶向的替代途径的证据
Identification and characterization of cells deficient in the mannose 6-phosphate receptor: evidence for an alternate pathway for lysosomal enzyme targeting.
作者信息
Gabel C A, Goldberg D E, Kornfeld S
出版信息
Proc Natl Acad Sci U S A. 1983 Feb;80(3):775-9. doi: 10.1073/pnas.80.3.775.
Abstract
Newly synthesized lysosomal enzymes acquire phosphomannosyl units, which allow binding of the enzymes to the mannose 6-phosphate receptor and subsequent translocation to lysosomes. In some cell types, this sequence of events is necessary for the delivery of these enzymes to lysosomes. Using a slime mold lysosomal hydrolase as a probe, we have identified three murine cell lines that lack the receptor and one line that contains very low (3%) receptor activity. Each of these lines synthesizes the mannose 6-phosphate recognition marker on its lysosomal enzymes, but, unlike cell lines with high levels of receptor, the cells accumulate oligosaccharides containing phosphomonoesters. The receptor-deficient lines possess high levels of intracellular acid hydrolase activity, which is contained in dense granules characteristic of lysosomes. The data suggest that intracellular mechanisms independent of the mannose 6-phosphate receptor must exist in some cells for the delivery of acid hydrolases to lysosomal organelles.
摘要
新合成的溶酶体酶会获得磷酸甘露糖基单元,这些单元能使酶与甘露糖 6 - 磷酸受体结合,并随后转运至溶酶体。在某些细胞类型中,这一系列事件对于将这些酶递送至溶酶体是必需的。我们使用一种黏菌溶酶体水解酶作为探针,鉴定出了三种缺乏该受体的小鼠细胞系以及一种受体活性极低(3%)的细胞系。这些细胞系中的每一个都在其溶酶体酶上合成了甘露糖 6 - 磷酸识别标记,但与具有高受体水平的细胞系不同,这些细胞积累了含有磷酸单酯的寡糖。受体缺陷型细胞系具有高水平的细胞内酸性水解酶活性,该活性存在于溶酶体特有的致密颗粒中。数据表明,在某些细胞中,必定存在独立于甘露糖 6 - 磷酸受体的细胞内机制来将酸性水解酶递送至溶酶体细胞器。
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Acid hydrolases from Dictyostelium discoideum contain phosphomannosyl recognition markers.盘基网柄菌的酸性水解酶含有磷酸甘露糖识别标记。
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