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糖基磷脂酰肌醇锚定补体调节蛋白衰变加速因子(CD55)和CD59在人白血病细胞系中表面表达缺失的机制。

Mechanisms by which the surface expression of the glycosyl-phosphatidylinositol-anchored complement regulatory proteins decay-accelerating factor (CD55) and CD59 is lost in human leukaemia cell lines.

作者信息

Hatanaka M, Seya T, Matsumoto M, Hara T, Nonaka M, Inoue N, Takeda J, Shimizu A

机构信息

Department of Clinical Pathology, Osaka Medical College, Japan.

出版信息

Biochem J. 1996 Mar 15;314 ( Pt 3)(Pt 3):969-76. doi: 10.1042/bj3140969.

DOI:10.1042/bj3140969
PMID:8615796
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1217151/
Abstract

We have investigated the mechanisms of defects in the glycosyl-phosphatidylinositol (GPI)-anchored complement regulatory proteins delay-accelerating factor (DAF) and/or CD59 in a panel of human leukaemia cell lines that lack surface expression of these proteins: U937 (DAF+/CD59-), CEM (DAF-/CD59+), TALL (DAF-/CD59-) and a substrain of Ramos [Ramos(-)] (DAF-/CD59-). Northern blotting and reverse transcription-PCR revealed that the main cause of the DAF and/or CD59 deficiency is the failure of mRNA expression in most of the cell lines, except in Ramos(-) in which sufficient mRNA for DAF and CD59 was produced. U937, CEM and TALL cells were not defective in GPI anchor formation as assessed by the detection of other GPI-anchored proteins. No gene abnormality corresponding to DAF or CD59 was detected by Southern blotting. Thus the cause of the defects of DAF and/or CD59 in these leukaemia cell lines except for Ramos(-) is virtually undetectable steady-state levels of the relevant mRNA, most likely attributable to lack of transcription in these cell lines. On the other hand, Ramos(-) cells failed to generate a GPI anchor, whereas they normally expressed DAF and CD59 transcripts. The transfection of phosphatidylinositol-glycan class A (PIG-A) cDNA into Ramos(-) cells restored DAF and CD59 expression, indicating that the defective mechanism in GPI anchor formation is similar to that in paroxysmal noctural haemoglobinuria (PNH) cells, i.e. a deficiency of the PIG-A gene product. Thus the mechanisms of the defects of DAF and/or CD59 in human leukaemia cell lines are not uniform, and in most cases are different from that proposed to cause PNH.

摘要

我们研究了糖基磷脂酰肌醇(GPI)锚定的补体调节蛋白衰变加速因子(DAF)和/或CD59在一组缺乏这些蛋白表面表达的人白血病细胞系中的缺陷机制:U937(DAF+/CD59-)、CEM(DAF-/CD59+)、TALL(DAF-/CD59-)和Ramos的一个亚株[Ramos(-)](DAF-/CD59-)。Northern印迹法和逆转录PCR显示,DAF和/或CD59缺陷的主要原因是大多数细胞系中mRNA表达失败,但Ramos(-)细胞除外,该细胞系能产生足够的DAF和CD59 mRNA。通过检测其他GPI锚定蛋白评估,U937、CEM和TALL细胞在GPI锚形成方面无缺陷。Southern印迹法未检测到与DAF或CD59对应的基因异常。因此,除Ramos(-)外,这些白血病细胞系中DAF和/或CD59缺陷的原因实际上是相关mRNA的稳态水平无法检测到,很可能是由于这些细胞系中缺乏转录。另一方面,Ramos(-)细胞无法生成GPI锚,而它们正常表达DAF和CD59转录本。将磷脂酰肌醇聚糖A类(PIG-A)cDNA转染到Ramos(-)细胞中可恢复DAF和CD59表达,表明GPI锚形成的缺陷机制与阵发性夜间血红蛋白尿(PNH)细胞中的相似,即PIG-A基因产物缺乏。因此,人白血病细胞系中DAF和/或CD59缺陷的机制并不统一,且在大多数情况下与导致PNH的机制不同。

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