诺普斯系统抗原在补体受体1长同源重复序列中的定位。

Localization of Knops system antigens in the long homologous repeats of complement receptor 1.

作者信息

Tamasauskas D, Powell V, Schawalder A, Yazdanbakhsh K

机构信息

Immunochemistry Laboratory, New York Blood Center, New York, New York 10021, USA.

出版信息

Transfusion. 2001 Nov;41(11):1397-404. doi: 10.1046/j.1537-2995.2001.41111397.x.

DOI:10.1046/j.1537-2995.2001.41111397.x

PMID:11724985

Abstract

BACKGROUND

The Sl(a) (Knops system) located on complement receptor 1 (CR1) has been associated with malarial rosetting, a process associated with severe malarial infections. Moreover, the long homologous repeats (LHRs) B and C of CR1 were implicated in rosette formation. As a step toward mapping the location of Knops system antigens, truncated CR1 proteins have been expressed and their ability to inhibit antibodies to the high-incidence Knops system antigens was assessed.

STUDY DESIGN AND METHODS

Individual LHRs (A, B, C, and D) of CR1 of the common CR1*1 (F) allotype were expressed as secreted forms in 293T cells. Their abilities to specifically neutralize Knops system antibodies were tested by both hemagglutination and flow cytometry.

RESULTS

Three examples of anti-Kn(a) (n = 6) were almost completely inhibited by LHR-C and three by LHR-D. Two examples of anti-McC(a) (n = 2) and seven examples of anti-Sl(a) (n = 8) were inhibited by LHR-D. Both examples of anti-Yk(a) (n = 2) were partially inhibited by LHR-D.

CONCLUSION

The high-incidence Knops system antigens reside within LHR-D and to a lesser extent within LHR-C. Because of the role of Sl(a) antigen in malaria rosetting, these results indicate that LHR-D may represent an additional malaria interaction region in CR1.

摘要

背景

位于补体受体1（CR1）上的Sl(a)（诺普斯系统）与疟原虫花环形成有关，这一过程与严重疟疾感染相关。此外，CR1的长同源重复序列（LHRs）B和C与花环形成有关。作为绘制诺普斯系统抗原定位的一个步骤，已表达了截短的CR1蛋白，并评估了它们抑制针对高发生率诺普斯系统抗原的抗体的能力。

研究设计和方法

常见CR1*1（F）同种异型的CR1的各个LHRs（A、B、C和D）在293T细胞中作为分泌形式表达。通过血凝试验和流式细胞术测试它们特异性中和诺普斯系统抗体的能力。

结果

6例抗Kn(a)中的3例几乎完全被LHR-C抑制，3例被LHR-D抑制。2例抗McC(a)（共2例）和8例抗Sl(a)中的7例被LHR-D抑制。2例抗Yk(a)（共2例）均被LHR-D部分抑制。

结论

高发生率的诺普斯系统抗原位于LHR-D内，在较小程度上位于LHR-C内。由于Sl(a)抗原在疟疾花环形成中的作用，这些结果表明LHR-D可能代表CR1中一个额外的疟疾相互作用区域。

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诺普斯系统抗原在补体受体1长同源重复序列中的定位。

Localization of Knops system antigens in the long homologous repeats of complement receptor 1.

作者信息

机构信息

出版信息

BACKGROUND

STUDY DESIGN AND METHODS

RESULTS

CONCLUSION

背景

研究设计和方法

结果

结论

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