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本文引用的文献

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Intramedullary megakaryocytes internalize released platelet factor 4 and store it in alpha granules.髓内巨核细胞内化释放的血小板因子4并将其储存于α颗粒中。
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Megakaryocytes regulate hematopoietic stem cell quiescence through CXCL4 secretion.巨核细胞通过分泌 CXCL4 调节造血干细胞静止。
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Platelet activation suppresses HIV-1 infection of T cells.血小板激活抑制 T 细胞中的 HIV-1 感染。
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Identification of the platelet-derived chemokine CXCL4/PF-4 as a broad-spectrum HIV-1 inhibitor.鉴定血小板衍生趋化因子 CXCL4/PF-4 作为广谱 HIV-1 抑制剂。
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HIV and SIV Associated Thrombocytopenia: An Expanding Role for Platelets in the Pathogenesis of HIV.HIV和SIV相关性血小板减少症:血小板在HIV发病机制中的作用不断扩大
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Rational design and characterization of platelet factor 4 antagonists for the study of heparin-induced thrombocytopenia.血小板因子 4 拮抗剂的合理设计与鉴定及其在肝素诱导的血小板减少症研究中的应用。
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血小板因子4通过调节病毒附着以浓度依赖的方式抑制和增强HIV-1感染。

Platelet Factor 4 Inhibits and Enhances HIV-1 Infection in a Concentration-Dependent Manner by Modulating Viral Attachment.

作者信息

Parker Zahra F, Rux Ann H, Riblett Amber M, Lee Fang-Hua, Rauova Lubica, Cines Douglas B, Poncz Mortimer, Sachais Bruce S, Doms Robert W

机构信息

1 Department of Microbiology, University of Pennsylvania School of Medicine , Philadelphia, Pennsylvania.

2 Department of Pathology, University of Pennsylvania School of Medicine , Philadelphia, Pennsylvania.

出版信息

AIDS Res Hum Retroviruses. 2016 Jul;32(7):705-17. doi: 10.1089/AID.2015.0344. Epub 2016 Mar 15.

DOI:10.1089/AID.2015.0344
PMID:26847431
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4931766/
Abstract

Platelet factor 4 (PF4) has been recently shown to inhibit infection by a broad range of human immunodeficiency virus type 1 (HIV-1) isolates in vitro. We found that the inhibitory effects of PF4 are limited to a defined concentration range where PF4 exists largely in a monomeric state. Under these conditions, PF4 bound the HIV-1 envelope protein and inhibited HIV-1 attachment to the cell surface. However, as concentrations increased to the point where PF4 exists largely in tetrameric or higher-order forms, viral infection in vitro was enhanced. Enhancement could be inhibited by mutations in PF4 that shift the oligomeric equilibrium toward the monomeric state, or by using soluble glycosaminoglycans (GAGs) to which tetrameric PF4 avidly binds. We conclude that at physiologically relevant concentrations, oligomeric PF4 enhances infection by HIV-1 by interacting with the viral envelope protein as well as cell surface GAGs, enhancing virus attachment to the cell surface. This effect was not specific to HIV-1, as enhancement was seen with some but not all other viruses tested. The biphasic effects of PF4 on HIV-1 infection suggest that native PF4 will not be a useful antiviral agent and that PF4 could contribute to the hematologic abnormalities commonly seen in HIV-infected individuals by enhancing virus infection in the bone marrow.

摘要

血小板因子4(PF4)最近被证明在体外可抑制多种1型人类免疫缺陷病毒(HIV-1)毒株的感染。我们发现,PF4的抑制作用仅限于特定浓度范围,在此范围内PF4主要以单体状态存在。在这些条件下,PF4与HIV-1包膜蛋白结合并抑制HIV-1附着于细胞表面。然而,当浓度增加到PF4主要以四聚体或更高阶形式存在时,体外病毒感染增强。这种增强作用可通过使寡聚平衡向单体状态转变的PF4突变,或通过使用四聚体PF4 avidly结合的可溶性糖胺聚糖(GAGs)来抑制。我们得出结论,在生理相关浓度下,寡聚PF4通过与病毒包膜蛋白以及细胞表面GAGs相互作用,增强病毒附着于细胞表面,从而增强HIV-1感染。这种效应并非HIV-1所特有,因为在一些但并非所有测试的其他病毒中也观察到了增强作用。PF4对HIV-1感染的双相效应表明,天然PF4不会是一种有用的抗病毒药物,并且PF4可能通过增强骨髓中的病毒感染,导致HIV感染个体中常见的血液学异常。