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Commonly Occurring Cell Subsets in High-Grade Serous Ovarian Tumors Identified by Single-Cell Mass Cytometry.单细胞质谱流式细胞术鉴定高级别浆液性卵巢肿瘤中的常见细胞亚群。
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Elevated expression impairs HIV control through inhibition of NKG2A-expressing cells.表达上调通过抑制表达NKG2A的细胞来损害对HIV的控制。
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Control of the HIV-1 DNA Reservoir Is Associated and with NKp46/NKp30 (CD335 CD337) Inducibility and Interferon Gamma Production by Transcriptionally Unique NK Cells.HIV-1 DNA 储存库的控制与转录独特的自然杀伤细胞的NKp46/NKp30(CD335/CD337)诱导性及γ干扰素产生相关。
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Natural killer cells in HIV-1 infection and therapy.自然杀伤细胞在 HIV-1 感染和治疗中的作用。
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Reduced Expression of Siglec-7, NKG2A, and CD57 on Terminally Differentiated CD56CD16 Natural Killer Cell Subset Is Associated with Natural Killer Cell Dysfunction in Chronic HIV-1 Clade C Infection.终末分化的CD56CD16自然杀伤细胞亚群中Siglec-7、NKG2A和CD57的表达降低与慢性HIV-1 C亚型感染中的自然杀伤细胞功能障碍相关。
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Siglec-7 Defines a Highly Functional Natural Killer Cell Subset and Inhibits Cell-Mediated Activities.唾液酸结合免疫球蛋白样凝集素7定义了一个高功能的自然杀伤细胞亚群并抑制细胞介导的活性。
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鉴定能够区分具有不同病毒控制水平的 HIV 感染受试者亚群的 NK 细胞亚群。

Identification of NK Cell Subpopulations That Differentiate HIV-Infected Subject Cohorts with Diverse Levels of Virus Control.

机构信息

Gilead Sciences, Inc., Foster City, California, USA.

Department of Microbiology and Immunology, Baxter Laboratory in Stem Cell Biology, Stanford University, Stanford, California, USA.

出版信息

J Virol. 2019 Mar 21;93(7). doi: 10.1128/JVI.01790-18. Print 2019 Apr 1.

DOI:10.1128/JVI.01790-18
PMID:30700608
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6430550/
Abstract

HIV infection is controlled immunologically in a small subset of infected individuals without antiretroviral therapy (ART), though the mechanism of control is unclear. CD8 T cells are a critical component of HIV control in many immunological controllers. NK cells are also believed to have a role in controlling HIV infection, though their role is less well characterized. We used mass cytometry to simultaneously measure the levels of expression of 24 surface markers on peripheral NK cells from HIV-infected subjects with various degrees of HIV natural control; we then used machine learning to identify NK cell subpopulations that differentiate HIV controllers from noncontrollers. Using CITRUS (cluster identification, characterization, and regression), we identified 3 NK cell subpopulations that differentiated subjects with chronic HIV viremia (viremic noncontrollers [VNC]) from individuals with undetectable HIV viremia without ART (elite controllers [EC]). In a parallel approach, we identified 11 NK cell subpopulations that differentiated HIV-infected subject groups using k-means clustering after dimensionality reduction by t-neighbor stochastic neighbor embedding (tSNE) or linear discriminant analysis (LDA). Among these additional 11 subpopulations, the frequencies of 5 correlated with HIV DNA levels; importantly, significance was retained in 2 subpopulations in analyses that included only cohorts without detectable viremia. By comparing the surface marker expression patterns of all identified subpopulations, we revealed that the CD11b CD57 CD161 Siglec-7 subpopulation of CD56 CD16 NK cells are more abundant in EC and HIV-negative controls than in VNC and that the frequency of these cells correlated with HIV DNA levels. We hypothesize that this population may have a role in immunological control of HIV infection. HIV infection results in the establishment of a stable reservoir of latently infected cells; ART is usually required to keep viral replication under control and disease progression at bay, though a small subset of HIV-infected subjects can control HIV infection without ART through immunological mechanisms. In this study, we sought to identify subpopulations of NK cells that may be involved in the natural immunological control of HIV infection. We used mass cytometry to measure surface marker expression on peripheral NK cells. Using two distinct semisupervised machine learning approaches, we identified a CD11b CD57 CD161 Siglec-7 subpopulation of CD56 CD16 NK cells that differentiates HIV controllers from noncontrollers. These cells can be sorted out for future functional studies to assess their potential role in the immunological control of HIV infection.

摘要

HIV 感染在未经抗逆转录病毒治疗(ART)的一小部分感染者中受到免疫控制,尽管其控制机制尚不清楚。CD8 T 细胞是许多免疫控制者中 HIV 控制的关键组成部分。NK 细胞也被认为在控制 HIV 感染中发挥作用,尽管其作用尚未得到很好的描述。我们使用质谱流式细胞术同时测量了来自具有不同程度 HIV 自然控制的 HIV 感染者外周 NK 细胞表面 24 种标记物的表达水平;然后使用机器学习来识别区分 HIV 控制者和非控制者的 NK 细胞亚群。使用 CITRUS(聚类识别、特征描述和回归),我们在慢性 HIV 病毒血症的非控制者(viremic noncontrollers [VNC])和未经 ART 治疗即可检测到 HIV 病毒血症的个体(精英控制者 [EC])之间鉴定出 3 种 NK 细胞亚群。在平行方法中,我们使用 t-邻居随机邻域嵌入(tSNE)或线性判别分析(LDA)降维后,使用 k-均值聚类识别出 11 种可区分 HIV 感染个体组的 NK 细胞亚群。在这些额外的 11 个亚群中,有 5 个亚群的频率与 HIV DNA 水平相关;重要的是,在仅包括未检测到病毒血症的队列的分析中,2 个亚群保留了显著性。通过比较所有鉴定出的亚群的表面标记表达模式,我们发现 CD56 CD16 NK 细胞中的 CD11b CD57 CD161 Siglec-7 亚群在 EC 和 HIV 阴性对照中比 VNC 更为丰富,并且这些细胞的频率与 HIV DNA 水平相关。我们假设该群体可能在 HIV 感染的免疫控制中发挥作用。HIV 感染导致潜伏感染细胞的稳定储存库的建立;ART 通常是控制病毒复制和阻止疾病进展所必需的,尽管一小部分 HIV 感染者可以通过免疫机制在没有 ART 的情况下控制 HIV 感染。在这项研究中,我们试图确定可能参与 HIV 感染自然免疫控制的 NK 细胞亚群。我们使用质谱流式细胞术测量外周 NK 细胞的表面标记表达。使用两种不同的半监督机器学习方法,我们鉴定出 CD56 CD16 NK 细胞中的 CD11b CD57 CD161 Siglec-7 亚群可区分 HIV 控制者和非控制者。可以对这些细胞进行分选,以进行未来的功能研究,评估它们在 HIV 感染免疫控制中的潜在作用。