Your search keyword '"Nadia R. Roan"' showing total 4 results

1. Corrigendum: Reliable estimation of CD8 T cell inhibition of in vitro HIV-1 replication

Author

Yinyan Xu, Ann Marie Weideman, Maria Abad-Fernandez, Katie R. Mollan, Sallay Kallon, Shahryar Samir, Joanna A. Warren, Genevieve Clutton, Nadia R. Roan, Adaora A. Adimora, Nancie Archin, JoAnn Kuruc, Cynthia Gay, Michael G. Hudgens, and Nilu Goonetilleke

Subjects

HIV, VIA, p24, JRCSF, ROC, CD8, Immunologic diseases. Allergy, RC581-607

Published

2023

2. Subsets of Tissue CD4 T Cells Display Different Susceptibilities to HIV Infection and Death: Analysis by CyTOF and Single Cell RNA-seq

Author

Xiaoyu Luo, Julie Frouard, Gang Zhang, Jason Neidleman, Guorui Xie, Emma Sheedy, Nadia R. Roan, and Warner C. Greene

Subjects

human immunodeficiency virus (HIV), cell death, apoptosis, pyroptosis, lymphoid tissues, mass cytometry, Immunologic diseases. Allergy, RC581-607

Abstract

CD4 T lymphocytes belong to diverse cellular subsets whose sensitivity or resistance to HIV-associated killing remains to be defined. Working with lymphoid cells from human tonsils, we characterized the HIV-associated depletion of various CD4 T cell subsets using mass cytometry and single-cell RNA-seq. CD4 T cell subsets preferentially killed by HIV are phenotypically distinct from those resistant to HIV-associated cell death, in a manner not fully accounted for by their susceptibility to productive infection. Preferentially-killed subsets express CXCR5 and CXCR4 while preferentially-infected subsets exhibit an activated and exhausted effector memory cell phenotype. Single-cell RNA-seq analysis reveals that the subsets of preferentially-killed cells express genes favoring abortive infection and pyroptosis. These studies emphasize a complex interplay between HIV and distinct tissue-based CD4 T cell subsets, and the important contribution of abortive infection and inflammatory programmed cell death to the overall depletion of CD4 T cells that accompanies untreated HIV infection.

Published

2022

3. Deep Phenotypic Analysis of Blood and Lymphoid T and NK Cells From HIV+ Controllers and ART-Suppressed Individuals

Author

Ashley F. George, Xiaoyu Luo, Jason Neidleman, Rebecca Hoh, Poonam Vohra, Reuben Thomas, Min-Gyoung Shin, Madeline J. Lee, Catherine A. Blish, Steven G. Deeks, Warner C. Greene, Sulggi A. Lee, and Nadia R. Roan

Subjects

HIV, lymph node, T cells, NK cells, CXCR5, controllers, Immunologic diseases. Allergy, RC581-607

Abstract

T and natural killer (NK) cells are effector cells with key roles in anti-HIV immunity, including in lymphoid tissues, the major site of HIV persistence. However, little is known about the features of these effector cells from people living with HIV (PLWH), particularly from those who initiated antiretroviral therapy (ART) during acute infection. Our study design was to use 42-parameter CyTOF to conduct deep phenotyping of paired blood- and lymph node (LN)-derived T and NK cells from three groups of HIV+ aviremic individuals: elite controllers (N = 5), and ART-suppressed individuals who had started therapy during chronic (N = 6) vs. acute infection (N = 8), the latter of which is associated with better outcomes. We found that acute-treated individuals are enriched for specific subsets of T and NK cells, including blood-derived CD56-CD16+ NK cells previously associated with HIV control, and LN-derived CD4+ T follicular helper cells with heightened expansion potential. An in-depth comparison of the features of the cells from blood vs. LNs of individuals from our cohort revealed that T cells from blood were more activated than those from LNs. By contrast, LNs were enriched for follicle-homing CXCR5+ CD8+ T cells, which expressed increased levels of inhibitory receptors and markers of survival and proliferation as compared to their CXCR5- counterparts. In addition, a subset of memory-like CD56brightTCF1+ NK cells was enriched in LNs relative to blood. These results together suggest unique T and NK cell features in acute-treated individuals, and highlight the importance of examining effector cells not only in blood but also the lymphoid tissue compartment, where the reservoir mostly persists, and where these cells take on distinct phenotypic features.

Published

2022

4. Reliable Estimation of CD8 T Cell Inhibition of In Vitro HIV-1 Replication

Author

Yinyan Xu, Ann Marie Weideman, Maria Abad-Fernandez, Katie R. Mollan, Sallay Kallon, Shahryar Samir, Joanna A. Warren, Genevieve Clutton, Nadia R. Roan, Adaora A. Adimora, Nancie Archin, JoAnn Kuruc, Cynthia Gay, Michael G. Hudgens, and Nilu Goonetilleke

Subjects

HIV, VIA, p24, JRCSF, ROC, CD8, Immunologic diseases. Allergy, RC581-607

Abstract

The HIV-1 viral inhibition assay (VIA) measures CD8 T cell-mediated inhibition of HIV replication in CD4 T cells and is increasingly used for clinical testing of HIV vaccines and immunotherapies. The VIA has multiple sources of variability arising from in vitro HIV infection and co-culture of two T cell populations. Here, we describe multiple modifications to a 7-day VIA protocol, the most impactful being the introduction of independent replicate cultures for both HIV infected-CD4 (HIV-CD4) and HIV-CD4:CD8 T cell cultures. Virus inhibition was quantified using a ratio of weighted averages of p24+ cells in replicate cultures and the corresponding 95% confidence interval. An Excel template is provided to facilitate calculations. Virus inhibition was higher in people living with HIV suppressed on antiretroviral therapy (n=14, mean: 40.0%, median: 43.8%, range: 8.2 to 73.3%; p < 0.0001, two-tailed, exact Mann-Whitney test) compared to HIV-seronegative donors (n = 21, mean: -13.7%, median: -14.4%, range: -49.9 to 20.9%) and was stable over time (n = 6, mean %COV 9.4%, range 0.9 to 17.3%). Cross-sectional data were used to define 8% inhibition as the threshold to confidently detect specific CD8 T cell activity and determine the minimum number of culture replicates and p24+ cells needed to have 90% statistical power to detect this threshold. Last, we note that, in HIV seronegative donors, the addition of CD8 T cells to HIV infected CD4 T cells consistently increased HIV replication, though the level of increase varied markedly between donors. This co-culture effect may contribute to the weak correlations observed between CD8 T cell VIA and other measures of HIV-specific CD8 T cell function.

Published

2021