NKG2C and NKG2A coexpression defines a highly functional antiviral NK population in spontaneous HIV control
Nerea Sánchez-Gaona, … , Meritxell Genescà, Maria J. Buzon
Nerea Sánchez-Gaona, … , Meritxell Genescà, Maria J. Buzon
Published September 17, 2024
Citation Information: JCI Insight. 2024;9(20):e182660. https://doi.org/10.1172/jci.insight.182660.
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Research Article AIDS/HIV

NKG2C and NKG2A coexpression defines a highly functional antiviral NK population in spontaneous HIV control

Abstract

Elite controllers (ECs), a unique group of people with HIV (PWH), exhibit remarkable control of viral replication in the absence of antiretroviral therapy. In this study, we comprehensively characterized the NK cell repertoire in ECs after long-term viral control. Phenotypic profiling of NK cells revealed profound differences compared with other PWH, but marked similarities to uninfected individuals, with a distinctive prevalence of NKG2C+CD57+ memory-like NK cells. Functional analyses indicated that ECs had limited production of functional molecules upon NK stimulation and consequently reduced natural cytotoxicity against non-HIV target cells. Importantly, ECs showed an exceptional ability to kill primary HIV-infected cells by the antibody-dependent cell cytotoxicity adaptive mechanism, which was achieved by a specific memory-like NK population expressing CD16, NKG2A, NKG2C, CD57, and CXCR3. In-depth single-cell RNA-seq unveiled a unique transcriptional signature in these NK cells linked to increased cell metabolism, migration, chemotaxis, effector functions, cytokine secretion, and antiviral response. Our findings underscore a pivotal role of NK cells in the immune control of HIV and identify specific NK cells as emerging targets for immunotherapies.

Authors

Nerea Sánchez-Gaona, Ana Gallego-Cortés, Antonio Astorga-Gamaza, Norma Rallón, José Miguel Benito, Ezequiel Ruiz-Mateos, Adrian Curran, Joaquin Burgos, Jordi Navarro, Paula Suanzes, Vicenç Falcó, Meritxell Genescà, Maria J. Buzon

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Figure 1

Phenotypic characterization of NK cells in ECs.

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Phenotypic characterization of NK cells in ECs. The expression of differ...
The expression of different NK markers was quantified by flow cytometry in different study groups: healthy donors (HD, n = 25), ECs with durable HIV control (DC, n = 21), ECs with aborted immunological control (AC, n = 13), PWH ART-treated individuals (ART, n = 24), and viremic PWH (VIR, n = 18). (A) Representative flow cytometry plots depicting the NK cell subset gating strategy from CD3 cells based on CD56 and CD16 expression (left: CD56+ total, CD56dimCD16hi, and CD56bright) and NKG2C and CD57 expression (right: NKG2C+CD57+ memory-like NK cells). (B) Violin plots depicting the frequency of different NK cell populations identified (left to right: CD56+ total, CD56dimCD16high, and CD56bright). (C) Violin plots depicting the frequency of memory-like NKG2C+CD57+ NK cells. (D) Violin plots depicting the frequency of different NK cell markers in CD56+ total NK cells by study group (left to right: CD158b, CXCR3, KLRG1, NKG2A, NKG2D, NKp30, NKG2C, and CD57). (E) Violin plots depicting the frequency of distinct NK cell receptors in expanded memory-like NKG2C+CD57+ NK cells (frequency >5% and counts >25; left to right: CD158b, CXCR3, KLRG1, NKG2A, NKG2D, and NKp30). Median with range is represented. Statistical comparisons were performed using Kruskal-Wallis 1-way ANOVA followed by Dunn’s multiple-comparison test. *P < 0.05; **P < 0<01; ***P < 0.001; ****P < 0.0001.