Article
Immunometabolism is a key factor for the persistent spontaneous elite control of HIV-1 infection
Author/s | Tarancon Diez, Laura
Rodríguez-Gallego, Laura Rull, Anna Peraire, Joaquim Viladés, Consuelo Portilla, Irene Jiménez León, María Reyes Alba, Verónica Herrero, Pol Leal Noval, Manuel Ruiz-Mateos Carmona, Ezequiel Vidal, Francesc |
Department | Instituto de Biomedicina de Sevilla (IBIS) |
Publication Date | 2019-03 |
Deposit Date | 2019-05-28 |
Published in |
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Abstract | Approximately 25% of elite controllers (ECs) lose their virological control by mechanisms that are
only partially known. Recently, immunovirological and proteomic factors have been associated to the loss of
spontaneous ... Approximately 25% of elite controllers (ECs) lose their virological control by mechanisms that are only partially known. Recently, immunovirological and proteomic factors have been associated to the loss of spontaneous control. Our aim was to perform a metabolomic approach to identify the underlying mechanistic pathways and potential biomarkers associated with this loss of control. Methods: Plasma samples from EC who spontaneously lost virological control (Transient Controllers, TC, n=8), at two and one year before the loss of control, were comparedwith a control group of ECwho persistently maintained virological control during the same follow-up period (Persistent Controllers, PC, n=8). The determination of metabolites and plasma lipids was performed by GC-qTOF and LC-qTOF using targeted and untargeted approaches. Metabolite levels were associated with the polyfunctionality of HIV-specific CD8+T-cell response. Findings: Our data suggest that, before the loss of control, TCs showed a specific circulating metabolomic profile characterized by aerobic glycolytic metabolism, deregulated mitochondrial function, oxidative stress and increased immunological activation. In addition, CD8+ T-cell polyfunctionality was strongly associated with metabolite levels. Finally, valine was the main differentiating factor between TCs and PCs. Interpretation: All these metabolomic differences should be considered not only as potential biomarkers but also as therapeutic targets in HIV infection. |
Project ID. | PI10/02635
PI13/00796 PI16/00503 PI12/02283 PI16/00684 CPII014/00025 FI14/00431 FI17/00186 2017SGR948 2014SGR250 GLD14/293 GLD17/00299 RD12/0017/0005 RD16/0025/0006 RD12/0017/0029 RD16/0025/0020 C-0032/17 INT11/240 INT12/282 INT15/226 PERIS SLT002/16/00101 |
Citation | Tarancon Diez, L., Rodríguez-Gallego, L., Rull, A., Peraire, J., Viladés, C., Portilla, I.,...,Vidal, F. (2019). Immunometabolism is a key factor for the persistent spontaneous elite control of HIV-1 infection. EBioMedicine, 42, 86-96. |
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