1. Sirtuin-2, NAD-Dependent Deacetylase, Is a New Potential Therapeutic Target for HIV-1 Infection and HIV-Related Neurological Dysfunction
- Author
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Clara Duran-Castells, Anuska Llano, Ai Kawana-Tachikawa, Anna Prats, Ignacio Martinez-Zalacain, Mie Kobayashi-Ishihara, Bruna Oriol-Tordera, Ruth Peña, Cristina Gálvez, Sandra Silva-Arrieta, Bonaventura Clotet, Eva Riveira-Muñoz, Esther Ballana, Julia G. Prado, Javier Martinez-Picado, Jorge Sanchez, Beatriz Mothe, Dennis Hartigan-O’Connor, Tony Wyss-Coray, Andreas Meyerhans, Magnus Gisslén, Richard W. Price, Carles Soriano-Mas, José Antonio Muñoz-Moreno, Christian Brander, and Marta Ruiz-Riol
- Subjects
Biochemical markers ,Immunology ,Nervous system Diseases ,Plasma proteomics ,Neuroimaging ,HIV reservoir ,Microbiology ,Malalties del sistema nerviós ,Virology ,Insect Science ,Marcadors bioquímics ,HIV-associated neurocognitive disorders (HAND) ,HIV-1 ,Infeccions per VIH ,Virus infection control ,Neurological disorder ,HIV infections - Abstract
The implementation and access to combined antiretroviral treatment (cART) have dramatically improved the quality of life of people living with HIV (PLWH). However, some comorbidities, such as neurological disorders associated with HIV infection still represent a serious clinical challenge. Soluble factors in plasma that are associated with control of HIV replication and neurological dysfunction could serve as early biomarkers and as new therapeutic targets for this comorbidity. We used a customized antibody array for determination of blood plasma factors in 40 untreated PLWH with different levels of viremia and found sirtuin-2 (SIRT2), an NAD-dependent deacetylase, to be strongly associated with elevated viral loads and HIV provirus levels, as well as with markers of neurological damage (a-synuclein [SNCA], brain-derived neurotrophic factor [BDNF], microtubule-associated protein tau [MAPT], and neurofilament light protein [NFL]). Also, longitudinal analysis in HIV-infected individuals with immediate (n = 9) or delayed initiation (n = 10) of cART revealed that after 1 year on cART, SIRT2 plasma levels differed between both groups and correlated inversely with brain orbitofrontal cortex involution. Furthermore, targeting SIRT2 with specific small-molecule inhibitors in in vitro systems using J-LAT A2 and primary glial cells led to diminished HIV replication and virus reactivation from latency. Our data thus identify SIRT2 as a novel biomarker of uncontrolled HIV infection, with potential impact on neurological dysfunction and offers a new therapeutic target for HIV treatment and cure. IMPORTANCE Neurocognitive disorders are frequently reported in people living with HIV (PLWH) even with the introduction of combined antiretroviral treatment (cART). To identify biomarkers and potential therapeutic tools to target HIV infection in peripheral blood and in the central nervous system (CNS), plasma proteomics were applied in untreated chronic HIV-infected individuals with different levels of virus control. High plasma levels of sirtuin-2 (SIRT2), an NAD+ deacetylase, were detected in uncontrolled HIV infection and were strongly associated with plasma viral load and proviral levels. In parallel, SIRT2 levels in the peripheral blood and CNS were associated with markers of neurological damage and brain involution and were more pronounced in individuals who initiated cART later in infection. In vitro infection experiments using specific SIRT2 inhibitors suggest that specific targeting of SIRT2 could offer new therapeutic treatment options for HIV infections and their associated neurological dysfunction. This work was supported by grants from the Ministerio de Ciencia e Innovación (SAF2012-32078 and PID2020-119710RB-I00), the European Union’s Horizon 2020 research and innovation program under grant agreement 681137-EAVI2020, European Commission (EPIVINF-GA6932308), NIH grant P01-AI131568, JR13/00024, the Institució Catalana de Recerca i Estudis Avançats; ICREA, Swedish State Support for Clinical Research (ALFGBG-717531) and a research agreement with Aelix Therapeutics and Grifols.
- Published
- 2023
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