HIV-1 Nef is carried on the surface of extracellular vesicles.
Christophe VanpouilleBeda BrichacekTatiana PushkarskyLarisa DubrovskyWendy FitzgeraldNigora MukhamedovaSofia Garcia-HernandezDoreen MatthiesAnastas PopratiloffDmitri SviridovLeonid MargolisMichael I BukrinskyPublished in: Journal of extracellular vesicles (2024)
Extracellular vesicles (EVs) serve as pivotal mediators of intercellular communication in both health and disease, delivering biologically active molecules from vesicle-producing cells to recipient cells. In the context of HIV infection, EVs have been shown to carry the viral protein Nef, a key pathogenic factor associated with HIV-related co-morbidities. Despite this recognition, the specific localisation of Nef within the vesicles has remained elusive. This study addresses this critical knowledge gap by investigating Nef-containing EVs. Less than 1% of the total released Nef was associated with EVs; most Nef existed as free protein released by damaged cells. Nevertheless, activity of EV-associated Nef in downregulating the major cholesterol transporter ABCA1, a critical aspect linked to the pathogenic effects of Nef, was comparable to that of free Nef present in the supernatant. Through a series of biochemical and microscopic assays, we demonstrate that the majority of EV-associated Nef molecules are localised on the external surface of the vesicles. This distinctive distribution prompts the consideration of Nef-containing EVs as potential targets for immunotherapeutic interventions aimed at preventing or treating HIV-associated co-morbidities. In conclusion, our results shed light on the localisation and functional activity of Nef within EVs, providing valuable insights for the development of targeted immunotherapies to mitigate the impact of HIV-associated co-morbidities.
Keyphrases
- antiretroviral therapy
- hiv positive
- hiv infected
- induced apoptosis
- human immunodeficiency virus
- hepatitis c virus
- hiv testing
- cell cycle arrest
- healthcare
- public health
- men who have sex with men
- cell death
- mental health
- physical activity
- south africa
- high throughput
- climate change
- drug delivery
- small molecule
- social media
- protein protein
- cancer therapy