Extracellular vesicles in COVID-19 convalescence can regulate T cell metabolism and function

Long-term T cell dysregulation has been reported following COVID-19 disease. Prolonged T cell activation is associated with disease severity and may be implicated in producing long-covid symptoms. Here, we assess the role of extracellular vesicles (EV) in regulating T cell function over several weeks post COVID-19 disease. We find that alterations in cellular origin and protein content of EV in COVID-19 convalescence are linked to initial disease severity. We demonstrate that convalescent donor-derived EV can alter the function and metabolic rewiring of CD4 and CD8 T cells. Of note, EV following mild, but not severe disease, show distinctly immune-suppressive properties, reducing T cell effector cytokine production and glucose metabolism. Mechanistically our data indicate the involvement of EV-surface ICAM-1 in facilitating EV-T cell interaction. Our data demonstrate that circulatory EV are phenotypically and functionally altered several weeks following acute infection, suggesting a role for EV as long-term immune modulators.

Automated summary

Long-term T cell dysregulation following COVID-19 disease is associated with disease severity and long-covid symptoms. Alterations in cellular origin and protein content of extracellular vesicles (EV) during COVID-19 convalescence are linked to initial disease severity. EV derived from convalescent donors can affect the function and metabolic rewiring of CD4 and CD8 T cells, with immune-suppressive properties observed in mild cases.