In addition to microvilli's role as structural scaffold for TCR clustering, we recently discovered a novel function as message senders. We found that microvilli are separated from the T cell body shortly upon TCR stimulation and vesiculated to form T cell microvilli particles (TMPs), a new type of membrane vesicles. TMPs and synaptic ectosomes, which bud from the synaptic cleft, constitute "T cell immunological synaptosomes (TISs)" and act as conveyors of T cell messages or traits to cognate antigen-presenting cells. In practice, it is almost impossible to distinguish between TMPs and synaptic ectosomes. Here, we describe a newly developed protocol to isolate TISs from activated T cells using antibody-immobilized agarose beads and density gradient ultracentrifugation. We further describe the methods for TIS quantification with flow cytometry and to evaluate TIS efficacy on dendritic cells.
Keywords: Antibody-immobilized agarose beads; Extracellular vesicles; Microvilli; T cell immunological synaptosomes (TISs); T cell microvilli particles (TMPs).
© 2023. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.