Identification of distinct cytotoxic granules as the origin of supramolecular attack particles in T lymphocytes.
Hsin-Fang ChangClaudia SchirraMomchil NinovUlrike HahnKeerthana RavichandranElmar KrauseUte BechererŠtefan BálintMaria HarkiolakiHenning UrlaubSalvatore ValituttiCosima T BaldariMichael L DustinReinhard JahnJens RettigPublished in: Nature communications (2022)
Cytotoxic T lymphocytes (CTL) kill malignant and infected cells through the directed release of cytotoxic proteins into the immunological synapse (IS). The cytotoxic protein granzyme B (GzmB) is released in its soluble form or in supramolecular attack particles (SMAP). We utilize synaptobrevin2-mRFP knock-in mice to isolate fusogenic cytotoxic granules in an unbiased manner and visualize them alone or in degranulating CTLs. We identified two classes of fusion-competent granules, single core granules (SCG) and multi core granules (MCG), with different diameter, morphology and protein composition. Functional analyses demonstrate that both classes of granules fuse with the plasma membrane at the IS. SCG fusion releases soluble GzmB. MCGs can be labelled with the SMAP marker thrombospondin-1 and their fusion releases intact SMAPs. We propose that CTLs use SCG fusion to fill the synaptic cleft with active cytotoxic proteins instantly and parallel MCG fusion to deliver latent SMAPs for delayed killing of refractory targets.