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T cell cytoskeletal forces shape synapse topography for targeted lysis via membrane curvature bias of perforin

Matt Govendir, Daryan Kempe, Setareh Sianati, James Cremasco, Jessica K. Mazalo, Feyza Colakoglu, Matteo Golo, Kate Poole, Maté Biro

2022Developmental Cell28 citationsDOIOpen Access PDF

Abstract

Cytotoxic T lymphocytes (CTLs) lyse target cells by delivering lytic granules that contain the pore former perforin to the cytotoxic immunological synapse. Here, we establish that opposing cytoskeletal forces drive lytic granule polarization and simultaneously shape T cell synapse topography to enhance target perforation. At the cell rear, actomyosin contractility drives the anterograde movement of lytic granules toward the nucleus. At the synapse, dynein-derived forces induce negatively curved membrane pockets to which granules are transported around the nucleus. These highly concave degranulation pockets are located directly opposite positively curved bulges on the target cell membrane. We identify a curvature bias in the action of perforin, which preferentially perforates positively curved tumor cell membrane. Together, these findings demonstrate murine and human T cell-mediated cytotoxicity to be a highly tuned mechano-biochemical system, in which the forces that polarize lytic granules locally bend the synaptic membrane to favor the unidirectional perforation of the target cell.

Topics & Concepts

CytoskeletonBiologyLytic cycleCell biologyImmunological synapseCell membraneSynapseCytotoxic T cellMembrane curvatureCellLysisPerforinBiophysicsMembraneT cellNeuroscienceImmunologyVirusVesicleImmune systemIn vitroBiochemistryT-cell receptorCellular Mechanics and InteractionsLipid Membrane Structure and BehaviorCellular transport and secretion
T cell cytoskeletal forces shape synapse topography for targeted lysis via membrane curvature bias of perforin | Litcius