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Assessing Immunological Synapse Topology through Live-Cell Imaging

Assessing Immunological Synapse Topology through Live-Cell Imaging

Transcrição

Take a microscope dish with buffer containing transfected, superantigen-treated human endothelial cells, with the superantigens complexed to class II MHC molecules.

These artificial antigen-presenting cells co-express different fluorescent proteins on their membranes and cytoplasm.

Next, introduce T lymphocytes, which interact with the superantigens on the endothelial cells via T cell receptors, forming a stable cell-cell junction, an immunological synapse.

This triggers T lymphocyte cytoskeleton rearrangement, initiating cell spreading and actin extension, resulting in the formation of invadosome-like protrusions, or ILPs, enriched with actin, adhesion, and signaling molecules.

Adhesion molecules bind specific receptors on the endothelial cells, strengthening the interaction.

Synapse formation activates T lymphocyte signaling pathways, elevating intracellular calcium levels and stabilizing ILPs.

ILPs induce localized membrane bending in endothelial cells, forming transient surface rings.

Under a fluorescence microscope, analyze the synapse topology comprising dark circular zones of fluorescent cytoplasm displacement in the endothelial cell, co-localized with differently fluorescent membrane rings around ILPs, confirming immunological synapse formation.

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