Our understanding of programmed cell death 1 (PD-1) biology is limited due to technical difficulties in establishing reproducible, yet simple, in vitro assays to study PD-1 signaling in primary human T cells. The protocols in this article were refined to test the consequences of PD-1 ligation on short-term T cell signaling, long-term T cell function, and the structural consequences of PD-1 ligation with PD-1 ligands. Basic Protocol 1 addresses the need for a robust and reproducible short-term assay to examine the signaling cascade triggered by PD-1. We describe a phospho flow cytometry method to determine how PD-1 ligation alters the level of CD3ζ phosphorylation on Tyr142 , which can be easily applied to other proximal signaling proteins. Basic Protocol 2 describes a plate-bound assay that is useful to examine the long-term consequences of PD-1 ligation such as cytokine production and T cell proliferation. Complementary to that, Basic Protocol 3 describes an in vitro superantigen-based assay to evaluate T cell responses to therapeutic agents targeting the PD-1/PD-L axis, as well as immune synapse formation in the presence of PD-1 engagement. Finally, in Basic Protocol 4 we outline a tetramer-based method useful to interrogate the quality of PD-1/PD-L interactions. These protocols can be easily adapted for mouse studies and other inhibitory receptors. They provide a valuable resource to investigate PD-1 signaling in T cells and the functional consequences of various PD-1-based therapeutics on T cell responses. © 2020 Wiley Periodicals LLC. Basic Protocol 1: PD-1 crosslinking assay to determine CD3ζ phosphorylation in primary human T cells Basic Protocol 2: Plate-based ligand binding assay to study PD-1 function in human T cells Support Protocol 1: T cell proliferation assay in the presence of PD-1 ligation Basic Protocol 3: In vitro APC/T cell co-culture system to evaluate therapeutic interventions targeting the PD-1/PD-L1 axis Support Protocol 2: Microscopy-based approach to evaluate the consequences of PD-1 ligation on immune synapse formation Basic Protocol 4: Tetramer-based approach to study PD-1/PD-L1 interactions.
Keywords: PD-1; PD-1 ligation; PD-L1; PD-L2; T cell signaling; primary human T cells.
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