Science

Lymphoid tissue chemokines limit priming duration to preserve CD8(+) T cell functionality

29.4.2026 Source: Science

Summary

The generation of effector CD8+ T cells (TEFF) requires activation of naïve CCR7+ T cells (TN) by dendritic cells (DCs) in lymphoid tissue. How TN-DC interaction duration and signal integration are controlled remains unclear. In this study, we show that lymphoid stroma-secreted CCR7 ligands limit interaction duration by progressively inducing CD8+ T cell release from DCs. At late interaction stages, CCR7 ligands relocalize the F-actin regulator DOCK2 away from the DC interface, permitting

Content

# Lymphoid tissue chemokines limit priming duration to preserve CD8(+) T cell functionality *Published: 2026 Apr 30* The generation of effector CD8+ T cells (TEFF) requires activation of naïve CCR7+ T cells (TN) by dendritic cells (DCs) in lymphoid tissue. How TN-DC interaction duration and signal integration are controlled remains unclear. In this study, we show that lymphoid stroma-secreted CCR7 ligands limit interaction duration by progressively inducing CD8+ T cell release from DCs. At late interaction stages, CCR7 ligands relocalize the F-actin regulator DOCK2 away from the DC interface, permitting T cell detachment, proliferation onset, and acquisition of cytotoxicity. Disruption of CCR7 signaling causes prolonged T cell-DC contacts and produces dysfunctional TEFF with elevated inhibitory receptors, reduced antimicrobial activity, and impaired recall responses. Stromal chemokines therefore act as critical regulators of T cell priming by DCs, preserving CD8+ effector function during acute and memory phases. DOI: 10.1126/science.adq2080