Litcius/Paper detail

IKK2/NFkB signaling controls lung resident CD8+ T cell memory during influenza infection

Curtis J. Pritzl, Dezzarae Luera, Karin M. Knudson, Michael J. Quaney, Michael J. Calcutt, Mark A. Daniëls, Emma Teixeiro

2023Nature Communications15 citationsDOIOpen Access PDF

Abstract

Abstract CD8 + T cell tissue resident memory (T RM ) cells are especially suited to control pathogen spread at mucosal sites. However, their maintenance in lung is short-lived. TCR-dependent NFkB signaling is crucial for T cell memory but how and when NFkB signaling modulates tissue resident and circulating T cell memory during the immune response is unknown. Here, we find that enhancing NFkB signaling in T cells once memory to influenza is established, increases pro-survival Bcl-2 and CD122 levels thus boosting lung CD8 + T RM maintenance. By contrast, enhancing NFkB signals during the contraction phase of the response leads to a defect in CD8 + T RM differentiation without impairing recirculating memory subsets. Specifically, inducible activation of NFkB via constitutive active IKK2 or TNF interferes with TGFβ signaling, resulting in defects of lung CD8 + T RM imprinting molecules CD69, CD103, Runx3 and Eomes. Conversely, inhibiting NFkB signals not only recovers but improves the transcriptional signature and generation of lung CD8 + T RM . Thus, NFkB signaling is a critical regulator of tissue resident memory, whose levels can be tuned at specific times during infection to boost lung CD8 + T RM .

Topics & Concepts

CD8T cellCytotoxic T cellLungImmunologyMemory T cellImmune systemCell biologySignal transductionBiologyCancer researchChemistryMedicineInternal medicineGeneticsIn vitroImmune Cell Function and InteractionT-cell and B-cell ImmunologyImmune Response and Inflammation