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Differential signalling requirements for RIPK1-dependent pyroptosis in neutrophils and macrophages

See Jie Yow, Safwah Nasuha Rosli, Paul Hutchinson, Kaiwen Chen

2024Cell Death and Disease11 citationsDOIOpen Access PDF

Abstract

TLR4 and TNFR1 signalling promotes potent proinflammatory signal transduction events, thus, are often hijacked by pathogenic microorganisms. We recently reported that myeloid cells retaliate Yersinia blockade of TAK1/IKK signalling by triggering RIPK1-dependent caspase-8 activation that promotes downstream GSDMD and GSDME-mediated pyroptosis in macrophages and neutrophils respectively. However, the upstream signalling events for RIPK1 activation in these cells are not well defined. Here, we demonstrate that unlike in macrophages, RIPK1-driven pyroptosis and cytokine priming in neutrophils are driven through TNFR1 signalling, while TLR4-TRIF signalling is dispensable. Furthermore, we demonstrate that activation of RIPK1-dependent pyroptosis in neutrophils during Yersinia infection requires IFN-γ priming, which serves to induce surface TNFR1 expression and amplify soluble TNF secretion. In contrast, macrophages utilise both TNFR1 and TLR4-TRIF signalling to trigger cell death, but only require TRIF but not autocrine TNFR1 for cytokine production. Together, these data highlight the emerging theme of cell type-specific regulation in cell death and immune signalling in myeloid cells.

Topics & Concepts

PyroptosisTRIFCell biologyNecroptosisProinflammatory cytokineSignal transductionRIPK1BiologyInflammasomeProgrammed cell deathSuppressor of cytokine signallingSOCS3Immune systemImmunologyInflammationApoptosisInnate immune systemBiochemistryToll-like receptorSTAT3Inflammasome and immune disordersImmune Response and Inflammationinterferon and immune responses
Differential signalling requirements for RIPK1-dependent pyroptosis in neutrophils and macrophages | Litcius