Inflammasome and gasdermin signaling in neutrophils.

Inflammasomes and gasdermins mount potent host defense pathways against invading microbial pathogens, however, dysregulation in these pathways can drive a variety of inflammatory disorders. Neutrophils, historically regarded as effector phagocytes that drive host defense via microbial killing, are now emerging as critical drivers of immunity in vivo. Here, we summarize, the latest advancement in inflammasome, gasdermin, and cell death signaling in neutrophils. We discuss the mechanisms by which neutrophils resist caspase-1-dependent pyroptosis, the lytic function of gasdermin D and E during NETosis and Yersinia infection, and the contribution of neutrophil inflammasomes to inflammatory disorders.

Shared signatures and divergence in skin microbiomes of children with atopic dermatitis and their caregivers.

BACKGROUND: Atopic dermatitis (AD) is a common chronic skin condition in children (15-20%) that can significantly impair their quality of life. As a result of its relapsing nature and enrichment of Staphylococcus aureus during flares, clinical management can include eradicating S aureus from the skin of children; however, this does not extend to their healthy caregivers, who are potential reservoirs. OBJECTIVE: Our aim was to understand skin microbiome sharing and microbial features in children with AD and their healthy adult caregivers. METHODS: We utilized whole-metagenome profiling at 4 body sites (volar forearm, antecubital fossae, cheeks, and lesions) in combination with sequencing of S aureus isolates to characterize a cohort of children with AD and their healthy caregivers (n = 30 families) compared to matched pairs from control households (n = 30 families). RESULTS: Metagenomic analysis revealed distinct microbiome configurations in the nonlesional skin of AD children and their healthy caregivers versus controls, which were sufficient to accurately predict case-control status (area under the receiver operating characteristic curve > 0.8). These differences were accompanied by significant microbiome similarity between children and their caregivers, indicating that microbiome sharing may play a role in recurrent disease flares. Whole-genome comparisons with high-quality S aureus isolate genomes (n = 55) confirmed significant strain sharing between AD children and their caregivers and AD-specific enrichment of strains expressing enterotoxins Q and K/K2. CONCLUSION: Our results highlight the distinctive skin microbiome features of healthy caregivers for children with AD and support their inclusion in strategies for the treatment of recurrent pediatric AD.

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

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.