Litcius/Paper detail

Comparative analyses of Netherton syndrome patients and Spink5 conditional knock-out mice uncover disease-relevant pathways

Evgeniya Petrova, Jesús M. López-Gay, Matthias Fahrner, F. Leturcq, Jean‐Pierre de Villartay, Claire Barbieux, Patrick Gonschorek, Lam C. Tsoi, Jóhann E. Guðjónsson, Oliver Schilling, Alain Hovnanian

2024Communications Biology16 citationsDOIOpen Access PDF

Abstract

Netherton syndrome (NS) is a rare skin disease caused by loss-of-function mutations in the serine peptidase inhibitor Kazal type 5 (SPINK5) gene. Disease severity and the lack of efficacious treatments call for a better understanding of NS mechanisms. Here we describe a novel and viable, Spink5 conditional knock-out (cKO) mouse model, allowing to study NS progression. By combining transcriptomics and proteomics, we determine a disease molecular profile common to mouse models and NS patients. Spink5 cKO mice and NS patients share skin barrier and inflammation signatures defined by up-regulation and increased activity of proteases, IL-17, IL-36, and IL-20 family cytokine signaling. Systemic inflammation in Spink5 cKO mice correlates with disease severity and is associated with thymic atrophy and enlargement of lymph nodes and spleen. This systemic inflammation phenotype is marked by neutrophils and IL-17/IL-22 signaling, does not involve primary T cell immunodeficiency and is independent of bacterial infection. By comparing skin transcriptomes and proteomes, we uncover several putative substrates of tissue kallikrein-related proteases (KLKs), demonstrating that KLKs can proteolytically regulate IL-36 pro-inflammatory cytokines. Our study thus provides a conserved molecular framework for NS and reveals a KLK/IL-36 signaling axis, adding new insights into the disease mechanisms and therapeutic targets.

Topics & Concepts

BiologyProteasesInflammationTranscriptomeKnockout mouseImmunologyProteomePhenotypeConditional gene knockoutHumanized mouseCytokineDiseaseBioinformaticsImmune systemMedicineGeneticsGenePathologyGene expressionBiochemistryEnzymeSkin and Cellular Biology ResearchCellular Mechanics and InteractionsWnt/β-catenin signaling in development and cancer
Comparative analyses of Netherton syndrome patients and Spink5 conditional knock-out mice uncover disease-relevant pathways | Litcius