Functional and proteomic analysis of a full thickness filaggrin-deficient skin organoid model

Atopic eczema is an itchy inflammatory disorder characterised by skin barrier dysfunction. Loss-of-function mutations in the gene encoding filaggrin ( ) are a major risk factor, but the mechanisms by which filaggrin haploinsufficiency leads to atopic inflammation remain incompletely understood. Skin...

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Veröffentlicht in:Wellcome open research 2019, Vol.4, p.134-134
Hauptverfasser: Elias, Martina S, Wright, Sheila C, Nicholson, William V, Morrison, Kimberley D, Prescott, Alan R, Ten Have, Sara, Whitfield, Phillip D, Lamond, Angus I, Brown, Sara J
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Sprache:eng
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Zusammenfassung:Atopic eczema is an itchy inflammatory disorder characterised by skin barrier dysfunction. Loss-of-function mutations in the gene encoding filaggrin ( ) are a major risk factor, but the mechanisms by which filaggrin haploinsufficiency leads to atopic inflammation remain incompletely understood. Skin as an organ that can be modelled using primary cells provides the opportunity for selected genetic effects to be investigated in detail. Primary human keratinocytes and donor-matched primary fibroblasts from healthy individuals were used to create skin organoid models with and without siRNA-mediated knockdown of . Biological replicate sets of organoids were assessed using histological, functional and biochemical measurements. knockdown leads to subtle changes in histology and ultrastructure including a reduction in thickness of the stratum corneum and smaller, less numerous keratohyalin granules. Immature organoids showed some limited evidence of barrier impairment with knockdown, but the mature organoids showed no difference in transepidermal water loss, water content or dye penetration. There was no difference in epidermal ceramide content. Mass spectrometry proteomic analysis detected >8000 proteins per sample. Gene ontology and pathway analyses identified an increase in transcriptional and translational activity but a reduction in proteins contributing to terminal differentiation, including caspase 14, dermokine, AKT1 and TGF-beta-1. Aspects of innate and adaptive immunity were represented in both the up-regulated and down-regulated protein groups, as was the term 'axon guidance'.      This work provides further evidence for keratinocyte-specific mechanisms contributing to immune and neurological, as well as structural, aspects of skin barrier dysfunction. Individuals with filaggrin deficiency may derive benefit from future therapies targeting keratinocyte-immune crosstalk and neurogenic pruritus.
ISSN:2398-502X
2398-502X
DOI:10.12688/wellcomeopenres.15405.2