301 The psoriasis-associated IL-17A induces and cooperates with IL-36 cytokines to control keratinocyte differentiation and function

Abstract: Psoriasis is a T H 17-driven inflammatory disease affecting a significant proportion of the world population. The molecular consequences of IL-17 signaling in the skin are only partially understood. Therefore, we evaluated the IL-17A effects on organotypic 3-dimensional skin models and observed that IL-17A interfered with keratinocyte differentiation. In agreement with this phenotype, IL-17A repressed the expression of many genes encoding structural proteins. Moreover, genes encoding anti-microbial peptides we… Show more

“…In the collagen models, fibroblasts are embedded in collagen I gels, which function as dermal equivalents. 16 Collagen models can demonstrate characteristic psoriatic phenotypes like epidermal hyperplasia and hypogranulosis and express typical disease markers like HBD-2, SKALP/elafin, and/or S100A7, 4 , 17 but these models suffer from poor mechanical strength, contraction, and a limited life span. 18 Typically, these full-thickness skin models start to degrade after approximately 14 days.…”

“…Over the years, many in vitro models of psoriasis are developed to study the pathogenesis of psoriasis and to explore for new therapeutic drug candidates. − Currently, the cytokine stimulation approach for developing disease pathogenesis is mainly applied to collagen-based full-thickness skin models. In the collagen models, fibroblasts are embedded in collagen I gels, which function as dermal equivalents . Collagen models can demonstrate characteristic psoriatic phenotypes like epidermal hyperplasia and hypogranulosis and express typical disease markers like HBD-2, SKALP/elafin, and/or S100A7, , but these models suffer from poor mechanical strength, contraction, and a limited life span .…”

Long-Term and Clinically Relevant Full-Thickness Human Skin Equivalent for Psoriasis

“…In the collagen models, fibroblasts are embedded in collagen I gels, which function as dermal equivalents. 16 Collagen models can demonstrate characteristic psoriatic phenotypes like epidermal hyperplasia and hypogranulosis and express typical disease markers like HBD-2, SKALP/elafin, and/or S100A7, 4 , 17 but these models suffer from poor mechanical strength, contraction, and a limited life span. 18 Typically, these full-thickness skin models start to degrade after approximately 14 days.…”

“…Over the years, many in vitro models of psoriasis are developed to study the pathogenesis of psoriasis and to explore for new therapeutic drug candidates. − Currently, the cytokine stimulation approach for developing disease pathogenesis is mainly applied to collagen-based full-thickness skin models. In the collagen models, fibroblasts are embedded in collagen I gels, which function as dermal equivalents . Collagen models can demonstrate characteristic psoriatic phenotypes like epidermal hyperplasia and hypogranulosis and express typical disease markers like HBD-2, SKALP/elafin, and/or S100A7, , but these models suffer from poor mechanical strength, contraction, and a limited life span .…”

Long-Term and Clinically Relevant Full-Thickness Human Skin Equivalent for Psoriasis