CXCL14 downregulation in human keratinocytes is a potential biomarker for a novel in vitro skin sensitization test

Abstract

To elucidate the roles of epidermal keratinocytes in the toxicological outcomes of chemically induced contact dermatitis, genome-scale transcriptional analyses were performed using normal human keratinocytes (NHKCs) treated with 10 μM sodium lauryl sulfate (SLS) or 5 μM urushiol. In Gene Ontology (GO) enrichment analyses, SLS- and urushiol-induced upregulated DEGs are commonly associated with the regulation of pro-inflammatory responses and epidermal differentiation processes in NHKCs whereas cellular protein metabolic process was also identified as a commonly downregulated DEG signature. Among the downregulated DEGs, CXCL14 was investigated as a potential biomarker for a new in vitro skin sensitization test using OECD TG429 reference chemicals. CXCL14 was significantly downregulated in NHKCs in response to 62.5% of the OECD TG429 sensitizers in a concentration-dependent manner. When the sensitizer-induced upregulation of chemokine CXCL8 was included in the analysis, 87.5% of the OECD TG429 reference sensitizing chemicals significantly induced either CXCL8 upregulation or CXCL14 downregulation in NHKCs. Only one OECD TG429 reference non-sensitizer changed the constitutive CXCL14 expression in NHKCs whereas five out of six non-sensitizers altered CXCL8 production. The reference irritating non-sensitizer SLS caused a false-positive outcome. The downregulation of constitutively expressed CXCL14 was regulated by both the MAPK/ERK and JAK3/STAT6 pathways in NHKCs. CXCL14 can be used as a mechanism-based biomarker in the development of in vitro skin sensitization tests and may help improve the distinction between allergenic sensitizers and non-sensitizers.