The epidermis is the outermost layer of skin. Here, we use targeted lipid profiling to characterize the biogeographic alterations of human epidermal lipids across 12 anatomically distinct body sites, and use single-cell RNA sequencing to compare keratinocyte gene expression at acral and non-acral surfaces. We demonstrate that acral skin has low expression of EOS acyl-ceramides and the genes involved in their synthesis, as well as low expression of genes involved in filaggrin and keratin citrullination (PADI1 and PADI3) and corneodesmosome degradation, changes consistent with increased corneocyte retention.Several overarching principles governing epidermal lipid expression were also noted. For example, there is a strong negative correlation between the expression of 18-carbon and 22carbon sphingoid base ceramides. Disease-specific alterations in epidermal lipid gene expression and their corresponding alterations to the epidermal lipidome were characterized. Lipid biomarkers with diagnostic utility for inflammatory and precancerous conditions were identified, and a two-analyte diagnostic model of psoriasis was constructed using a step-forward algorithm. Finally, gene co-expression analysis revealed a strong connection between lipid and immune gene expression. This work highlights mechanisms by which the epidermis is uniquely adapted for the specific environmental insults encountered at different body surfaces, and how inflammation-associated alterations in gene expression affect the epidermal lipidome.
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