Endocannabinoids enhance lipid synthesis and apoptosis of human sebocytes via cannabinoid receptor-2-mediated signaling

Nóra Dobrosi, Balázs I. Tóth, Georgina Nagy, Anikó Dózsa, Tamás Géczy, László Nagy, Christos C. Zouboulis, Ralf Paus, László Kovács, Tamás Bíró

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    We had previously shown that both locally produced endocannabinoids and exocannabinoids, via cannabinoid receptor-1 (CB1), are powerful inhibitors of human hair growth. To further investigate the role of the cannabinoid system in pilosebaceous unit biology, we have explored in the current study whether and how endocannabinoids have an impact on human sebaceous gland biology, using human SZ95 sebocytes as cell culture model. Here, we provide the first evidence that SZ95 sebocytes express CB2 but not CB1. Also, prototypic endocannabinoids (arachidonoyl ethanolamide/anandamide, 2-arachidonoyl glycerol) are present in SZ95 sebocytes and dose-dependently induce lipid production and (chiefly apoptosis-driven) cell death. Endocannabinoids also up-regulate the expression of key genes involved in lipid synthesis (e.g., PPAR transcription factors and some of their target genes). These actions are selectively mediated by CB2-coupled signaling involving the MAPK pathway, as revealed by specific agonists/antagonists and by RNA interference. Because cells with "silenced" CB2 exhibited significantly suppressed basal lipid production, our results collectively suggest that human sebocytes utilize a paracrine-autocrine, endogenously active, CB2-mediated endocannabinoid signaling system for positively regulating lipid production and cell death. CB2 antagonists or agonists therefore deserve to be explored in the management of skin disorders characterized by sebaceous gland dysfunctions (e.g., acne vulgaris, seborrhea, dry skin). © FASEB.
    Original languageEnglish
    Pages (from-to)3685-3695
    Number of pages10
    JournalFaseb Journal
    Issue number10
    Publication statusPublished - Oct 2008


    • Acne vulgaris
    • Cannabinoid receptor subtypes
    • Gene expression
    • Human sebaceous gland-derived SZ95 sebocytes
    • Peroxisome proliferator-activated receptor
    • Signal transduction


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