Objective and design: Ultraviolet (UV) exposure induces local immunosuppression and inflammation in human skin. Cytokines are, in part, responsible for these responses. To investigate the effects of UV-induced gene expression at the molecular level we established a sensitive in vivo/ex vivo method for a comparative quantification of cytokines and receptors involved in the local skin immune reactions.
Material and methods: Specific mRNA levels of human UV-irradiated skin were determined by real time quantification (TaqMan RT-PCR). Highly efficient PCR-reaction conditions were obtained by designing very short PCR-templates (72-87 bp). The most sensitive PCR-conditions were obtained by optimisation of primer and Mn(OAc)2-concentrations, which led to significant PCR signals (C(T)-value) of less than 36 cycles. A strong correlation between PCR efficiency of the internal control (GAPDH) compared to targets (IL-1beta, IL-10, IL-10r, TNFalpha, IL-7) allowed the use of deltadelta C(T)-method to quantify comparable mRNA levels.
Results: Interleukin-1beta (IL-1beta), Interleukin-10 (IL-10), and tumour necrosis factor alpha (TNFalpha) mRNA levels were increased in a time- and dose-dependent manner. Interleukin-1beta induction reached a maximum (approx. 44-fold) 6 h after a UV-dose equivalent to 3 times the minimal erythemal doses just perceptible (MEDjp). Maximal TNFalpha mRNA expression (approx. 14-fold) was also detected 6 h after UV exposure. Interleukin-10 mRNA induction reached a maximum of approximately 14-fold 24 h after UV-irradiation of 3 MEDjp. Time- and dose-dependent changes in Interleukin-7 and Interleukin-10 receptor mRNA levels did not occur after UV-irradiation.
Conclusions: Time-distinct gene induction of IL-1beta, TNFalpha and IL-1beta is involved in UV-induced immune reactions, but no considerable changes were found for IL-10r or IL-7.