Evaluation of signal transduction pathways after transient cutaneous adenoviral gene delivery

<p>Abstract</p> <p>Background</p> <p>Adenoviral vectors have provided effective methods for <it>in vivo </it>gene delivery in therapeutic applications. However, these vectors can induce immune responses that may severely affect the ability of vector re-application. There is limited information about the mechanisms and signal transduction pathways involved in adenoviral recognition. For optimization of cutaneous gene therapy it is necessary to investigate molecular mechanisms of virus recognition in epidermal cells. The aim of this study was to investigate the signal transduction of the innate immunity after adenoviral DNA internalization in keratinocytes.</p> <p>Methods</p> <p><it>In vitro</it>, keratinocytes were transfected with DNA, in the presence and absence of inhibitors for signalling molecules. <it>In vivo</it>, immunocompetent and athymic mice (n = 3 per group) were twice transduced with an Ad-vector.</p> <p>Results</p> <p>The results show an acute induction of type-I-interferon after <it>in vitro </it>transfection. Inhibition of PI3K, p38 MAPK, JNK and NFkappaB resulted in a decreased expression of type-I-interferon. In contrast to immunocompetent mice, athymic mice demonstrated a constant transgene expression and reduced inflammatory response <it>in vivo</it>.</p> <p>Conclusion</p> <p>The results suggest an induction of the innate immunity triggered by cytoplasm localised DNA which is mediated by PI3K-, p38 MAPK-, JNK-, NFkappaB-, JAK/STAT- and ERK1/2-dependent pathways. A stable transgene expression and a reduced inflammatory response in immunodeficient mice have been observed. These results provide potential for an effective adenoviral gene delivery into immunosupressed skin.</p

In vivo evaluation of histomorphological alterations in first-degree burn injuries by means of confocal-laser-scanning microscopy-more than "virtual histology?"

There are various approaches to the treatment of superficial burns. No modality exists to date for determining treatment efficiency on morphological features. We review the first application of high-resolution in vivo confocal-laser-scanning microscopy (CLSM) to the evaluation of superficial burns on a histomorphological level. Sixteen patients (6 women, 10 men; 34.5 +/- 16.2 years) with first-degree thermal contact injuries to a maximum extent of 1% of the body surface were enrolled into the study. CLSM was performed with the Vivascope 1500 (Lucid Inc., Rochester, NY) 24 hours after injury. The following parameters were assessed: cell size of the granular layer, thickness of the basal layer, minimal thickness of the epidermis, and diameter of capillary loops. Compared with the control sites 24 hours postburn, the minimal thickness of the epidermis increased on average by approximately 11% (P = .01; t-test); the thickness of the basal layer increased about 7% (P = .008; t-test); the diameter of capillary loops increased approximately by 17% (P = 0.003; t-test); and the cell size of the granular layer increased about 8% (P = .009; Wilcoxon's test). In vivo CLSM allows characterizing and quantifying histomorphological alterations in superficial burns. CLSM could be helpful in assessing the effects of various treatment approaches for superficial burns on a histomorphological level