Chloracne is a characteristic marker of intoxication by 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) or related compounds. Decreased lipogenesis is a prominent clinical sign in this disease. However, the activity of dioxins on human sebaceous glands is still unclear. In this study, the effects of TCDD on sebaceous gland differentiation were studied both in human skin samples maintained ex vivo and in cultured SZ95 sebocytes. Aryl hydrocarbon receptor (AhR) protein expression, the receptor for dioxin, was detected in SZ95 sebocytes. Its expression was markedly inhibited by TCDD. Furthermore, we detected a reduced release of neutral lipids (10(-10) -10(-8) M; P<0.001) and decreased expression of epithelial membrane antigen and keratin 7, all of which are specific markers of sebaceous differentiation. Markedly, increased expression of the keratinocyte differentiation marker keratin 10 and of peroxisome proliferators-activated receptor-δ was assessed in SZ95 sebocytes treated with TCDD. To corroborate these in vitro data, an ex vivo sebaceous gland-rich skin culture model was investigated. Obvious shrinkage of sebaceous glands with sebaceous duct hyperplasia and increased expression of keratin 10 in the atrophic sebaceous glands were observed on the 5th day of TCDD treatment. In conclusion, TCDD affects the differentiation of sebaceous gland cells probably by switching human sebaceous into keratinocyte-like differentiation. In addition and together with the results of a parallel study (J Dermatol Sci 58, 2010, 211), we provide evidence that TCDD effects on human sebocytes are mediated through the AhR signalling pathway.
Arthropathia in juvenile animals is the most important toxic effect induced by quinolones. We conducted pharmacokinetic and morphological studies with ofloxacin on non-human primates (Callithrix jacchus, Marmosets) and rats. In the marmoset, electron microscopy and the application of immuno-morphological methods proved to be suitable for the detection of specific alterations in cartilage (e.g. loss of proteoglycans and altered chondrocytes). Subsequently performed electron microscopic examinations in rats showed similar specific alterations of the femur cartilage surface after multiple oral applications of 600 mg ofloxacin/kg body wt. These results were correlated with pharmacokinetic data obtained for the same species. After single oral application of 100, 300 or 600 mg ofloxacin/kg body wt to 5 week-old rats peak plasma levels were achieved 15-45 min after administration indicating a rapid absorption of the drug. The following peak concentrations were measured for the three doses applied (mean +/- SD): 8.9 +/- 2.1, 22.6 +/- 7.5 mg/l and 33.5 +/- 9.8 mg/l, respectively. After 360 min the concentrations were 1.1 +/- 0.4, 5.9 +/- 2.5 and 15.9 +/- 5.1 mg/l, respectively. After subcutaneous injection of 100 mg ofloxacin/kg body wt the mean peak concentration was 27.7 +/- 2.6 mg/l after 45 min (0.5 +/- 0.2 mg/l after 360 min). In the marmoset higher plasma concentrations were measured with comparable doses. One, 3, and 6 h after the last of nine administrations of 200 mg ofloxacin/kg body wt, the mean (+/- SD) plasma concentrations were: 42.7 +/- 16.7, 40.6 +/- 9.5, and 26.5 +/- 3.6 mg ofloxacin/l plasma. Typical alterations of the joint cartilage of juvenile rats (e.g. opened chondrocyte cavities, swelling of rough endoplasmic reticulum and mitochondrial swelling in the chondrocytes) were induced by oral administration of ofloxacin at doses that were approximately 100 times higher than therapeutic ones, but led to peak plasma concentrations which were only approximately 10 times above the therapeutic level.
The immunohistochemical distribution of collagen types IV, V and VI has been demonstrated in healthy periodontal tissues of rats and marmosets following decalcification of the maxillae and mandibulae in 0.2 N HCl. An intense fluorescence with anti-collagen type IV antibodies was demonstrated in the basement membranes of the epithelium and of the blood vessels and nerves. In the alveolar bone stroma and in the periodontal ligament (PL) collagen type IV was present only in the basal membranes of the blood vessels and nerves. In comparison, collagen type V was observed in a fibrillar pattern in the gingival connective tissue, as well as the PL. In the PL, type V collagenous fibers demonstrated a parallel distribution with stronger fluorescence near the cementum surface. Collagen type VI could be demonstrated in fine fibers present in the gingival connective tissue and the PL. Blood vessels and nerves were not stained in the marmoset, but were in the rat, where a localization of collagen type VI was demonstrated in these areas. Alveolar bone and cementum, as well as the Sharpey's fibers embedded in these tissues, were not stained with antibodies against collagen type V and type VI, but a pericellular localization of these collagenous components could be observed. Collectively, these results provide basic information on the relative distribution of different collagen types in normal tissues of rats and marmosets that will be required for future studies on the effects of pathological, reparative and regenerative processes.
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