The contribution of the short wavelength ultraviolet (UV) component of sunlight to the aetiology of skin cancer has been widely acknowledged, although its direct contribution to tumour initiation or progression is still poorly understood. The loss of normal cell cycle controls, particularly checkpoint controls, are a common feature of cancer. UV radiation causes both G1 and G2 phase checkpoint arrest in vitro cultured cells. In this study we have investigated the cell cycle responses to suberythemal doses of UV on skin. We have utilized short-term whole organ skin cultures, and multi parameter immunohistochemical and biochemical analysis to demonstrate that basal and suprabasal layer melanocytes and keratinocytes undergo a G2 phase cell cycle arrest for up to 48 h following irradiation. The arrest is associated with increased p16 expression but no apparent p53 involvement. This type of organ culture provides a very useful model system, combining the ease of in vitro manipulation with the ability to perform detailed molecular analysis in a normal tissue environment. Oncogene (2001) 20, 6103 ± 6110.
Cutaneous squamous cell carcinomas (CSCC) are a common malignancy of keratinocytes that arise in sites of the skin exposed to excessive UV radiation. In the present study, we show that human SCC cell lines, preneoplastic solar keratoses (SK), and CSCC are associated with perturbations in glutathione peroxidase (GPX) activity and peroxide levels. Specifically, we found that two of three SKs and four of five CSCCs, in vivo, were associated with decreased GPX activity and all SKs and CSCCs were associated with an elevated peroxide burden. Given the association of decreased GPX activity with CSCC, we examined the basis for the GPX deficiency in the CSCCs. Our data indicated that GPX was inactivated by a posttranslational mechanism and that GPX could be inactivated by increases in intracellular peroxide levels. We next tested whether the decreased peroxidase activity coupled with an elevated peroxidative burden might contribute to CSCC formation in vivo. This was tested in Gpx1 À/À and Gpx2 À/À mice exposed to solar-simulated UV radiation. These studies showed that Gpx2 deficiency predisposed mice to UV-induced CSCC formation. These results suggest that inactivation of GPX2 in human skin may be an early event in UV-induced SCC formation. [Cancer Res 2007;67(10):4751-8]
Calcium-activated neutral proteinase (CANP) activity was determined in cytosolic and membranous subcellular fractions of transformed Schwann cells (tSc). The muM and mM Ca(2+)-sensitive (mu- and mCANP) forms of CANP were separated by DEAE and phenyl Sepharose column chromatography, the latter step enabling removal of the endogenous inhibitor calpastatin. The tSc contained more muCANP than the mM isoform. More than 75% of mCANP activity was membrane-associated and 20% was cytosolic. In contrast, approximately 80% of muCANP was cytosolic and 15% was membranous. Triton X-100 stimulated activity of the whole homogenate and of the membrane pellet but did not stimulate CANP activity in the cytosolic fraction. Immunohistochemical distribution of mM enzyme was studied in both fixed and permeabilized tSc with cytosolic (anti-cyt-mCANP) and myelin (anti-my-mCANP) antibodies. Live cells (non-permeabilized) stained with anti-my-mCANP had a single filamentous ring circumscribing individual cells. Permeabilized cells treated with anti-my-mCANP had immunoreactive deposits throughout the intracellular space but sparing the perinuclear region. No immunohistochemical staining was detected when live cells were exposed to anti-cyt-mCANP whereas permeabilized cells had extensive intracellular staining with the most intense immunoreactivity in the perinuclear region. Our results indicate that both forms of CANP are present in tSc and that the activity of most of the muCANP is cytosolic while mCANP is particulate.
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