Molecular investigation of the effects of lindane in rat hepatocytes: microarray and mechanistic studies.

Although many studies of lindane toxicity have been carried out, we still know little about the underlying molecular mechanisms. We used a microarray specifically designed for studies of the hepatotoxic effects of xenobiotics to evaluate the effects of lindane on specific gene expression in primary cultured rat hepatocytes. These genes were assigned to detoxication processes (CYP3A4, Gsta2, CYP4A1), cell signalling pathways and apoptosis (Eif2b3, Eif2b4, PKC). In this study, we demonstrate that lindane up-regulates PKC by increasing oxidative stress. TEMPO (a well known free radical scavenger) and Ro 31-8220 (an inhibitor of classical PKCs) prevented the inhibition of spontaneous and intrinsic apoptosis pathway (characterised by Bcl-xL induction, Bax down-regulation, caspases inhibition) and the induction of necrosis by lindane in rat hepatocytes. Thus, these findings indicate that several dependent key signalling pathways, including detoxification, apoptosis, PKC activity and redox status maintenance, contribute to lindane-induced toxicity in primary cultured rat hepatocytes. This may account more clearly for the acute and chronic effects of lindane in vivo, with the induction of cell death and tumour promotion, respectively.

Pregnane X receptor activation protects rat hepatocytes against deoxycholic acid-induced apoptosis.

BACKGROUND/AIMS: Bile acids damage the liver, essentially by inducing hepatocyte apoptosis. Clinical studies have shown that several activators of the pregnane X receptor (PXR) may induce the remission of cholestasis. However, the molecular mechanisms involved in this beneficial effect remain unclear. We analysed the effect of an activator of PXR, clotrimazole (CLO), on the apoptosis induced by bile acids in primary cultures of rat hepatocytes. METHODS: Rat hepatocytes were isolated by collagenase perfusion of the liver. Then, cells were pretreated with CLO for 24 h, after which they were exposed to deoxycholic and glycochenodeoxycholic acids (DCA, GCDCA). Apoptosis and necrosis were monitored morphologically and biochemically using cytotoxicity assays, phase-contrast microscopy, Annexin V/propidium iodide staining and evaluations of lactate dehydrogenase release. The activation of caspases and the proteolysis of their substrates were analysed by enzyme assays and Western blot. The signal transductions involved in the protective effect of the PXR activation were analysed by assessing the phosphorylation status of kinases belonging to the ERK, Akt and p38 pathways and by analysing pro- and anti-apoptotic proteins. RESULTS: CLO protected rat hepatocytes against DCA- and GCDCA-induced apoptosis, preventing morphological aspects of this process (membrane blebbing, nuclear and chromatin condensation and DNA breakdown). This effect was attributable, at least partly, to caspases inhibition, Bcl-xL induction, the activation of ERK and Akt signalling and p38 inhibition. CONCLUSION: This study provides the description of the cytoprotective effect of PXR activation against bile acid-induced apoptosis and highlights molecular pathways that could be targeted in the treatment of cholestasis.

Protein profiling of rat ventral prostate following chronic finasteride administration: identification and localization of a novel putative androgen-regulated protein.

To better understand the effects of antiandrogens on the prostate, we investigated the changes in the proteome of rat ventral prostate (VP) following treatment with a well characterized 5alpha-reductase inhibitor, finasteride. Sprague-Dawley rats were treated daily by gavage with finasteride at 0, 1, 5, 25, and 125 mg/kg/day. Changes in plasma hormone levels as well as the weight and histology of sex accessory tissues were determined after 28 days of treatment and showed a dose-related decrease of VP weights together with a marked atrophy of the tissue visible at the macroscopic and microscopic levels. In addition, significant reductions in seminal vesicle and epididymis weights were noted. VP proteins were analyzed by two-dimensional gel electrophoresis: 37 proteins, mainly involved in protein synthesis, processing, and cellular trafficking and in metabolism, detoxification, and oxidative stress, were identified as modulated by finasteride. The prominent feature of this study is the demonstration of finasteride dose-dependent up-regulation of a protein similar to l-amino-acid oxidase 1 (Lao1). An up-regulation of this protein was also observed with the antiandrogen flutamide. Lao1 expression occurred as early as 48 h after antiandrogen administration and persisted throughout the treatment duration. Immunohistochemistry showed that this protein was only detectable in epithelial cells and secretory vesicles. Altogether these data point to a potential use of Lao1 to reveal antiandrogen-induced prostate injury.