Publications (2)6.04 Total impact
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Article: Xenobiotic metabolism and disposition in human lung: transcript profiling in non-tumoral and tumoral tissues.
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ABSTRACT: The lung is directly exposed to a wide variety of inhaled toxicants and carcinogens. In order to improve our knowledge of the cellular processing of these compounds in the respiratory tract, we investigated the mRNA expression level of 380 genes encoding xenobiotic-metabolizing enzymes (XME), transporters, nuclear receptors and transcription factors, in pulmonary parenchyma (PP), bronchial mucosa (BM) and tumoral lung tissues from 12 patients with non-small cell lung cancer (NSCLC). Using a high throughput quantitative real-time RT-PCR method, we found that ADH1B, CYP4B1, CES1 and GSTP1 are the major XME genes expressed both in BM and PP. Our results also documented the predominant role played by the xenosensor AhR in human lung. The gene expression profiles were different for BM and PP, with a tendency toward increased mRNA levels of phase I and phase II XME genes in BM, suggesting major differences in the initial stages of xenobiotic metabolism. Some of the significantly overexpressed genes in BM (i.e. CYP2F1, CYP2A13, CYP2W1, NQO1…) encode proteins involved in the bioactivation of procarcinogens, pointing out distinct susceptibility to xenobiotics and their toxic effects between these two tissue types. Additionally, interindividual differences in transcript levels observed for some genes may be of genetic origin and may contribute to the variability in response to environmental exposure and, consequently, in the risk of developing lung diseases. A global decrease in gene expression was observed in tumoral specimens. Some of the proteins are involved in the metabolism or transport of anti-cancer drugs and their influence in the response of tumors to chemotherapy should be considered. In conclusion, the present study provides an overview of the cellular response to toxicants and drugs in healthy and cancerous human lung tissues, and thus improves our understanding of the mechanisms of chemical carcinogenesis as well as cellular resistance to chemotherapy.Biochimie 03/2011; 93(6):1012-27. · 3.02 Impact Factor -
Article: Profiling gene expression of whole cytochrome P450 superfamily in human bronchial and peripheral lung tissues: Differential expression in non-small cell lung cancers.
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ABSTRACT: Susceptibility to lung diseases, such as lung cancer and chronic obstructive pulmonary disease, is largely influenced by the metabolic capacity of lung tissues. This capacity is partly determined by the expression profile of the cytochromes P450 (CYPs), a superfamily of enzymes that have relevant catalytic properties toward exogenous and endogenous compounds. Using quantitative real-time RT-PCR, we conducted a comprehensive analysis of the expression profile of the 57 human CYP genes in non-tumoral (bronchial mucosa and pulmonary parenchyma) and tumoral lung tissues of 18 patients with non-small cell lung cancer. This study highlights (i) inter-individual variations in lung expression for some CYPs, (ii) different CYP expression patterns between bronchial mucosa and pulmonary parenchyma, that indicate distinctive susceptibility of these tissues toward the deleterious effects of inhaled chemical toxicants and carcinogens, (iii) high intertumoral variability, that could have major implications on lung tumor response to anti-cancer drugs.Biochimie 03/2010; 92(3):292-306. · 3.02 Impact Factor
