Application of cDNA Microarray to the Study of Arsenic-Induced Liver Diseases in the Population of Guizhou, China

doi:10.1093/toxsci/59.1.185

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Toxicological Sciences 59, 185-192 (2001)
Copyright © 2001 by the Society of Toxicology

Systems Toxicology

Application of cDNA Microarray to the Study of Arsenic-Induced Liver Diseases in the Population of Guizhou, China

Tong Lu^*, Jie Liu, Edward L. LeCluyse, Yun-Shu Zhou^§, Ming-Liang Cheng^* and Michael P. Waalkes^,1

^* Guiyang Medical College Hospital, China; Laboratory of Comparative Carcinogenesis, NCI at NIEHS, Research Triangle Park, North Carolina; School of Pharmacy, University of North Carolina at Chapel Hill, North Carolina; and ^§ Southwest Prefecture Endemic Prevention Station, Guizhou, China

Arsenic is an environmental toxicant and a human carcinogen.Epidemiology studies link human arsenic exposure to variousdiseases and cancers, including liver diseases and hepatocellularcarcinoma. However, the molecular mechanisms for arsenic toxicityand carcinogenicity are poorly understood. To better understandthese mechanisms, we used the human cancer cDNA expression arrayto profile aberrant gene expression in arsenic-exposed populationsin Guizhou, China. The selected patients had a history of exposureto environmental arsenic for at least 6–10 years, andhad arsenic-induced skin lesions and hepatomegaly. Samples wereobtained by liver needle biopsy. Histology showed degenerativeliver lesions, such as chronic inflammation, vacuolation, andfocal necrosis. The University of North Carolina Hospitals providednormal human liver tissues from surgical resection or rejectedtransplants. Microarray was performed with total RNA from liversamples, and signal intensities were analyzed with AtlasImagesoftware and normalized with 9 housekeeping genes. Means andSEM were calculated for statistical analysis. Approximately60 genes (10%) were differentially expressed in arsenic-exposedhuman livers compared to controls. The differentially expressedgenes included those involved in cell-cycle regulation, apoptosis,DNA damage response, and intermediate filaments. The observedgene alterations appear to be reflective of hepatic degenerativelesions seen in the arsenic-exposed patients. This array analysisrevealed important patterns of aberrant gene expression occurringwith arsenic exposure in human livers. Aberrant expressionsof several genes were consistent with the results of array analysisof chronic arsenic-exposed mouse livers and chronic arsenic-transformedrat liver cells. Clearly, a variety of gene expression changesmay play an integral role in arsenic hepatotoxicity and possiblycarcinogenesis.

Key Words: arsenic; chronic exposure; liver degeneration; liver biopsy; aberrant gene expression; cDNA microarray.

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