Decreased gap junctional intercellular communication in hexachlorobenzene-induced gender-specific hepatic tumor formation in the rat

doi:10.1093/carcin/23.7.1243

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Carcinogenesis, Vol. 23, No. 7, 1243-1249, July 2002
© 2002 Oxford University Press

CARCINOGENESIS

Decreased gap junctional intercellular communication in hexachlorobenzene-induced gender-specific hepatic tumor formation in the rat

Isabelle Plante, Michel Charbonneau^,2 and Daniel G. Cyr^,1^,2

Human Health Research Center, INRS-Institut Armand-Frappier, 245 Hymus Boulevard, Université du Québec, Pointe-Claire, QC, H9R 1G6, Canada

Hexachlorobenzene (HCB), an epigenetic carcinogen, HCB inducesthe formation of liver tumors in female rats, whereas only asmall percentage of males are responsive. Intercellular communicationvia gap junctions is decreased in carcinogenesis. Gap junctionsare composed of proteins termed connexins (Cxs). The objectivesof this study were (i) to determine if HCB-induced tumor developmentis associated with a loss of gap junctional communication; (ii)to assess if HCB causes a gender-specific decrease in the expressionof Cx32 and Cx26; and (iii) to establish if these effects resultfrom gender differences in the constitutive expression of theseCxs. Rats were given HCB by gavage for five consecutive days.In the first experiment, control and HCB-treated female ratswere sampled on day 100. Intercellular communication was significantlydecreased in HCB-treated females compared to controls. To investigateif changes in Cx levels occur prior to day 100, experimentsdone using male and female rats sampled on day 50. Hepatic mRNAlevels for Cx26 and Cx32 were significantly lower only in HCB-treatedfemales as compared to controls. Cx26 mRNA levels were 3-foldhigher and Cx32 mRNA levels were 8-fold lower in females comparedwith males. In a third experiment, ovariectomy abolished anydifferences between male and female controls for both Cxs, whileestradiol had a partial role in the regulation of Cx32. Thissuggests that the sexual dimorphism in hepatic Cx levels isdetermined by the ovarian hormones. However, the HCB-induceddecrease in Cx32 and Cx26 mRNA levels was maintained in ovariectomizedrats, suggesting that the HCB effects are not mediated via anovary-dependent pathway. Overall results show that HCB exposureinduces gender-specific long-term alterations in intercellulargap junctional communication in female rat liver. This effectappears to be a critical mechanism of HCB-induced liver carcinogenesisand tumor promotion.

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