Carotenoids, sexual signals and immune function in barn swallows from Chernobyl.

Carotenoids have been hypothesized to facilitate immune function and act as free-radical scavengers, thereby minimizing the frequency of mutations. Populations of animals exposed to higher levels of free radicals are thus expected to demonstrate reduced sexual coloration if use of carotenoids for free-radical scavenging is traded against use for sexual signals. The intensity of carotenoid-based sexual coloration was compared among three populations of barn swallows Hirundo rustica differing in exposure to radioactive contamination. Lymphocyte and immunoglobulin concentrations were depressed, whereas the heterophil:lymphocyte ratio, an index of stress, was enhanced in Chernobyl swallows compared to controls. Spleen size was reduced in Chernobyl compared to that of two control populations. Sexual coloration varied significantly among populations, with the size of a secondary sexual character (the length of the outermost tail feathers) being positively related to coloration in the two control populations, but not in the Chernobyl population. Thus the positive covariation between coloration and sexual signalling disappeared in the population subject to intense radioactive contamination. These findings suggest that the reliable signalling function of secondary sexual characters breaks down under extreme environmental conditions, no longer providing reliable information about the health status of males.

Influence of the herbicide Linuron on growth rate and gap-junctional intercellular communication of cultured endothelial cells.

On the basis of in vivo toxicological long-term tests performed on rodents, the herbicide Linuron [3-(3,4-dichlorophenyl)-1-methoxy-1-methylurea] has been classified by the U.S. Environmental Protection Agency (EPA) (1988) as a class C carcinogen (possibly carcinogenic to humans). However, when Linuron was analyzed for genotoxicity, negative results were obtained. An epigenetic, tumor-promoting potential was hence suspected to be responsible for the oncogenic activity of the molecule. In the absence of in vivo data concerning the tumor-promoting activity of the herbicide and being well established that tumor promoters interfere with the cell growth rate and gap-junctional permeability, the effects of technical grade Linuron and of its trade formulation (Linuron 50) on these parameters were investigated. This is especially important in the case of the formulated preparation for a correct estimate of the health hazard to humans. Cytotoxicity and gap-junctional intercellular communication (GJIC) assays were performed on the endothelial cell line F-BAE GM 7373, an in vitro cell system known to be responsive to the biological effects of tumor promoters. A time- and dose-related cytotoxic effect was found for both Linuron and Linuron 50, the latter being the far more cytotoxic of the two. However, when tested at noncytotoxic concentrations over a period of 48 h, neither Linuron nor Linuron 50 altered the capacity of F-BAE GM 7373 cells to intercommunicate. On the basis of the results obtained, the possibility that Linuron and Linuron 50 are endowed with tumor-promoting activity is discussed. In vivo studies on tumor-promoting and genotoxic activity are in progress to complement the information available on the toxicological properties of Linuron and its trade preparation.

Effect of tumor-promoting and anti-promoting chemicals on the viability and junctional coupling of human HeLa cells transfected with DNAs coding for various murine connexin proteins.

Gap-junctional intercellular communication is thought to be essential for maintaining cellular homeostasis and growth control. Its perturbation entails toxicological implications and it has been correlated with the in vivo tumor-promoting potential of chemicals. Little is known about the mechanism(s) responsible for the tumor promoters interference with the cellular coupling. Moreover, nongenotoxic carcinogens, as well as connexins (gap-junctional protein subunits), are known to be organ-/tissue-specific; this implies that the effect of different agents should be evaluated on their specific target, that is, connexin. To investigate the role of different connexins in regulating gap-junctional gating and to compare the properties of homotypic junctional channels, we evaluated the effects of tissue-specific tumor promoters and anti-promoters on the viability and intercellular coupling (dye-transfer) of HeLa cells stably transfected with cDNAs coding for connexin(cx)43, cx40, cx26 and cx32. The results demonstrate that the transfectants possess individual junctional permeabilities, differentially affected by the chemicals, they also show different sensitivities to the cytotoxic effect of the compounds. These findings confirm that connexin diversity may be responsible for the different gating properties of gap-junctional channels, being also suggestive for their separate functions and independent regulatory mechanisms.