External zinc stimulates proliferation of tumor Hep-2 cells by active modulation of key signaling pathways

Abstract

The effect of external zinc supplementation (10 and 35 μmol) on cell proliferation and mitogenic signaling of Hep-2 tumor cells was examined during 72 h of treatment. Zinc levels were manipulated by using zinc-free cultivation medium with or without addition of zinc ions. Proliferation of Hep-2 cells exposed to zinc-free medium decreased in a time-dependent manner and corresponded to decreasing intracellular zinc content. Hep-2 cells accumulated in G 0/G 1 phase, showed reduced abundance of AKT and NF-κB as well as of anti-apoptotic Bcl-2 and Bcl-XL proteins. Zinc supplied to Hep-2 cells maintained in the presence of zinc-free medium stimulated their proliferation as well as mitogenic signaling which paralleled increasing intracellular zinc content. In zinc-exposed Hep-2 cells, several changes in various mitogenic signaling pathways were noted such as enhanced expression of p53, AKT and MAP kinases, NF-κB and increased DNA binding of AP-1 family. Also, supplementation with zinc of Hep-2 cells resulted in the suppression of key apoptotic molecules such as Bax protein and increased expression of anti-apoptotic Bcl-2 and Bcl-XL proteins. Since only the highest supplied zinc concentration (35 μmol) induced oxidative stress, it is reasoned that the observed activation of pro-survival signaling occurs both directly and indirectly. These data show that zinc may stimulate growth and proliferation of some tumor cells by a combination of internal mechanisms with a varying contribution of external signaling pathways too.