Lyudmila Turchanowa

Nonsteroidal anti-inflammatory drugs stimulate spermidine/spermine acetyltransferase and deplete polyamine content in colon cancer cells

Background Nonsteroidal anti‐inflammatory drugs (NSAIDs) inhibit colonic tumourigenesis and have an established usefulness in cancer prevention. Because polyamines are essential for neoplastic cell growth, the aim of this study was to evaluate the effect of NSAIDs (indomethacin, a nonselective COX‐1 and COX‐2 inhibitor) on polyamine metabolism in colon cancer cells.

Effect of structural analogues of propionate and butyrate on colon cancer cell growth

Abstract. The aim of this study was to evaluate the effects of natural short-chain fatty acids (butyrate, propionate, valerate, acetate) and structural analogues of butyrate and propionate on cell growth and apoptosis in three human colonic adenocarcinoma cell lines (HT-29, Colo-320, and SW-948). We have previously shown that mercapto- and bromo-analogues of butyrate and propionate compete with natural short-chain fatty acids for uptake in the colonocyte. Among naturally occurring short-chain fatty acids, butyrate was the most potent inhibitor of proliferation in all three cell lines. Propionate exhibited a weaker antiproliferative effect, while other short-chain fatty acids (valerate, acetate) were ineffective. Bromo-analogues of butyrate and propionate were more potent proapoptotic agents than butyrate. In contrast to butyrate, the analogues induced strand breaks on isolated supercoiled DNA, the effect being completely reversed by a DNA-protecting agent, spermine. We conclude that bromo-analogues of butyrate and propionate are more potent proapoptotic agents than butyrate in colon cancer cells in culture. Their effect may be a result of direct DNA damage.

EGF-Stimulated Polyamine Accumulation in the Colon Carcinoma Cell Line, Caco-2

Background: Polyamines (putrescine, spermidine and spermine) are ubiquitous molecules indispensable for cell proliferation. In the intestinal lumen they are present in high amounts. Polyamine accumulation in proliferating cells of the intestinal mucosa is high, and it occurs both by enhanced synthesis and by increased uptake from the lumen. Aims: To study mitogen-induced polyamine accumulation in the gut, we treated proliferating Caco-2 cells with epidermal growth factor (EGF) and measured the activity of ornithine decarboxylase (ODC) and putrescine uptake. Furthermore, we investigated whether EGF-induced changes in the apical membrane could be responsible for the effect of EGF on polyamine uptake in Caco-2 cells. Methods: Putrescine uptake, ODC activity and intracellular polyamine content were evaluated in the presence of 100 ng/ml EGF. To study the mechanisms of EGF-stimulated polyamine uptake, apical membrane vesicles were isolated, and putrescine uptake into the vesicles measured. Possible enrichment in brush border membrane cytoskeleton proteins (ezrin and villin) was assessed by Western blot. Results: Treatment with EGF induced an increase in ODC activity, which occurred within the first minutes of treatment and reached peak values after 3 h. In contrast, an increase in putrescine uptake was more sustained, with peak levels at 12 h. Both synthesis and uptake contributed to an over 60% increase in intracellular putrescine and spermidine after EGF treatment. There were no detectable changes in apical membrane cytoskeleton (as concluded by the absence of ezrin and villin enrichment in EGF-treated Caco-2 cells). However, in apical membrane vesicles isolated from EGF-pretreated cells, putrescine uptake was enhanced twofold. Conclusions: EGF stimulates both synthesis and uptake of polyamines in Caco-2 cells. Enhanced synthesis seems to ensure rapid supply with polyamines in the earliest stages of growth, while the uptake is responsible for the maintenance of high polyamine intracellular levels during late growth phases. EGF-stimulated polyamine uptake is apparently not a consequence of structural changes in the apical membrane, but is likely to occur by a distinct EGF-induced alteration of the polyamine transporter itself.

Permeability characteristics of polyamines across intestinal epithelium using the Caco-2 monolayer system: comparison between transepithelial flux and mitogen-stimulated uptake into epithelial cells

The polyamines putrescine, spermidine, and spermine are present in foods in high amounts, and are used for cell growth throughout the body. Surprisingly little is known about the mechanisms of polyamine absorption in the gut. To elucidate the mechanisms, transepithelial transport of polyamines was studied in human enterocytelike Caco-2 cells, grown on permeable filter supports. Transport of all three polyamines across Caco-2 cell monolayers was linear; intraepithelial accumulation of polyamines was higher in confluent than in differentiated Caco-2 cells, but still negligible in comparison with the overall transport across the monolayers. Epidermal growth factor (EGF) enhanced polyamine accumulation in Caco-2 cells four-fold, and basolateral uptake was higher than apical uptake if the cells were stimulated to grow. The amounts of polyamines taken up by the cells were nevertheless negligible in comparison with the net polyamine flux across the monolayers. Basolateral excretion of polyamines was in the picomolar range, whereas their transepithelial transport, occurring presumably by passive diffusion through the paracellular pathway, contributed hundreds of micromoles of polyamines to the basolateral chamber. We conclude that transepithelial transport of polyamines occurs by passive diffusion, and that it is not influenced when epithelial cells are stimulated to proliferate by a potent mitogen such as EGF.

Insufficiently charged isosteric analogue of spermine: interaction with polyamine uptake, and effect on Caco-2 cell growth.

We characterised a novel, charge-insufficient isosteric analogue of spermine, 11-[(amino)oxy]-4,9-diaza-1-aminoundecane (AOSPM). This analogue was synthesised by displacing aminopropyl group by aminooxyethyl group, the latter having pK(a) of about 5. Charge deficiency of the AOSPM molecule was fixed at a definite atom, while pK(a) of the rest nitrogen was similar to the parent polyamine. AOSPM competed with putrescine, spermidine and spermine for the uptake into the cell, and was accumulated in the cells in high amounts when exogenous polyamine synthesis was impaired. It was not recognised by the cells as growth-promoting polyamine, since it was unable to restore growth arrest due to polyamine deprivation. Like natural spermine, this polyamine analogue prevented oxidative DNA damage. AOSPM could be used not only as a tool to study polyamine homeostasis in the cell, but may have distinct applications either as radiation protector, a stable and non-toxic inhibitor of polyamine uptake or, as an appropriate vector, to enhance the uptake of impermeable compounds into the cell.

H2O2 inhibits BCR-dependent immediate early induction of EBV genes in Burkitt's lymphoma cells

The critical step in the Epstein-Barr virus (EBV) transition from latency to lytic replication is activation of the viral immediate early (IE) genes, BZLF1 and BRLF1. Their induction in Burkitts lymphoma Akata cells is directly targeted by B cell receptor (BCR) signaling. On the other hand, BCR stimulation causes an outwardly directed superoxide (O(2)(*-)) burst leading to massive generation of reactive oxygen species in the cell environment. Our goal was to investigate the role of BCR-related redox changes in the IE reactivation of EBV. Production of O(2)(*-) by stimulated Akata cells was characterized using chemiluminescent dyes, lucigenin, MCLA, and coelenterazine. Expression of the EBV IE genes was analyzed by real-time PCR and Western blot assays. Catalase activity and H(2)O(2) concentration were evaluated using Amplex Red assays and by measuring light absorption at 240 nm. We show here that elevation of H(2)O(2) concentration in Akata cell suspensions inhibits the induction of the virus IE mRNA and BZLF1 protein. It was further found that Akata cells exhibit catalase-like activity that is stimulated by BCR cross-linking. The results reveal that H(2)O(2) is instrumental in the maintenance of EBV latency. Altogether they provide new evidence demonstrating the essential role of H(2)O(2) in BCR signaling.