Cytotoxicity and antileukaemic activity of new duplexes linking 3-C-ethynylcytidine and 5-fluorodeoxyuridine.

The cytotoxic and antineoplastic potential of two new duplex drugs, ECyd-5-FdU and ECyd- lipid- 5-FdU, were compared with the activity of the parent single-nucleoside analogues, 3-C-ethynylcytidine (ECyd) and 5-fluorodeoxyuridine (5-FdU), either applied as monotherapy or simultaneously in equimolar concentrations simulating their ratio in a duplex drug. Murine leukaemia L1210 cells were used for comparative in vitro tests of the duplex and the single drugs. The tested substances were evaluated for their cytotoxicity, combinatory potential and revitalisation properties. Additionally, an in vivo model of leukaemia L1210-bearing mice of the DBA/2J strain was used for testing of acute toxicity and antileukaemic activity using various chemotherapeutic regimes. Based on the results of this study, the suitability of ECyd and 5-FdU for forming a duplex drug was discussed from the perspective of their expected synergistic anticancer activities. We found an improvement of chemotherapy outcomes of the new duplex drugs tested by comparing their in vitro cytotoxicity and an increase of the time of survival of experimental leukaemia-bearing mice in a statistically significant manner.

Selenium as a chemoprotective anti-cancer agent: reality or wishful thinking?

It is generally accepted that selenium (Se) plays an important role in maintaining equilibrium of a healthy organism. It also participates in processes related to carcinogenesis such as inhibition of tumor formation and regression. Scientific data accumulated so far using experimental animal models and from clinical studies devoted to investigating the effects of Se confirm strong relationship or correlation between Se supplementation and tumor frequency of prostate, lungs, liver and colon. However, details of mechanisms of action of Se in modulation of carcinogenesis and cancer prevention are not yet fully elucidated. It is not clear yet whether Se deficiency itself is a cancer risk factor or whether it helps an already present cancer to progress. Additionally, the effects of other factors such as age, gender, life style, geographic location, comorbidities and use of drugs, are not clear. Despite the fact that some positive results were obtained with Se supplementation, it is necessary to verify these findings in more controlled experimental models including clinical studies. At the present time, data related to Se supplementation are not convincing enough as to allow general recommendation for using Se as an effective agent for chemoprevention of cancer. The goal of this minireview is to highlight present level of understanding of Se biological and prospects of its future clinical use. Information regarding Se, its effectiveness in various experimental models and in clinical tests, including combinations with other bioactive agents and anticancer drugs, is evaluated and summarized.

Cytarabine conjugates with biologically active molecules and their potential anticancer activity.

The presented review article deals with various conjugates of arabinosylcytosine (araC). This powerful drug that is routinely used in therapy of hematological malignancies has some shortcomings, which limit its use and therapeutic effects. These are low lipophilicity, low stability to degrading enzymes and need for biological activation through phosphorylation. Conjugating araC to another molecule is done with the intention of increasing araC stability and lipophilicity and possibly avoiding rate-limiting araC phosphorylation. An attachment of that another molecule, possessing its own biological activity, may result in formation of a conjugated molecule with new biological activities and better therapeutic potential. The review deals with various araC conjugates formed at the positions N(4), 2, 2', 3' and 5'. Biological activities and differences from araC of compounds formed by conjugation are also discussed.

Yeast cell wall polysaccharides as antioxidants and antimutagens: can they fight cancer?

Polysaccharides represent the major part of the yeast cell wall dry weight and build the skeletal carcass defining cell wall stability and cell morphology (beta-D-glucans) or constitute amorphous matrix and cell surface fibrous material (mannans and mannoproteins). It is known that yeast cell wall beta-D-glucans reveal immunomodulating properties, which allows for their application in anti-infective and antitumor therapy. Recent data also suggest that polysaccharides reveal antioxidant activity that can result in their protective function as antioxidants, antimutagens, and antigenotoxic agents. The paper provides a review of our continuing research involving water-soluble derivatives of beta-D-glucan isolated from the baker's yeast Saccharomyces serevisiae and of a glucomannan isolated from the industrial yeast Candida utilis. The results are confronted with the available literature data. The derivatives of beta-D-glucan demonstrated potent inhibitory effect on lipid peroxidation comparable to that of the known antioxidants and exerted DNA protection from oxidative damage. The free radical scavenging activity was confirmed by spin-trap electron paramagnetic resonance. Antimutagenic and antigenotoxic activity of the yeast polysaccharides was demonstrated using yeast, bacterial, and algal models. The derivatives of beta-D-glucan exerted potent enhancement of tumor necrosis factor alpha (TNF-alpha) released from murine macrophages and revealed synergistic effect with cyclophosphamide in the treatment of Lewis lung carcinoma and two types of lymphosarcoma in murine models. The results indicate significant protective antioxidant, antimutagenic, and antigenotoxic activities of the yeast polysaccharides and imply their potential application in anticancer prevention/therapy.

Cytotoxicity of copper(II) complexes of N-salicylidene-L-glutamate: modulation by ascorbic acid.

Cytotoxic/cytostatic activity of N-salicylidene-L-glutamato diaqua copper(II) complex (CuC) against mice leukemia cells L1210 has been estimated and their bioactivity was enhanced by addition of ascorbic acid. The Cu-complex with isoquinoline ligand (IQ-CuC) had stronger cytostatic effect (IC50 =15.6 microM) than parental complex (CuC) and its cytotoxicity several times increased in the presence of 0.1 mM ascorbic acid (IC50 =1.0 microM). The cytotoxicity has been caused by oxidative stress, enhanced creation of TBARS has been confirmed, and formation of 2',7'-dichlorofluorescein from 2',7'- dichlorodihydrofluorescein has been observed, also. Some hallmarks of apoptotic/necrotic death of L1210 cells have been observed by fluorescent microscopy after dyeing of cell with propidium iodide and Hoechst 33342. In addition, it was confirmed that both complexes in the presence of ascorbic acid cleavaged of pDNA. Although these copper complexes were initially prepared as substances with antioxidant properties we have showed that combined treatment of L1210 cells with IQCuC and ascorbic acid induced strong oxidative stress and death of cells. Our results confirmed that physiological concentration of ascorbic acid increases the cytostatic/cytotoxic efficiency of N-salicylidene-L-glutamato diaqua copper(II) complexes.

alpha-Lipoic acid: the potential for use in cancer therapy.

This review deals with alpha-lipoic acid (LA) from the point of its chemical and biological characteristics affecting enzymatic activities that are part of cellular biochemical processes in normal and cancer cells. This includes attributes of LA that are related to its ability to act as a free-radicals scavenger and also as a radical generator. LA is discussed in the light of its physico-chemical features, toxicity, biochemical bases of LA biological activities, and mechanisms of action. Additionally, it is discussed how these properties of LA are reflected by results of in vivo experiments with cancer cells and in experimental cancer chemotherapy. Finally, the results of LA use in human cancer chemotherapy and as chemopreventive agent are discussed in the light of LA future inclusion into chemotherapeutic protocols.

Antigenotoxic effect of extract from Cynara cardunculus L.

The extract of artichoke Cynara cardunculus L. (CCE) was investigated for its potential antigenotoxic and antioxidant effects using four experimental model systems. In the Saccharomyces cerevisiae mutagenicity/antimutagenicity assay, CCE significantly reduced the frequency of 4-nitroquinoline-N-oxide-induced revertants at the ilv1 locus and mitotic gene convertants at the trp5 locus in the diploid Saccharomyces cerevisiae tester strain D7. In the simultaneous toxicity and clastogenicity/anticlastogenicity assay, it exerted an anticlastogenic effect against N-nitroso-N'-methylurea-induced clastogenicity in the plant species Vicia sativa L. On the contrary, despite CCE not being mutagenic itself, in the preincubation Ames assay with metabolic activation, it significantly increased the mutagenic effect of 2-aminofluorene in the bacterial strain Salmonella typhimurium TA98. In the 1,1-diphenyl-2-picrylhydrazyl (DPPH) free radical scavenging assay, CCE exhibited considerable antioxidant activity. The SC50 value representing 0.0054% CCE corresponds to an antioxidant activity of 216.8 microm ascorbic acid which was used as a reference compound. Although the mechanism of CCE action still remains to be elucidated, different possible mechanisms are probably involved in the CCE antigenotoxic effects. It could be concluded that CCE is of particular interest as a suitable candidate for an effective chemopreventive agent.

In vitro and in vivo antileukemic effect of novel dimers consisting of 5-fluorodeoxyuridine and arabinofuranosylcytosine.

Various amphiphilic heterodinucleoside phosphates containing 1-beta-D-arabinofuranosylcytosine (ara-C) and 5- fluorodeoxyuridine (5-FdUrd) have recently been synthesized in order to increase the efficacy of ara-C and 5-FdUrd. Employing growth inhibition and growth recovery assays, we evaluated the in vitro effects of four of these dimers (No. 2, 2A, 3, 10) in L1210 and P388D1 murine leukemia cells. Although ara-C and 5-FdUrd appeared equimolar in all dimers, their contribution to the cytotoxicity of these agents was different. Thus, the liberation of ara-C and 5-FdUrd from their dimeric origin and their subsequent metabolic activation had a different course. In another set of experiments, we examined the in vivo effects of these agents in mice. The dimer with the highest cytotoxicity in vitro exerted the lowest acute toxicity and yielded the lowest therapeutic effect in vivo. The obtained data indicate that dimers with slower liberation of ara-C and 5-FdUrd were less cytotoxic, but prolonged liberation of both antimetabolites protected them from inactivation and extended the time period of therapeutic action. Some of the dimers exceeded the synergistic effects yielded by simultaneous application of both ara-C and 5-FdUrd. The significantly higher therapeutic potential of these new antitumor agents indicates that further studies are warranted.

Natural microbial polysaccharide sulphoethyl glucan as antigenotoxic and cancer preventing agent.

Naturally occurring polysaccharides isolated from the yeasts are the substances with versatile intriguing biomodulatory activities. One of the novel derivatives prepared from the (1 --> 3)-beta-D-glucan isolated from the cell walls of baker's yeast Saccharomyces cerevisiae is sulfoethyl glucan (SEG). Its DNA-protective, antimutagenic, anticlastogenic and cytotoxic/cytostatic enhancing effect was evaluated using five eukaryotic systems. SEG showed bioprotective effect in recombination- repair-deficient strain of alga Chlamydomonas reinhardtii against methyl methanesulfonate-induced genotoxicity, antimutagenic effect against ofloxacin-induced genetic changes in yeast Saccharomyces cerevisiae assay and anticlastogenic activity in plants Vicia sativa and Vicia faba assays against maleic hydrazide-induced clastogenicity. In the combined application with cytostatic drug vumon, SEG exerted enhancement of the drug's cytotoxic/cytostatic effect in the cell revitalization assay using mouse leukemia cells. The study sheds light on the possible mechanisms of actions and utilization of this microbial polysaccharide derivative in the cancer prevention and therapy.

Diverse resveratrol sensitization to apoptosis induced by anticancer drugs in sensitive and resistant leukemia cells.

Naturally occurring dietary compound resveratrol (RES), possessing chemopreventive and cytostatic properties, has been shown as potent sensitizer for apoptosis induced by a variety of anticancer drugs. Cell cycle analysis in sensitive promyelocytic leukemia HL60 cell line and its multidrug-resistant variant HL60/VCR (P-gp positive) treated with RES resulted in cell cycle arrest in S-phase in both cell variants. Flow cytometry measurements showed diverse activities of RES in combination with anticancer drugs doxorubicin (DOX), cycloheximide (CHX), busulfan (BUS), gemcitabine (GEM) and paclitaxel (PTX), in some cases resulting in apoptosis induction, preferentially at the expense of S-phase. Thus, RES could become a candidate to enhance the efficacy of combination anticancer therapy in a variety of human cancer cells inclusive leukemias.

Antileukemic activity of sulfonamide conjugates of arabinosylcytosine.

AIM: Cytosine arabinoside is routinely used for treatment of leukemias and lymphomas. However, because of its extensive metabolic inactivation and limited activity in chemotherapy, new analogues of araC are being tested. The aim of this work was to synthetize two araC conjugates and evaluates their cytotoxic/antileukemic activity. METHODS: Synthesis of araC-sulfonamide conjugates A and B was performed in anhydrous conditions using cyclostyling and 5'-chlorocyclocytidine as starting material. Elemental analysis and NMR, IR and UV spectrometry were used for structure confirmation. The synthesized araC conjugates were tested for their cytotoxicity in L1210 leukemia cells in vitro and for therapeutic activity and toxicity in vivo in leukemia L1210-bearing mice. RESULTS: The cytotoxic activities of araC and two synthesized conjugates A and B were expressed as IC(50) (micromol/l) and were compared respectively. The conjugate A is 303-times less active and the conjugate B is 757-times less active than araC. Consequently, the antileukemic activity and the acute toxicity of these compounds were examined in experiments involving leukemia L1210-bearing mice. Statistically significant therapeutic outcome was observed when the dosage of both araC conjugates was increased 10-times compared to araC. Next, the ration of cytotoxicity vs therapeutic activity for araC and both conjugates was performed. It was recorded that the ration between cytotoxicity and therapeutic activity for araC is 3333, for the conjugate A and B, the ration is significantly lower (110 and 44). This indicates that the inactivation of araC conjugate A is 30-times slower and the inactivation of conjugate B is 75-times slower as araC inactivation. CONCLUSIONS: The differences in cytotoxic and therapeutic activity registered in araC treatment and between two araC-analogues are most probably caused by slow liberation of araC from both conjugates. We are considered that prolonged araC liberation protected them from inactivation and extended the time period of therapeutic action both araC conjugates. The obtained results can serve as stimuli for further investigation of new araC-analogues.

Intramucosal bacteria in colon cancer and their elimination by probiotic strain Enterococcus faecium M-74 with organic selenium.

Intraepithelial bacteria were isolated by the gentamicin protection assay (GPA) from biopsy samples obtained at colonoscopy (colon cancer, n = 10 patients; colonic adenoma, n = 20; control group, n = 20; cancer patients without gastrointestinal tract GIT malignancy, n = 10). After a three-month administration of E. faecium M-74 to patients with positive GPA biopsies, 172 biopsy specimens from 60 patients were examined with the GPA. The number of biopsies with intracellular bacteria was significantly higher in adenoma and carcinoma group than in control group (26 vs. 10%; p = 0.004); in cancer patients without GIT malignancy the difference was nonsignificant. E. faecium M-74 was also administered to 5 patients with colonic adenoma; according to a control colonoscopy the number of biopsies with intracellular bacteria was significantly lower after probiotic administration (48 vs. 16%; p = 0.03). A striking prevalence of intraepithelial bacteria was also showed in patients with large bowel adenoma and carcinoma. The administration of probiotic strain M-74 can thus be considered to be an effective and promising method for elimination of pathogenic bacteria in the case of inflammatory bowel disease and colon cancer.

Potentiation of doxorubicin-induced apoptosis and differentiation by indomethacin in K-562 leukemia cells.

In this study we have examined the antitumor effect of combined administrations of indomethacin (IND) with doxorubicin (DOX) on growth of K-562 leukemia cells. Although, as single drug treatment, only high concentrations of IND reduced growth (>200 microM) and induced apoptosis (>800 microM) of the K-562 cells, a synergistic effects on DOX-induced cell growth inhibition, apoptosis and differentiation were observed during the co-administration of DOX with 10 microM IND. Cells treated with this combination had elevated GSHt level compare to DOX-treated cells. Modulation of GSHt level of DOX-treated cells with Cd2+ ions or BSO confirmed its important role in processes of DOX-induced differentiation. Results of this study showed that IND has a positive effect on therapeutic efficacy of DOX, and could be a perspective modulator in cancer chemotherapy.

Antigenotoxic potential of glucomannan on four model test systems.

Antimutagenic, anticlastogenic, and bioprotective effect of polysaccharide glucomannan (GM) isolated from Candida utilis was evaluated in four model test systems. The antimutagenic effect of GM against 9-aminoacridine (9-AA)- and sodium azide (NaN3)-induced mutagenicity was revealed in the Salmonella typhimurium strains TA97 and TA100, respectively. GM showed anticlastogenic effect against N-nitroso-N'-methylurea (NMU) induced chromosome aberrations in the Vicia sativa assay. The bioprotective effect of GM co-treated with methyl-methane-sulphonate (MMS) was also established in Chlamydomonas reinhardtii repair deficient strains uvs10 and uvs14. The statistically significant antimutagenic potential of GM was not proved against 4-nitro-quinoline-1-oxide (4-NQO)-induced mutagenicity in Saccharomyces cerevisiae D7 assay. It may be due to bioprotectivity of alpha-mannan and beta-glucan, which are integral part of S. cerevisiae cell walls. Due to the good water solubility, low molecular weight (30 kDa), antimutagenic/anticlastogenic, and bioprotective activity against chemical compounds differing in mode of action, GM appears to be a promising natural protective (antimutagenic) agent.

Induction of cytotoxicity and ssDNA breaks by 9-bromo-5-morpholino-tetrazolo[1,5-c]quinazoline in tumor cells cultured in vitro.

9-Bromo-5-morpholino-tetrazolo[1,5-c]quinazoline (BMTQ) acted cytotoxically on murine leukemia cell line L1210 and human colon carcinoma cells Caco-2. We found the two highest concentrations of BMTQ (149.2 and 74.6 microM) induced an acute cytotoxic effect, however other tested concentrations (<74.6 microM) manifested a concentration/dependent and time/dependent cytotoxic effect. The sensitivity of murine leukemia cells L1210 and human colon carcinoma cells Caco-2 was expressed in the same order. The cytotoxicity of BMTQ was not accompanied by changes of the cell cycle profile. Following the cytotoxicity-related effects of BMTQ we observed the induction of ssDNA breaks after BMTQ treatment. All the concentrations of BMTQ increased the level of ssDNA breaks 1.3-2.9 times (after 2 h of treatment) and 1.6-2.8 times (after 4 h of treatment) in Caco-2 cells compared to the control. No apoptotic DNA fragmentation induced by BMTQ in Caco-2 cells was recorded.

Main targets of tetraaza macrocyclic copper complex on L1210 murine leukemia cells.

Several metal complex agents have already been introduced into clinical tumor therapy and others are subject of antitumor studies. In this study we focused on the tetraaza macrocyclic copper complex (Cu(TAAB)Cl(2)). We studied the influence of the substance on cell growth, cell cycle, membrane integrity, necrosis, apotosis and glutathione level on the leukemic cell line L1210 in 1-day (22 h) and 3-day (72 h) experiments. The metal complex shows a dose-dependent antiproliferative effect, without affecting cell cycle phases. The present results confirm that copper complex can damage plasmatic membranes and trigger apoptosis, and that after treatment of leukemic cells with the copper complex, glutathione levels were increased.

Stability of the new antileukemic 4-pyranone derivative, BTMP, using HPLC and LC-MS analyses.

The stability of the new antileukemic kojic acid derivative, 5-benzyloxy-2-thiocyanatomethyl-4-pyranone (BTMP) was investigated. The degradation of BTMP was studied using specific and reproducible HPLC and LC-MS methods. Accelerated stability studies of BTMP were conducted in 0.1 M hydrochloric acid solution, physiological phosphate buffer solution (pH 7.5) and basic phosphate buffer solution (pH 9.0) at 30, 40 and 60 degrees C, respectively. The degradation of BTMP was found to follow pseudo-first order kinetics. In basic solution (pH 9.0) BTMP underwent rapid hydrolysis at a degradation rate constant (0.183-0.638 h-1) and degradation half-life (3.67-1.06 h) depending on the temperature setting. On the other hand, BTMP was significantly stable in 0.1 M hydrochloric acid solution (kdeg: 0.0017-0.0052 h-1; degradation half-life t1/2: 408.6-135.7 h), whereas in physiological phosphate buffer solution (pH 7.5), BTMP was only moderately stable (kdeg: 0.006-0.231 h-1; degradation half-life: 117.7-3.0 h). Arrhenius plots were constructed to predict the degradation kinetic parameters of BTMP at 25 degrees C and 4 degrees C. LC-MS analyses confirmed the degradation of BTMP in basic solutions and indicated at least two degradation products; namely 5-benzyloxypyran-2-ol-4-one (m/z 217.8) and 2-thiocyanatomethylpyran-5-ol-4-one (m/z 181.6).

Comparative DNA protectivity and antimutagenicity studies using DNA-topology and Ames assays.

Two experimental techniques, the DNA-topology assay and the Ames assay, were proved to be suitable for monitoring compounds with a genotoxic potential and/or with an antimutagenic effect. Both procedures were used in assaying the acid-mine water (AMW) containing toxic metals and sulfoethyl chitin-glucan (SE-Ch-G), a derivative of chitin-glucan, in which bioprotective activities were detected earlier. It was shown that after toxic metal concentrations were decreased due to AMW dilution to the limits that correspond with those set by the Slovak Technical Norm (STN) for drinking water, AMW was not genotoxic in the Ames assay. As it is possible to detect any single-strand DNA (ssDNA) break in the DNA-topology assay, the SE-Ch-G protective effect against the ssDNA breaks induced by Fe(2+) in the DNA-topology assay was recorded. SE-Ch-G exhibited the antimutagenic potential after its application simultaneously with diagnostic mutagens in the Ames assay. These results demonstrate the complementarity of both experimental systems.

Study of antioxidant effect of apigenin, luteolin and quercetin by DNA protective method.

A DNA protective capacity of three flavonoids, apigenin (AP), luteolin (LU) and quercetin (QU) against free radicals generated by H202, resp. Fe2+ is reported. This effect corresponding with scavenging of free radicals or with chelating of iron was assayed at two concentrations of flavonoids studied (1 microM and 10 microM). The quantitative analysis has shown that LU possesses the highest DNA protective effect of flavonoids investigated in the presence of H2O2. On the other hand, in the presence of 10 microM Fe2+, AP exhibited the highest DNA protective effect at the concentration of 1 microM and the following order was reached at the stoichiometric concentrations (10 microM) of Fe2+. It is believed that this discrepancy is caused by the ability of LU and QU iron-complex formation as it was separately investigated using UV-VIS spectrometry.

Biological activity of some 4-anilinoquinazolines: cytotoxic, genotoxic and antiprotease effects, induction of necrosis and changes of actin cytoskeleton.

Fourteen substituted 4-anilinoquinazolines have been tested for cytotoxic effect and structure activity relationships. The most active derivatives were substituted by chlorine or bromine group in the aromatic ring, in the pyrimidine ring by morpholine group and in the aniline skeleton by nitro group in position 4 or 2. Derivatives 6-bromo-2-(morpholin-1-yl)-4-(4'-nitroanilino)quinazoline, 6-bromo-2-morpholin-1-yl)-4-anilinoquinazoline, 2-(morpholin-1-yl)-4-(4'-bromoanilino)-quinazoline and 6-chloro-2-(morpholin-1-yl)-4-(4'-nitroanilino)quinazoline inhibited growth of tumor cell lines HeLa, B16 and L1210. Mutagenic data provided by Ames test showed, that the compounds 6-bromo-2-morpholin-1-yl)-4-anilinoquinazoline and 2-(morpholin-1-yl)- 4-(4'-bromoanilino)quinazoline did not exhibit the mutagenic effect, whereas the compounds 6-bromo-2-(morpholin-1-yl)-4-(4'-nitroanilino)quinazoline and 6-chloro-2-(morpholin-1-yl)-4-(4'-nitroanilino) quinazoline increased slightly the number of revertants of the strain TA 98 without metabolic activation. Concentration 26 micromol/L of 6-bromo-2-(morpholin-1-yl)-4-anilinoquinazoline induced necrosis of tumor cells B16. Concentration 5.2 micromol/l induced a significant increase of filamentous actin in the transformed HepG2 cells. Derivatives 6-bromo-2-(morpholin-1-yl)-4-(4'-nitroanilino)quinazoline, 6-bromo-2-morpholin-1-yl)-4-anilinoquinazoline, 2-(morpholin-1-yl)-4-(4'-bromoanilino)quinazoline and 6-chloro-2-(morpholin-1-yl)-4-(4'-nitroanilino)quinazoline exhibited antiprotease effect on plasmine. This results could be relevant for the anticancer properties of these compounds.