Enhanced Proapoptotic Effects of Water Dispersed Complexes of 4-Thiazolidinone-Based Chemotherapeutics with a PEG-Containing Polymeric Nanocarrier.

AIM: To study whether water formulation of the complex of 4-thiazolidinone derivatives with a PEG-containing polymeric nanocarrier enhances their pro-apoptotic action towards rat glioma C6 cells. METHODS: Mechanisms of antineoplastic effects of 4-thiazolidinone derivatives were investigated in vitro with rat glioma C6 cells. Cell nativity, cell cycling pattern, and Annexin V expression were evaluated and DNA damage was estimated by DNA comet analysis. A novel water-based formulation of 4-thiazolidinone derivatives complexed with a polymeric nanocarrier was utilized for enhancing pro-apoptotic action towards C6 cells. RESULTS: The studied 4-thiazolidinone derivatives use apoptosis mechanisms for killing rat glioma C6 cells, as confirmed by FACS analysis of these cells in pre-G1 stage, the appearance of Annexin V positive C6 cells, and an increased number of DNA comets of higher classes. Complexation of the studied compounds with a PEG-containing polymeric nanocarrier significantly increased pro-apoptotic effects in rat glioma C6 cells measured by all methods mentioned above. CONCLUSION: Complexation of 4-thiazolidinone derivatives with a PEG-containing polymeric nanocarrier provided them with water solubility and enhanced pro-apoptotic effects in rat glioma C6 cells.

Biochemical indicators of nephrotoxicity in blood serum of rats treated with novel 4-thiazolidinone derivatives or their complexes with polyethylene glycol-containing nanoscale polymeric carrier

The aim of this study was to compare the effect of new synthetic 4-thiazolidinone derivatives (potential anticancer compounds denoted as 3882, 3288 and 3833) and doxorubicin (positive control) in free form and in their complexes with synthetic polyethylene glycol-containing nanoscale polymeric carrier on the biochemical indicators of nephrotoxicity in blood serum of rats. The concentration of total protein, urea, creatinine, glucose, ions of sodium, potassium, calcium, iron and chloride was measured. It was found that after injection of the investigated compounds, the concentration of sodium cations and chloride anions in blood serum was increased compared with control (untreated animals). Doxorubicin's injection was accompanied by a decrease in the concentration of iron cations. The concentration of total protein, urea and creatinine decreased under the influence of the studied compounds. Complexation of these аntineoplastic substances with a synthetic polymeric nanocarrier lowered the concentration of the investigated metabolites substantially compared to the effect of these compounds in free form. The normalization of concentration of total protein, urea and creatinine in blood serum of rats treated with complexes of the studied compounds with the polymeric carrier comparing with increased concentration of these indicators at the introduction of such compounds in free form was found.

BIOCHEMICAL INDICATORS OF HEPATOTOXICITY IN BLOOD SERUM OF RATS UNDER THE EFFECT OF NOVEL 4-THIAZOLIDINONE DERIVATIVES AND DOXORUBICIN AND THEIR COMPLEXES WITH POLYETHYLENEGLYCOL-CONTAINING NANOSCALE POLYMERIC CARRIER.

The aim of this study was to compare the effect of new synthetic 4-tiazolidinone derivatives (compounds 3882, 3288 and 3833) and doxorubicin (positive control) in free form and in their complexes with synthetic polyethyleneglycol-containing nanoscale polymeric carrier on the biochemical indicators of hepatotoxicity in blood serum of rats. The activity of enzymes considered as the markers of hepatotoxicity, as well as. the concentration of total protein, urea and creatinine were measured in blood serum of rats. It was found that after injection of investigated compounds the activities ofalanine aminotransferase, alkaline phosphatase and α-amylase increased in comparison to control. Doxorubicin injection was accompanied by 4-fold increase in the activity of γ-glutamyltransferase, and injection ofcompound 3833 led to 2.5-fold elevation ofthe activity of this enzyme. Complexation ofthese antineoplastic derivatives with a synthetic nanocarrier lowered the activity ofthe investigated enzymes substantially if compared to the effect of these compounds infreeform. The most evident decrease was measured for α-amylase, γ-glutamyltransferase and lactate dehydrogenase activities. The normalization of concentrations of total protein, urea and creatinine in blood serum of rats treated with complexes of the studied compounds with a polymeric carrier comparing with their introduction infreeform was also detected. Thus, the immobilization by novel polymeric carrier of anticancer drugs possessing high general toxicity in the treated organism mitigates their toxic effect, which is evident as normalization of specific biochemical indicators of the hepatodestructive effects of the anticancer drugs.

[Genetic transformation of the moss Ceratodon purpureus by novel polycationic carriers of DNA].

There is a big progress in application of genetic engineering for improving the biological properties of different organisms. Viral and non-viral carriers are used for delivery of genetic material into target cells. Nanoscale polymeric materials of natural and synthetic origin are the most promising gene delivery agents. These polymers have demonstrated high efficiency of DNA delivery into the mammalian cells, although they were not very effective in plant cells. Here, the procedure for genetic transformation of Ceratodon purpureus (Hedw.) Brid. moss protoplasts is described. Method is based on the application of novel surface-active polymeric carriers of the polyDMAEM structure and controlled length and charge. It allows obtaining more transient and stable moss transformants per microgram of plasmid DNA when compared with known protocol based on using polyethyleneglycol. It is easier, more convenient, and cheaper than the "gene gun" method. Perspectives for further improvement of structure and functional characteristics of novel polymeric carriers are considered for delivery of genetic material into plant cells.

Enhanced anticancer activity and circumvention of resistance mechanisms by novel polymeric/ phospholipidic nanocarriers of doxorubicin.

Severe toxic side effects and drug resistance are the major limitations of doxorubicin (Dox), one of the most potent anticancer agents in clinical use. Nanocarrier preparations offer the opportunity to overcome these drawbacks, which is reflected in the clinical approval of two liposomal Dox preparations. Additionally, there are many attempts to enhance the activity of Dox against multi-drug resistant (MDR) cancer cells. However, most of these strategies resulted in the increased uptake of Dox in resistant cells, only, while it remained unchanged in chemo-sensitive cells. Here, we present a new polymeric-phospholipidic hybrid delivery system which distinctly enhanced the accumulation and activity of Dox in all tested cancer cell lines including several MDR cell models. Notably, the resistance levels against Dox were reduced from about 6-fold to about 2-fold. Moreover, the new nanocarriers were shown to rapidly (within 10 min) and effectively transport Dox into resistant as well as sensitive cancer cells. Consequently, treatment with the new Dox-containing nanocarriers resulted in effective cell cycle arrest in G2/M phase and ROS-induced cell death induction. Finally, the new nanocarriers were tested against NK/Ly lymphoma and L1210 leukemia cells in vivo. In both cell models, the nanoformulation of Dox resulted in 100% cured animals already at low concentrations (0.1 mg/kg), while free Dox solely extended survival time. This indicates that the incorporation of phospholipids into PEGylated polymeric nanocarriers is a promising strategy to enhance efficacy and reduce toxicity of Dox treatment against both sensitive and resistant cancer models in vitro and in vivo.

Nanoformulation improves activity of the (pre)clinical anticancer ruthenium complex KP1019.

Ruthenium anticancer drugs belong to the most promising non-platinum anticancer metal compounds in clinical evaluation. However, although the clinical results are promising regarding both activity and very low adverse effects, the clinical application is currently hampered by the limited solubility and stability of the drug in aqueous solution. Here, we present a new nanoparticle formulation based on polymer-based micelles loaded with the anticancer lead ruthenium compound KP1019. Nanoprepared KP1019 was characterised by enhanced stability in aqueous solutions. Moreover, the nanoparticle formulation facilitated cellular accumulation of KP1019 (determined by ICP-MS measurements) resulting in significantly lowered IC50 values. With regard to the mode of action, increased cell cycle arrest in G2/M phase (PI-staining), DNA damage (Comet assay) as well as enhanced levels of apoptotic cell death (caspase 7 and PARP cleavage) were found in HCT116 cells treated with the new nanoformulation of KP1019. Summarizing, we present for the first time evidence that nanoformulation is a feasible strategy for improving the stability as well as activity of experimental anticancer ruthenium compounds.

[Study of rat blood serum biochemical indicators of cardiotoxic action of novel antitumor 4-thiazolidinone derivatives and doxorubicin in complexes with polyethylene glycol-containing polymeric carrier in the rat blood serum].

The aim of this study was to measure the activity of enzymes which reflect cardiotoxic action in rats of novel synthetic 4-thiazolidone derivatives--3882, 3288 and 3833 that demonstrated antineoplastic effect in vitro towards 60 lines of human tumor cells tested in the framework of the program of screening new anticancer drugs at the National Cancer Institute (USA). Such action of these compounds was compared with the effect of well known anticancer agent doxorubicin and after conjugation of all above mentioned substances with new polyethylenglycol-containing polymeric comb-like carrier that was synthesized by the authors. Among the biochemical indicators of cardiotoxic action of anticancer agents, activity of the following enzymes in rat blood serum showed to be the most informative: creatine kinase, lactate dehydrogenase, aspartate aminotransferase, and alanine aminotransterase. Tenfold injection of doxorubicin in a dose of 5.5 mg/kg of weight caused rats' death, while 3882, 3288 and 3833 preparations had not such action. Application of the doxorubicin in combination with polymeric carrier prolonged the survival time to 20 days. Thus, the injection of anticancer agents in a complex with polymeric carrier provides a significant decrease in their cardiotoxicity that was confirmed by the corresponding changes in the activity of marker enzymes: creatine kinase, lactate dehydrogenase, aspartate aminotransferase and alanine aminotransferase in blood serum of treated rats.

[Functions of metallothioneins and a system of antioxidant defense under the effect of Co- and Zn-containing nanocomposites on crucian carp (Carassius auratus gibelio)].

The effect of metal-nanocomposites (Me-NC) of cobalt and zinc (Co- and Zn-NC, correspondingly) synthecized on the basis of vinylpyrrolidone (PS) on the metal-accumulative proteins with antioxidant potential metallothioneins (MT) in crucian carp (Carassius auratus gibelio) was studied. Fish was subjected to the effect of Co-NC, Zn-NC, Co2+, Zn2+ or polymer carrier (PC) in the concentrations correspondent to 50 microg x Co/l or 100 microg x Zn/l during 14 days. It was shown that the MTs response is highly specific for the nature of metal, both in ion and Me-NC form: the effect of Co and Co-NC provoked the elevation of total MT concentration (MT-SH) and activation of antioxidant defence, whereas Zn and Zn-NC induced the decrease of the concentration of MT-SH and the inhibition of antioxidant defense. All the exposures provoked the decrease of the concentration of immunoreactive chelating MT form (MTi) and reduced glutathione, activation of anaerobiosys and Mn-superoxide dismutase, and also decrease of the concentration of proteins and lipids oxidative injury products. It was accompanied by the increase of the content of erythrocytes with nuclear abnormalities but did not cause the decrease of choline esterase activity. According to the rate of MT-SH and MTi concentrations, antioxidant potential of MTs is determined by its apoform. Our data indicate that partial biodegradation of Me-NC occurs in the organism of crucian carp.

[Effect of free and polymer carrier encapsulated doxorubicin towards HCT116 cells of human colorectal carcinoma].

Development of novel nanoscale functionalized carriers is nowadays one of the most urgent problems in cancer treatment. The aim of our study was to compare the antineoplastic effect of free doxorubicin and its complex with a nanoscale polymeric carrier towards HTC116 colorectal carcinoma cells. It was established that application of the complex of poly(5-tret-butylperoxy)-5-methyl-1-hexene-3-in-co-glycydyl metacrylat)-graft-polyethyleneglycol (poly(VEP-GMA-PEG)-graft-PEG), where VEP--5-tret-butylperoxy)-5-methyl-1-hexene-3-in; GMA--glycydyl metacrylat; graft-PEG--graft-polyethyleneglycol accordingly, functionalized with phosphatidylcholine for doxorubicin delivery increased 10 times the efficiency of cytotoxic action of this drug, as compared wich such efficiency in case of the action of free doxorubicin. The encapsulated form of doxorubicin caused more intensive cleavage of the reparation enzyme PARP and longer delay in G2/M cell cycle arrest, compared to such effects of free doxorubicin. The developed carrier itself is non-toxic to the used mammalian cells and does not cause impairment in their cell cycle. A deletion in both alleles of p53 gene did not affect the antineoplastic action of doxorubicin that was immobilized on the nanoscale carrier. Thus, p53-dependent signaling pathways are not involved in the cytotoxic action of doxorubicin-carrier complex. It is suggested that novel nanoscale polymeric carrier poly(VEP-GMA-PEG)-graft-PEG functionalized with phosphatidylcholine could be a promising carrier for targeted delivery of anticancer drugs.

[Evaluation of biological effects of cobalt-nanocomposites with the use of biochemical markers of bivalve mollusk Anodonta cygnea].

Intensive implementation of nanomaterials requires development of novel methods for evaluation of their potential ecotoxicity. The aim of our study was to identify specific characteristics of the effect of cobalt-nanocomposite (Co-NC) on the molecular stress-responsive system in the digestive gland of bivalve mollusk Anodonta cygnea. Nanocomposite was synthesized by mixing alcohol solution of copolymer N-vinylpirrolidone, 5-(tret-butylperoxy)-5-methyl-1-hexene-3-yne and dimethylaminoethylmetacrylate and cobalt (II) chloride. After 14 days of the mollusk exposure in the presence of Co-NC, CoCl, or corresponding polymer substance it was shown that the Co-NC, in contrast to other agents, does not cause an oxidative stress due to the superoxide dismutase activity, metallotioneins (MTs) level, glutathione redox index and oxyradical production. Multivariate analysis confirmed specific features of the Co-NC's effect related to an enhanced expression of MTs, while CoCl2 activated lactate dehydrogenate and oxyradical production, and polymer substance enhanced glutathione transferase activity.

[Comparative study of the structure and protein composition of spermatozoid centrioles from sturgeons and salmon]. / Sravnitel'noe issledovanie stroeniia i belkovogo sostava tsentriolei spermatozoidov osetrovykh i lososevykh ryb.

The aim of the present work was to compare the structure and protein composition of centrioles from spermatozoa of sturgeon and salmon fishes. The total protein content of the extracted fractions was studied by Na-SDS electrophoresis. Proteins with molecular weights from 15 to 170 kDa were detected. In both cases the major protein of centrioles is a protein with a molecular weight equal to that of tubulin. A protein with the molecular weight corresponding to actin was also detected. In both cases the ATPase activity stimulated by Ca2+ and Mg2+ ions was revealed. Electron microscopic studies showed differences in the ultrastructure of centrioles from sturgeon and salmon spermatozoa.

[Use of dietetic canned meats in the nutrition of infants with food allergy]. / Ispol'zovanie dieticheskikh miasnykh konservov v pitanii detei rannego vozrasta s pishchevoi allergiei.

Formulas have been developed for special canned pig meat "Pig meat puree" and "Cheburashka" and horse meat "Konek-gorbunok", and a combination of pig and horse meat "Vinni Pukh", without extractives. The above canned meat produced a high therapeutic effect when it was included into the diet of infants suffering from food allergy because of sensitization to cow milk and beef proteins. The canned meat permits correcting the ration by protein component and providing 25-30% of daily protein requirement of an infant.

[Polymerization of bacterial flagellar flagellin in the presence of polyethyleneglycol]. / Polimerizatsiia flagellina bakteriial'nykh zhgutikov v prisutstvii polietilenglikolia.

Polymerization of flagellin from the flagella of Bacillus brevis in the presence of polyethyleneglycol (PEG) with molecular weight varying from 400 to 40 000 was studied. When 10% PEG2000-6000 was used, polymerization was completed within 5 min. When PEG with higher molecular weights were used, their higher concentrations were necessary. Polymerization of flagellin in the presence of PEG400-600 did not practically differ from that without PEG. At flagellin concentrations up to 0.1 mg/ml the polymerization process with PEG also occurred at a very high rate. Polymerization of flagellin obtained by heating of bacterial flagella in the presence of PEG did not require exogenous primer. A possible mechanism of flagellin polymerization in the presence of PEG is discussed.

[Mimosa pudica adenosine triphosphatase]. / Issledovanie adenozintrifosfataz Mimosa pudica.

The morphological structure (pulvinus P1, P2 and P3) directly involved in the seismonastic movements of the Mimosa pudica leaf have been used to isolate: 1) "soluble" ATPase, loosely bound to pulvinus structures; 2) Ca, Mg-dependent ATPase, which is tightly bound to pulvinus structures and is extracted by a saline solution of high ionic strength, used to isolate actomyosin from muscles and non-muscle motile cells; 3) ATPase bound to the pulvinus membrane structures, which is solubilized by the detergents, e. g. Triton X-100 and Tween-80, and is similar to membrane ATPase. Physico-chemical and kinetic studies of the APSases have shown that Ca,Mg-ATPase is similar to the ATPases from muscle and non-muscle motile cells in a number of characteristics, e. g. solubility in saline solution of high ionic strength, aggregability in a solution of lower ionic strength, activation by bivalent metal ions, pH-optimum, specificity for substrates, etc. The protein composition of the ATPases has been determined by gel-electrophoresis in polyacrylamide gel. The molecular weight of purified Ca,Mg-ATPase from Mimosa pudica pulvinus is found to be 139 000. The role of ATPases in seismonastic movements of the Mimosa pudica leaf is discussed.