Vanadium, Ruthenium and Copper Compounds: A New Class of Nonplatinum Metallodrugs with Anticancer Activity.

Cancer is a group of diseases involving abnormal cell growth. The cells grow uncontrollably with the potential to invade and spread to other parts of the body. This disease is one of the principal death causes in the world, thus becoming a significant topic of scientific research. On the other hand, transition metals play a fundamental role in different living systems. In particular, Metallodrugs represent new and powerful tools for diverse therapeutic applications. To date, various metallodrugs display interesting biological activities for chemotherapy. In this field, cisplatin was the first inorganic compound with high relevance in cancer treatment. This compound was a leader agent in clinical use. Toxicity and resistance problems trigger the development of other platinum drugs with better clinical perspective and also raise the scientific interest for the putative antitumor properties of V, Ru and Cu compounds. Several scientific articles show that complexes of these metals are the new metal-based drugs used in the treatment of several cancers, such us, lung, colon, breast, bladder, etc. In this review we recapitulate current information and new advances on antitumor in vitro effects of several organic and inorganic compounds derived from copper, ruthenium and vanadium. These metal derived compounds targeting DNA or cell proteins involved in cell signaling pathways related to cancer. The mechanisms of cell death of these metallodrugs have also been comprehensibly reviewed. The knowledge of these mechanisms of death and the relationship between chemical structure and biological activity may be useful for the design of new metal-based drugs with promising pharmacologic applications as anticancer agents.

α6ß4 Integrin Genetic Variations (A380T and R1281W) and Breast Cancer Risk in an Argentinian Population.

The α6ß4 integrin is composed of the α6 and ß4 subunits that are encoded by the ITGα6 and the ITGß4 genes, respectively. The α6ß4 main function is to intervene in lamination and epithelia integrity maintenance by cell-matrix interactions. This integrin appears to have importance in breast cancer malignancy, as well as other epithelial carcinomas. The aim of this work was to investigate the potential role of ITGα6 (A380T) and ITGß4 (R1281W) genetic variations in breast cancer susceptibility, in a female population from the northeast region of Argentina (Misiones). We performed a case-control study of 85 breast cancer patients and 113 cancer-free controls. Genotyping was performed by RFLP-PCR. For ITGα6 (A380T) single nucleotide polymorphism, a high frequency of heterozygous genotype GA in cases compared to controls was observed, achieving values of 48% and 49%, respectively. No association between the A380T SNP and breast cancer development was found (Odds Ratio = 0.92; 95% Confidence Interval = 0.52-1.63; p = 0.884). In conclusion, we did not find evidence of an association between A380T (ITGα6) and the risk of developing breast cancer. The results represent the first report of these genetic variations in breast cancer; therefore, they are an important contribution to the literature.

Role of oxidative stress in the antitumoral action of a new vanadyl(IV) complex with the flavonoid chrysin in two osteoblast cell lines: relationship with the radical scavenger activity.

The new complex [VO(chrysin)(2)EtOH](2) (VOchrys) has been synthesized and thoroughly characterized. Fourier transform IR, UV-vis, diffuse reflectance, and EPR spectroscopies as well as elemental analysis and thermal measurements were performed. In solution, different species could be detected by EPR spectroscopy as a function of the ligand-to-metal ratio. The stoichiometry of the chelate complex formed at pH 5 was also determined by spectrophotometric titrations. Since flavonoids are natural antioxidant compounds, the antioxidant capacity of chrysin and its vanadyl(IV) complex was investigated using different radicals. Chrysin and its complex were not able to diminish the level of superoxide and 1,1-diphenyl-2-picrylhydrazyl radicals to a great extent. In contrast, they were strong scavengers for 2,2'-azinobis(3-ethylbenzothiazoline-6-sulfonic acid diammonium salt radical cations and OH. radicals with a greater potency for VOchrys. Taking into account their selective antioxidant properties, we investigated the bioactivity of these compounds in two osteoblast-like cells in culture. Chrysin and VOchrys caused an inhibition of cell proliferation in MC3T3E1 normal osteoblasts and UMR106 tumor cells in a dose-response manner, with a greater effect in the latter cell line. The generation of reactive oxygen species (ROS) was evaluated in both cell lines and a correlation could be established between the antiproliferative effects of chrysin and the increase in the ROS levels. The complex did not generate types of ROS that can be detected by the dihydrorhodamine 123 technique so the antiproliferative effect may be attributed to the formation of other radicals such as superoxide, which is not detected by this probe. The morphological alterations were in agreement with these changes.

Modificaciones de las lipoproteínas de baja densidad en pacientes diabéticos / Modification of low-density lipoproteins in diabetic patients

En los pacientes diabéticos, las lipoproteínas presentan frecuentemente cambios cualitativos y cuantitativos en su composición y varios pasos del metabolismo están alterados. Estas anormalidades contribuyen al incremento del riesgo de enfermedad cardiovascular y se la conoce como "dislipemia aterogénica". En este trabajo se estudiaron en una población de pacientes diabéticos las modificaciones fisicoquímicas por glicación de sus lipoproteínas de baja densidad (LDL), los resultados se compararon con una población control y con ensayos de glicación in vitro. Las LDL se aislaron por precipitación selectiva y las modificaciones se evaluaron por el incremento de fructosamina, el consumo de los residuos e-amino de lisina, guanidinio de arginina y la disminución de la fluorescencia del grupo indol del triptofano. Los procedimientos seleccionados resultan accesibles al laboratorio clínico. Los valores medios para todos los analitos medidos fueron significativamente diferentes de los de la población control (p0,0001); de la comparación del ensayo in vitro pudo deducirse que las alteraciones de los residuos de arginina serían un marcador temprano de las modificaciones por glicación, en tanto que las producidas en los residuos de lisina y triptofano representarían indicadores de las alteraciones de mediano plazo. Vale considerar la utilidad de evaluar simultáneamente en una misma molécula, indicadores de control glucémico tanto de corto como de mediano plazo, teniendo en cuenta su relevancia en la fisiopatología de la ateroesclerosis.

In diabetic patients, lipoproteins usually show qualitative and quantitative changes in their composition and as a consequence, severa! metabolic pathways are altered. These alterations contribute to an increase in the risk of cardiovascular disease, also known as "atherogenic dyslipidemia". The present workstudied the physicochemical modifications by glycation of low density lipoproteins (LDL) in a population of diabetic patients. The results were compared with a control population and with the results obtained from an in vitro glycation assay. LDL were isolated byselective precipitation and the modifications were assessed by the increase in fructosamine level, the decrease of e-amino group of lysine, guanidinio of arginine and indol fluorescence of tryptophan residues. The select methods are available for clinical laboratories. The mean valúes for all the measured analytes were significantly different from those obtained for the control population (p< 0.0001). Taking into account the results of the in vitro kinetlcs assays, it can be assumed that the modifications of the arginine residues would be an early glycation marker while the changes in the lysine and triptophan residues may be considered middle term alterations. It is worth remarking the usefulness of evaluating, early and middle term ¡ndicators of glycaemic control simultaneously in the same molecule. These findings are relevant for the pathophysiology of atherogenesis.

Antioxidant effects of the VO(IV) hesperidin complex and its role in cancer chemoprevention.

Vanadium compounds are known for a variety of pharmacological properties. Many of them display antitumoral and osteogenic effects in several cell lines. Free radicals induce the development of tumoral processes. Natural polyphenols such as flavonoids have antioxidant properties since they scavenge different free radicals. For these reasons it is interesting to investigate the effects of a new complex generated between the vanadyl(IV) cation and the flavonoid hesperidin. The complex has been synthesized and characterized by physicochemical methods. Spectroscopic analysis revealed a 1:1 stoichiometry of ligand:VO and coordination by deprotonated cis-hydroxyl groups to the disaccharide moiety of the ligand. The complex improves the superoxide dismutase (SOD)-like activity of the ligand, but the scavenging of other radicals tested does not change upon complexation. When tested on two tumoral cell lines in culture (one of them derived from a rat osteosarcoma UMR106 and the other from human colon adenocarcinoma Caco-2), the complex enhanced the antiproliferative effects of the free ligand, and this effect correlated with the morphological alterations toward apoptosis. Also, on the osteoblastic cell line the complex stimulated cell proliferation and collagen type I production at low concentrations. At higher doses the complex behaved as a cytotoxic compound for the osteoblasts.

Glicación in vitro de lipoproteínas de baja densidad y aterogenicidad en cultivos celulares / In vitro glycation of low-density lipoproteins and atherogenicity in cell culture

La hiperglucemia sostenida incrementa la glicación de proteínas. En particular, las modificaciones en las lipoproteínas de baja densidad (LDL) aumentan su potencial aterogénico. En este trabajo se comparan las modificaciones producidas por la glicación in vitro de LDL aisladas por dos métodos: precipitación selectiva (PS) y ultracentrifugación (UC). Para ello, se determinó el incremento de fructosamina, el consumo de los grupos e-amino de lisina, guanidinio de arginina y la disminución de residuos de triptofano. Para todos los analitos, los resultados cinéticos indicaron diferencias significativas con relación al basal (p<0,05), coincidentes para ambos métodos en el tiempo de aparición y en el porcentaje de variación. La aterogenicidad de las LDL glicadas separadas por PS fue estudiada en cultivos de macrófagos RAW 264.7 evaluando la formación de células espumosas y cuantificando la incorporación de LDL por tinción de los depósitos lipídicos con Oil Red. Los resultados indican que la captación de LDL modificadas aumentó con el tiempo de incubación, siendo mayor la aterogenicidad de las LDL glicadas respecto de las nativas (p<0,001, 1 h a 37 °C). El procedimiento de PS seleccionado, accesible al laboratorio bioquímico clínico, permite evaluar las modificaciones por glicación que sufren las LDL en pacientes diabéticos.

Long-term hyperglycemia increases protein glycation. In particular, modifications in the low-density lipoproteins (LDL) increase their atherogenic potential. In this study, the modifications caused by in vitro glycation of LDL separated by two methods: selective precipitation (SP) and ultracentrifugation (UC) were compared. Increase fructosamine level, decrease of e-amino group of lysine, guanidinio of arginine and triptophan fluorescence were determined. Results showed significant differences vs. basal (p<0.05) for all the tested parameters, with coincidence for the two separation methods both in time and grade of modifications. The atherogenicity of glycated LDL separated by SP was studied in macrophages RAW 264.7 in culture, through the formation of foam cells and the quantification of the dye taken up by the cellular storage lipids. Results show that the uptake of modified LDL by macrophages increased with the time of incubation, being the atherogenicity of glycated LDL greater than native LDL (p<0.001, 1 h at 37 °C). The selected SP procedure, within the facilities of routine biochemical laboratory, enables the evaluation of the modifications caused by glycation in the LDL of diabetic patients.

Macrophage activation by a vanadyl-aspirin complex is dependent on L-type calcium channel and the generation of nitric oxide.

Bone homeostasis is the result of a tight balance between bone resorption and bone formation where macrophage activation is believed to contribute to bone resorption. We have previously shown that a vanadyl(IV)-aspirin complex (VOAspi) regulates cell proliferation and differentiation of osteoblasts in culture. In this study, we assessed VOAspi and VO effects and their possible mechanism of action on a mouse macrophage cell line RAW 264.7. Both vanadium compounds inhibited cell proliferation in a dose-dependent manner. Nifedipine completely reversed the VOAspi-induced macrophage cytotoxicity, while it could not block the effect of VO. VOAspi also stimulated nitric oxide (NO) production, the oxidation of dihydrorhodamine 123 (DHR-123) and enhanced the expression of both constitutive and inducible isoforms of nitric oxide syntases (NOS). All these effects were abolished by nifedipine. Altogether our finding give evidence that VOAspi-induced macrophage cytotoxicity is dependent on L-type calcium channel and the generation of NO though the induction of eNOS and iNOS. Contrary, the parent compound VO exerted a cytotoxic effect by mechanisms independent of a calcium entry and the NO/NOS activation.

Advanced glycation endproducts interefere with integrin-mediated osteoblastic attachment to a type-I collagen matrix.

The adhesion of osteoblasts to bone extracellular matrix, of which type-I collagen constitutes >85%, can modulate diverse aspects of their physiology such as growth, differentiation and mineralisation. In this study we examined the adhesion of UMR106 rat osteoblast-like cells either to a control (Col) or advanced-glycation-endproduct-modified (AGEs-Col) type I collagen matrix. We investigated the possible role of different integrin receptors in osteoblastic adhesion, by co-incubating these cells either with beta-peptide (conserved sequence 113-125 of the beta subunit of integrins) or with two other peptides, RGD (Arg-Gly-Asp) and DGEA (Asp-Gly-Glu-Ala), which are recognition sequences for the alpha-subunits of alpha(1,5)beta(1) and alpha(2)beta(1) integrins. Collagen glycation inhibited the adhesion of UMR106 osteoblasts to the matrix (40% reduction versus Col, P > 0.001). beta-Peptide showed a dose- and glycation-dependent inhibitory effect on adhesion, and at a concentration of 100 microM decreased the attachment of UMR106 cells to both matrices (42% to Col, P<0.001and 25% to AGEs-Col, P<0.01). The synthetic peptides RGD (1mM) and DGEA (5mM) inhibited the attachment of UMR106 cells to Col (30 and 20%, P > 0.01 and P< 0.001, respectively), but not to AGEs-Col. beta-Peptide induced an increase in UMR106 cell clumping and a decrease in cellular spreading, while DGEA increased spreading with cellular extensions in multiple directions. These results indicate that both alpha and beta integrin subunits participate in osteoblastic attachment to type-I collagen, probably through the alpha(1,5)beta(1) and alpha(2)beta(1) integrins. AGEs-modification of type-I collagen impairs the integrin-mediated adhesion of osteoblastic cells to the matrix, and could thus contribute to the pathogenesis of diabetic osteopenia.