Vanadium inhibits Type 2 diabetes mellitus-induced aortic ultrastructural alterations associated with the Inhibition of dyslipidemia and biomarkers of inflammation in rats / El vanadio inhibe las alteraciones ultraestructurales aórticas inducidas por la diabetes mellitus Tipo 2 asociadas con la inhibición de la dislipidemia y los biomarcadores de inflamación en ratas

The potential inhibitory effect of the insulin mimicking agent, vanadium on type 2 diabetes mellitus (T2DM)induced alterations to the aorta ultrastructure associated with the suppression of dyslipedima and biomarkers of inflammation has not been investigated before. Therefore, we tested whether vanadium can protect against aortic injury induced secondary to T2DM possibly via the inhibition of blood lipid and inflammatory biomarkers. T2DM was induced in rats by a high-fat diet and streptozotocin (50 mg/ kg), and the treatment group started vanadium treatment five days post diabetic induction and continued until being sacrificed at week 10. Using light and electron microscopy examinations, we observed in the model group substantial damage to the aorta tissue such as damaged endothelium, degenerative cellular changes with vacuolated cytoplasm and thickened internal elastic lamina that were substantially ameliorated by vanadium. Administration of vanadium to diabetic rats also significantly (p<0.05) reduced blood levels of glucose, hyperlipidemia and biomarkers of inflammation (TNF-a, IL-6). We conclude that vanadium protects against T2DM-induced aortic ultrastructural damage in rats, which is associated with the inhibition of blood sugar and lipid and inflammatory biomarkers.

El potencial efecto inhibidor del agente imitador de la insulina, el vanadio en las alteraciones inducidas por la diabetes mellitus tipo 2 (DM2) en la ultraestructura de la aorta, asociada con la supresión de dislipidemia y los biomarcadores de inflamación no se ha investigado anteriormente. El objetivo fue estudiar las propiedades del vanadio para proteger contra la lesión aórtica inducida a la DM2, a través de la inhibición de los lípidos sanguíneos y los biomarcadores inflamatorios. La DM2 fue inducida en ratas con una dieta alta en grasas y estreptozotocina (50 mg / kg), y el grupo de tratamiento fue sometido a un régimen continuo con vanadio, cinco días después de la inducción diabética hasta ser sacrificadas en la semana 10. Se utilizaron exámenes de luz y microscopía electrónica en el grupo modelo y se observó un daño sustancial al tejido de la aorta, como también en el endotelio; los cambios celulares degenerativos con citoplasma vacuolado y lámina elástica interna engrosada mejoró sustancialmente con vanadio. La administración de vanadio a ratas diabéticas también redujo significativamente (p <0,05) los niveles sanguíneos de la glucosa, hiperlipidemia y los biomarcadores de inflamación (TNFa, IL-6). En conclusión, el vanadio protege contra el daño ultraestructural aórtico inducido por T2DM en ratas, que es asociado con la inhibición del azúcar en la sangre y los biomarcadores de lípidos y de inflamatorios.

Effect of vanadium, radish and dill on some nutritional and biochemical parameters in diabetic rats

The present study was designed to investigate the effect of the vanadium pentaoxide and vegetables rich source in nadium as dill and radish on the nutritional status, some biochemical parameters and the histology of pancreas on streptozotocin induced diabetic rats. Forty-eight adult male rats, weighing 115 +/- 8 g rats were classified into control group and seven streptozotocin induced diabetic rat groups [untreated, treated with high, low vanadium, radish, dill, and low vanadium with dill or with radish groups]. The results revealed that, the untreated diabetic rat groups had a significant lower values of the final body weight, weight gain and its percentage, food intake, FER, insulin, triglyceride, AST/ALT ratio, total protein, globulin and HDL-c but significant increase in glucose, cholesterol, TG, LDL-c, urea and creatinine when compared with control group. The consumption of low vanadium with dill or radish to diabetic rat groups showed non significant difference in final body weight, weight gain and its percentage. food intake- FER, hemoglobin, PCV, cholesterol, TG, LDL-c, HDL-c, total protein, globulin, urea and creatinine, AST and ALT when compared with control group. Compared with untreated diabetic rats group, there were a significant increase in final body weight, weight gain, food intake, food efficiency ratio and globulin but significant decreased in cholesterol, LDL-c, urea and creatinine in all treated rats groups. Triglyceride increased in dill and radish groups. HDL-c decreased in dill group. High vanadium and low vanadium with dill or radish treated groups showed significant decreased in ALT and significant increased in AST/ALT ratio and total protein. There was non-significant difference in hemoglobin, packed cell volume, glucose, insulin and albumin among all treated rats group.lt is concluded that vanadium and its natural sources as dill or radish have hypoglycemic effect and beneficial for diabetic cases

El vanadio, un elemento ambiguo / Vanadium, an ambiguous element

El vanadio (V) se encuentra en 68 minerales diferentes, en los combustibles derivados del petróleo y el carbón y se utiliza principalmente en la industria metalúrgica. Para los humanos, la principal fuente de exposición al V es la contaminación atmosférica producida por la quema de combustibles. En los animales se ha demostrado que algunos compuestos del V son hepatotóxicos, nefrotóxicos, neurotóxicos, carcinogénicos y que afectan a la reproducción y al desarrollo de los fetos y lactantes. Sin embargo, los efectos toxicológicos finales, motivo de preocupación para las personas son la genotoxicidad y la irritación de las vías respiratorias. Por otra parte, los compuestos del V han sido objeto de investigación como agentes que disminuyen los niveles séricos de glucosa, como antihipertensivos, como anorexígenos y como anticancerígenos. El V, de efectos biológicos notables, debe ser más estudiado con el fin de conocer los mecanismos de su acción biológica y para poder determinar tanto los riesgos a su exposición como sus posibles usos farmacológicos en beneficio humano.

Vanadium (V) occurs in about 68 minerals and in fossil fuels and it is mainly used in steel industry. Air pollution produced by oil and coal burning is the main exposure source for human beings. Reproductive and developmental toxicity, hepatotoxicity, nephrotoxicity, neurotoxicity and carcinogenicity have been found in some vanadium compound exposed animals. Nevertheless, the toxicological end-points of concern for humans are genotoxicity and respiratory tract irritation. On the other hand, V compounds have been studied as anti-diabetic, as antihypertensive, as anorexigen and as anti-carcinogenic. V, which has remarkable biological effects should be studied in order to elucidate its biological mechanisms and to determine either its expositional risks or its pharmacological properties for human benefit.

Amelioration of altered antioxidant status and membrane linked functions by vanadium and Trigonella in alloxan diabetic rat brains.

Trigonella foenum graecum seed powder (TSP) and sodium orthovanadate (SOV) have been reported to have antidiabetic effects. However, SOV exerts hypoglycemic effects at relatively high doses with several toxic effects. We used low doses of vanadate in combination with TSP and evaluated their antidiabetic effects on anti-oxidant enzymes and membrane-linked functions in diabetic rat brains. In rats, diabetes was induced by alloxan monohydrate (15 mg/100 g body wt.) and they were treated with 2 IU insulin, 0.6 mg/ml SOV, 5% TSP and a combination of 0.2 mg/ml SOV with 5% TSP for 21 days. Blood glucose levels, activity of superoxide dismutase (SOD), catalase (CAT), glutathione peroxidase (GPx), Na+/K+ ATPase, membrane lipid peroxidation and fluidity were determined in different fractions of whole brain after 21 days of treatment. Diabetic rats showed high blood glucose (P less than 0.001), decreased activities of SOD, catalase and Na+/K+ ATPase (P less than 0.01, P less than 0.001 and P less than 0.01), increased levels of GPx and MDA (P less than 0.01 and P less than 0.001) and decreased membrane fluidity (P less than 0.01). Treatment with different antidiabetic compounds restored the above-altered parameters. Combined dose of Trigonella and vanadate was found to be the most effective treatment in normalizing these alterations. Lower doses of vanadate could be used in combination with TSP to effectively counter diabetic alterations without any toxic effects.

Ionic valency of vanadium or chromium and the enzymatic activity in Streptomyces caeruleus

The results of this investigation establish the fact that addition of 10-6 - 10-4 M chromium to the culture media, mostly stimulated the test intra-and extra-cellular enzymes of Streptomyces caeruleus. In most cases the hexavalent ion was more effective than the trivalent. Furthermore, Cr6+, was more inhibitory to dry weight gain than Cr3+. In the meantime, V2+ was mostly suppressive [except on Ac-P and GPT], whereas, V5+ was mostly stimulatory [endopeptidase being the exception]. The dry weight gain was slightly reduced by the former vanadium form and severely suppressed by the latter form. Accordingly, it seemed that the toxicity of these transitional elements was more apparent when supplemented in their high valency state accompanied by increased enzyme activity. The latter could be attenuated by lowering the valency of the cationic form of the ions

Effects of Vanadate on Cellular Ca2+ Movements in Guinea Pig Papillary Muscles

The effects of vanadate on cellular Ca2+ movements across the sarcolemma of cardiac muscle cells were investigated by measuring the intracellular and extracellular Ca2+ activities of guinea pig papillary muscle with Ca2+-selective electrodes. During the rest period following a steady-state of 2 contractions per second the extracellular Ca2+ concentration was increased over the basal level within a minute. During the rest period Ca2+ was transported across the sarcolemma into the extracellular space. Vanadate decreased the change in extracellular Ca2+ concentration during the rest period implying that the Ca2+ efflux across the sarcolemma was decreased by vanadate. Vanadate increased intracellular Ca2+ activities significantly (from 1.9 X 10(-7) M to 10(-6)M) resulting in an increase in resting tension. These results suggest that vanadate decreases Ca2+ efflux from the cells into the extracellular space by blocking Ca2+ transport across the sarcolemma, possibly blocking the Na+-Ca2+ exchange transport.

The effects of sodium orthovanadate, noradrenaline and angiotensin II on isolated perfused rat kidney glomerular-tuft diameter.

The effects of sodium orthovanadate, angiotensin II (A II) and noradrenaline (NA) were studied on the isolated perfused rat kidney (IPRK) and on the diameter of the glomerular capsule and tuft. Vanadate (4.5 microM), A II (20 nM) and NA (17.3 microM) increased the total resistance of the IPRK. There was a simultaneous increase in glomerular filtration rate with vanadate and A II, but a decrease with NA. The glomerular tuft/capsule diameter ratio decreased significantly from 0.85 (control) to 0.81, 0.81 and 0.78 for vanadate, A II, and NE treated kidneys, respectively. The decrease in ratio was associated with an increase in diameter of the glomerular capsule for A II and NE. This finding accompanied with simultaneous rise in TPR and GFR in the case of vanadate and A II, indicates that the post capillary efferent arteriolar vasoconstriction is a component in the mechanism of action with A II and vanadate. Evidence for such a component is less clear for NA because GFR decreases and TPR increases. Vanadate may affect both with a predominance on the efferent arteriole. The data indicate that histological measurements of glomerular size lead to a better understanding of the mechanisms of vasoactive drugs acting on the kidney.