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Vanadium is an element that has an effect on improving glucose levels in animals with diabetes. However, its operation is strongly dependent on the chemical structure of compounds of this element. The influence of newly synthesized vanadium compounds on biochemical processes is also unknown. The paper presents the influence of eight new vanadium compounds on organ weights of animals (mice NZO) in whom diabetes was induced by a high-fat diet during 8 weeks. Tested vanadium complexes were administered by 5 weeks. After this time organs were collected and weighed. Tested complexes had a remarkable different effect on organ weights, despite having similar composition ([VO(L)(phen)] and the same co-ligand (1,10-phenanthroline) . This indicate on separate metabolic pathways of these compounds in the body of tested animals and role of the tridentate L Schiff base ligands. The compounds C2, C3 and C5 shoved biggest influence on organs weight and these results suggest influence on the metabolic pathways and therefore are interesting for further investigations.
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63--73
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Bibliogr. 28 poz., rys.
Twórcy
autor
- Department of Food Chemistry and Nutrition, Medical College, Jagiellonian University, 30-688 Kraków, Medyczna 9
autor
- Faculty of Chemistry, Jagiellonian University, 30-387 Kraków, Gronostajowa 2
autor
- Faculty of Chemistry, Jagiellonian University, 30-387 Kraków, Gronostajowa 2
autor
- Department of Food Chemistry and Nutrition, Medical College, Jagiellonian University, 30-688 Kraków, Medyczna 9
autor
- student from ERASMUS program from Mersin University (Turkey) during stage at Faculty of Pharmacy, Medical College, Jagiellonian University
autor
- student from ERASMUS program from Mersin University (Turkey) during stage at Faculty of Pharmacy, Medical College, Jagiellonian University
autor
- student from ERASMUS program from Mersin University (Turkey) during stage at Faculty of Pharmacy, Medical College, Jagiellonian University
autor
- student from ERASMUS program from Mersin University (Turkey) during stage at Faculty of Pharmacy, Medical College, Jagiellonian University
Bibliografia
- 1. Treviño S, Díaz A, Sánchez-Lara E, Sanchez-Gaytan BL, Perez-Aguilar JM, González-Vergara E. Vanadium in Biological Action: Chemical, Pharmacological Aspects, and Metabolic Implications in Diabetes Mellitus. Biol Trace Elem Res, 2018 doi: 10.1007/s12011-018-1540-6
- 2. Sakurai H. A new concept: the use of vanadium complexes in the treatment of diabetes mellitus. Chem Rec, 2002; 2:237¬–248.
- 3. Sakurai H, Katoh A, Kiss T, Jakusch T, Hattori M. Metallo-allixinate complexes with anti-diabetic and anti-metabolic syndrome activities. Metallomics, 2010; 2:670–682.
- 4. Roshchin IV. Toxicology of vanadium compounds, used in modern industry. Gig Sanit, 1967,32,26-32.
- 5. Oberg SG, Parker RD, Sharma RP. Distribution and elimination of an intratracheally administered vanadium compound in the rat. Toxicology, 1978; 11:315–323.
- 6. Heide M, Legrum W, Netter KJ, Fuhrmann GF. Vanadium inhibits oxidative drug demethylation in vivo in mice. Toxicology, 1983; 26:63–71.
- 7. Vouk V. Vanadium. In: Friberg, L. et al., ed. Handbook on the toxicology of metals. Amsterdam, Elsevier-North Holland Biomedical Press, 1979, 659–674.
- 8. Venugopal B, Luckey, T.D. Metal toxicity in mammals. 2. Chemical toxicity of metals and metalloids. New York, Plenum Press, 1978, 220–226.
- 9. Adam AMA, Naglah AM, Al-Omar MA, Refat MS. Synthesis of a new insulin-mimetic anti-diabetic drug containing vitamin A and vanadium(IV) salt: Chemico-biological characterizations. Int J Immunopathol Pharmacol, 2017: 30:272–281.
- 10. Domingo JL, Gómez M. Vanadium compounds for the treatment of human diabetes mellitus: A scientific curiosity? A review of thirty years of research. Food Chem Toxicol, 2016; 95:137–141.
- 11. Ahmed El-Shazly S, Ahmed MM, Ibrahim ZS, Refat MS. Synthesis, characterization, and efficacy evaluation of a new anti-diabetic vanadyl(II) thiamine hydrochloride complex in streptozotocin-induced diabetic rats. Int J Immunopathol Pharmacol, 2015; 28:227–239.
- 12. Krośniak M, Francik R, Kołodziejczyk K, Wojtanowska-Krośniak A, Tedeschi C, Petrone V, Gryboś R. Investigation of the influence of vanadium compounds treatment in NZO mice model-preliminary study. Acta Pol Pharm, 2014; 71:271–278.
- 13. Huang Y, Liu F, Zhang F, Liu P, Xu T, Ding W. Vanadium(IV)-chlorodipicolinate alleviates hepatic lipid accumulation by inducing autophagy via the LKB1/AMPK signaling pathway in vitro and in vivo. J Inorg Biochem, 2018; 183:66–76.
- 14. Zhang Y, Zhang Q, Feng C, Ren X, Li H, He K, Wang F, Zhou D, Lan Y Influence of vanadium on serum lipid and lipoprotein profiles: a population-based study amongvanadium exposed workers. Lipids Health Dis, 2014; 24,13:39.
- 15. Liu Y, Xu J, Guo Y, Xue Y, Wang J, Xue C. Ameliorative effect of vanadyl(IV)-ascorbate complex on high-fat high-sucrose diet-induced hyperglycemia, insulin resistance, and oxidative stress in mice. J Trace Elem Med Biol, 2015; 32:155–161.
- 16. Ni L, Zhao H, Tao L, Li X, Zhou Z, Sun Y, Chen C, Wei D, Liu Y, Diao G. Synthesis, in vitro cytotoxicity, and structure-activity relationships (SAR) of multidentate oxidovanadium(iv) complexes as anticancer agents. Dalton Trans, 2018; 47:10035–10045.
- 17. Crans DC, Yang L, Haase A, Yang X. Health Benefits of Vanadium and Its Potential as an Anticancer Agent. Met Ions Life Sci, 2018, 18.
- 18. Patra D, Paul S, Majumder I, Sepay N, Bera S, Kundu R, Drew MGB, Ghosh T. Exploring the effect of substituent in the hydrazone ligand of a family of μ-oxidodivanadium(v) hydrazone complexes on structure, DNA binding and anticancer activity. Dalton Trans, 2017; 46:16276–16293.
- 19. Haenlein GFW, Anke M. Mineral and trace element research in goats: A review Small Ruminant Res, 2011; 95:2–19.
- 20. Facchini DM, Yuen VG, Battell ML, McNeill JH, Grynpas MD. The effects of vanadium treatment on bone in diabetic and non-diabetic rats. Bone, 2006; 38:368–377.
- 21. Francik R, Krosniak M, Barlik M, Kudła A, Grybos R, Librowski T Impact of vanadium complexes treatment on the oxidative stress factors in Wistar rats Plasma. Bioinorg Chem Appl, 2011; 206316.
- 22. Krosniak M, Azay-Milhau J, Grybos R, Cros G, Gatacceca F, Brés J. Vanadium pharmacokinetics and bioavailability of two vanadium bipyridine complexes, with reference to vanadyl sulfate, after oral administration to streptozotocin-induced diabetic rats. Metal ions in biology and medicine Vol. 10 / Ed. Philippe Collery, Ivan Maymard, Theophile Theophanides, Lylia Khassanova, Thomas Collery. Paris : John Libbey Eurotext, 2008; 769–775.
- 23. Yuen VG, Orvig C, McNeill JH. Glucose-lowering effects of a new organic vanadium complex, bis(maltolato)oxovanadium(IV). Can J Physiol Pharmacol, 1993; 71:263–269.
- 24. Yuen VG, Orvig C, McNeill JH. Comparison of the glucose-lowering properties of vanadyl sulfate and bis(maltolato)oxovanadium(IV) following acute and chronic administration. Can J Physiol Pharmacol, 1995; 73:55–64.
- 25. McNeill JH, Yuen VG, Dai S, Orvig C. Increased potency of vanadium using organic ligands. Mol Cell Biochem, 1995; 153:175–180.
- 26. Thompson KH, Lichter J, LeBel C, Scaife MC, McNeill JH, Orvig C. Vanadium treatment of type 2 diabetes: a view to the future. J Inorg Biochem, 2009; 103:554–558.
- 27. Sheela A, Roopan SM, Vijayaraghavan R. New diketone based vanadium complexes as insulin mimetics. Eur J Med Chem, 2008; 43:2206–2210.
- 28. Phanse MA, Patil MJ, Abbulu K. Synthesis, characterization and evaluation of the suppression of insulin resistance in Type-IIdiabetes mellitus animals by treatment with metal complex. Saudi J Biol Sci, 2016; 23:420–425.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d136c9a5-a96f-490e-920d-49c782c937d4