The chemistry of peroxovanadium compounds relevant to insulin mimesis Alan ShaverJesse B. NgBarry I. Posner Part I: Chemistry Pages: 5 - 15
Vanadium chemistry and biochemistry of relevance for use of vanadium compounds as antidiabetic agents Debbie C. CransMohammed Mahroof-TahirAnastasios D. Keramidas Part I: Chemistry Pages: 17 - 24
Peroxo heteroligand vanadates(V): Synthesis, spectra-structure relationships, and stability toward decomposition Cirila DjordjevicNikola VuleticRamin Alimard Part I: Chemistry Pages: 25 - 29
Chemically and photochemically initiated DNA cleavage by an insulin-mimeticbisperoxovanadium complex Catharina HiortJerry GoodismanJames C. Dabrowiak Part I: Chemistry Pages: 31 - 36
Insulin-like actions of vanadate are mediated in an insulin-receptor-independent manner via non-receptor protein tyrosine kinases and protein phosphotyrosine phosphatases Yoram ShechterJingping LiAssia Shisheva Part II: Biochemical and Physiological Studies Pages: 39 - 47
Peroxovanadium compounds: Biolgoical actions and mechanism of insulin-mimesis A. Paul BevanPaul G. DrakeBarry I. Posner Part II: Biochemical and Physiological Studies Pages: 49 - 58
Unique and selective mitogenic effects of vanadate on SV40-transformed cells Hanlin WangRobert E. Scott Part II: Biochemical and Physiological Studies Pages: 59 - 67
Vanadium salts stimulate mitogen-activated protein (MAP) kinases and ribosomal S6 kinases Sanjay K. PandeyJean-Louis ChiassonAshok K. Srivastava Part II: Biochemical and Physiological Studies Pages: 69 - 78
Protective effect of vanadate on oxyradical-induced changes in isolated perfused heart Taku MatsubaraSorin Musat-MarcuNaranjan S. Dhalla Part II: Biochemical and Physiological Studies Pages: 79 - 85
In vivo effects of vanadate on hepatic glycogen metabolizing and lipogenic enzymes in insulin-dependent and insulin-resistant diabetic animals Ramji L. KhandelwalSubbiah Pugazhenthi Part II: Biochemical and Physiological Studies Pages: 87 - 94
The relationship between insulin and vanadium metabolism in insulin target tissues Frederick G. HamelWilliam C. Duckworth Part II: Biochemical and Physiological Studies Pages: 95 - 102
Modulation of insulin action by vanadate: evidence of a role for phosphotyrosine phosphatase activity to alter cellular signaling I. G. FantusG. DeragonS. Tang Part II: Biochemical and Physiological Studies Pages: 103 - 112
Reversal of defective G-proteins and adenylyl cyclase/cAMP signal transduction in diabetic rats by vanadyl sulphate therapy Madhu B. Anand-SrivastavaJohn H. McNeillXiao-Ping Yang Part II: Biochemical and Physiological Studies Pages: 113 - 119
Effects of vanadate on the expression of genes involved in fuel homeostasis in animal models of Type I and Type II diabetes S. M. Brichard Part II: Biochemical and Physiological Studies Pages: 121 - 124
Decrease in protein tyrosine phosphatase activities in vanadate-treated obese Zucker (fa/fa) rat liver Subbiah PugazhenthiFeridoon TanhaRamji L. Khandelwal Part II: Biochemical and Physiological Studies Pages: 125 - 129
Evidence for selective effects of vanadium on adipose cell metabolism involving actions on cAMP-dependent protein kinase Roger W. BrownseyGordon W. Dong Part II: Biochemical and Physiological Studies Pages: 131 - 137
The enhancement by pervanadate of tyrosine phosphorylation on prostatic proteins occurs through the inhibition of membrane-associated tyrosine phosphatases Martin BoissonneaultAlcide ChapdelaineSimone Chevalier Part II: Biochemical and Physiological Studies Pages: 139 - 144
Contractile effects of vanadate on aorta rings from virgin and pregnant rats Jean St-LouisBenoit SicotteAshok K. Srivastava Part II: Biochemical and Physiological Studies Pages: 145 - 150
In vivo modulation of N-myristoyltransferase activity by orthovanadate Martin J. KingSubbiah PugazhenthiRajendra K. Sharma Part II: Biochemical and Physiological Studies Pages: 151 - 155
Regulation and control of glucose overutilization in erythrocytes by vanadate Najma Zaheer BaquerAmit Kumar SaxenaPoonam Srivastava Part II: Biochemical and Physiological Studies Pages: 157 - 160
In vitro andin vivo antineoplastic effects of ortrovanadate Tony F. CruzAriela MorganWeixian Min Part II: Biochemical and Physiological Studies Pages: 161 - 166
Membrane—vanadium interaction: A toxicokinetic evaluation Raj K. Upreti Part II: Biochemical and Physiological Studies Pages: 167 - 171
Increased potency of vanadium using organic ligands John H. McNeillViolet G. YuenChris Orvig Part III: Potential Use in Therapy and Toxicological Studies Pages: 175 - 180
In vivo effects of peroxovanadium compounds in BB rats J. F. YaleC. VigeantB. I. Posner Part III: Potential Use in Therapy and Toxicological Studies Pages: 181 - 190
Long-term antidiabetic activity of vanadyl after treatment withdrawal: Restoration of insulin secretion? Gerard H. CrosMargaret C. CamJohn H. McNeill Part III: Potential Use in Therapy and Toxicological Studies Pages: 191 - 195
Long-term correction of STZ-diabetic rats after short-term i.p. VOSO4 treatment: Persistence of insulin secreting capacities assessed by isolated pancreas studies Patrick PoucheretRené GrossGérard Cros Part III: Potential Use in Therapy and Toxicological Studies Pages: 197 - 204
Antihypertensive effects of vanadium compounds in hyperinsulinemic, hypertensive rats Sanjay BhanotAspasia MichoulasJohn H. McNeill Part III: Potential Use in Therapy and Toxicological Studies Pages: 205 - 209
Vanadate induces normolipidemia and a reduction in the levels of hepatic lipogenic enzymes in obese Zucker rat Subbiah PugazhenthiAtta HussainRamji L. Khandelwal Part III: Potential Use in Therapy and Toxicological Studies Pages: 211 - 215
In vivo andin vitro studies of vanadate in human and rodent diabetes mellitus Allison B. GoldfineDonald C. SimonsonC. Ronald Kahn Part III: Potential Use in Therapy and Toxicological Studies Pages: 217 - 231
Toxicology of vanadium compounds in diabetic rats: The action of chelating agents on vanadium accumulation Jose L. DomingoMercedes GomezCarl L. Keen Part III: Potential Use in Therapy and Toxicological Studies Pages: 233 - 240