Redox status and protein binding of plasma aminothiols during the transient hyperhomocysteinemia that follows homocysteine administration

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Redox status and protein binding of plasma aminothiols during the transient hyperhomocysteinemia that follows homocysteine administration

MA Mansoor, AB Guttormsen, T Fiskerstrand, H Refsum, PM Ueland and AM Svardal
Department of Pharmacology and Toxicology, University of Bergen, Haukeland Hospital, Norway.

We administered reduced L-homocysteine perorally (67 mumol/kg of body wt) to 12 healthy subjects and injected the same dose into one person, and determined the kinetics of the alterations in reduced, oxidized, and protein-bound concentrations of homocysteine, cysteine, and cysteinylglycine. After oral intake, reduced homocysteine increased rapidly (tmax < or = 15 min), reaching concentrations [3.97 (SD 2.99) mumol/L] 20-fold above fasting values, and then declined towards the normal concentration within 2 h. There was a similar increase in reduced cysteine and a moderate increase in reduced cysteinylglycine. During this response, we observed a positive correlation between the reduced/total ratio for homocysteine and cysteine. When homocysteine was injected, the increase in reduced homocysteine preceded the increase in reduced cysteine by about 3 min. After oral loading, oxidized homocysteine showed a transient increase (tmax = 30 min) that lagged behind the increase of reduced homocysteine. Oxidized cysteine and cysteinylglycine were stable or decreased slightly. Protein-bound homocysteine increased the least rapidly after homocysteine administration (tmax = 1-2 h), and returned to normal values slowly. Changes in protein-bound homocysteine essentially mirrored a concurrent decrease in protein-bound cysteine, suggesting displacement of bound cysteine. These data show that plasma homocysteine has a pronounced, direct effect on the redox status and protein binding of other plasma thiol components. Such effects should be recognized when studying the mechanisms behind the atherogenic effect of increased plasma homocysteine.

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				R. RAGONE Homocystine solubility and vascular disease FASEB J, March 1, 2002; 16(3): 401 - 404. [Abstract] [Full Text] [PDF]

				S. Sengupta, C. Wehbe, A. K. Majors, M. E. Ketterer, P. M. DiBello, and D. W. Jacobsen Relative Roles of Albumin and Ceruloplasmin in the Formation of Homocystine, Homocysteine-Cysteine-mixed Disulfide, and Cystine in Circulation J. Biol. Chem., December 7, 2001; 276(50): 46896 - 46904. [Abstract] [Full Text] [PDF]

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				G. L. Hortin, P. Sullivan, and G. Csako Relationships among Plasma Homocysteine, Cysteine, and Albumin Concentrations: Potential Utility of Assessing the Cysteine/Homocysteine Ratio Clin. Chem., June 1, 2001; 47(6): 1121 - 1124. [Full Text] [PDF]

				L. El-Khairy, P. M. Ueland, H. Refsum, I. M. Graham, and S. E. Vollset Plasma Total Cysteine as a Risk Factor for Vascular Disease : The European Concerted Action Project Circulation, May 29, 2001; 103(21): 2544 - 2549. [Abstract] [Full Text] [PDF]

				C G Hanratty, L T McGrath, D F McAuley, I S Young, and G D Johnston The effects of oral methionine and homocysteine on endothelial function Heart, March 1, 2001; 85(3): 326 - 330. [Abstract] [Full Text]

				J Thambyrajah and J.N Townend Homocysteine and atherothrombosis--mechanisms for injury Eur. Heart J., June 2, 2000; 21(12): 967 - 974. [PDF]

				M. T. M. RAIJMAKERS, P. L. M. ZUSTERZEEL, E. A. P. STEEGERS, M. P. C. HECTORS, P. N. M. DEMACKER, and W. H. M. PETERS Plasma Thiol Status in Preeclampsia Obstet. Gynecol., February 1, 2000; 95(2): 180 - 184. [Abstract] [Full Text] [PDF]

				L. El-Khairy, P. M Ueland, O. Nygard, H. Refsum, and S. E Vollset Lifestyle and cardiovascular disease risk factors as determinants of total cysteine in plasma: the Hordaland Homocysteine Study Am. J. Clinical Nutrition, December 1, 1999; 70(6): 1016 - 1024. [Abstract] [Full Text] [PDF]

				M. A. Mansoor, C. Bergmark, A. M. Svardal, P. E. Lonning, and P. M. Ueland Redox Status and Protein Binding of Plasma Homocysteine and Other Aminothiols in Patients With Early-Onset Peripheral Vascular Disease : Homocysteine and Peripheral Vascular Disease Arterioscler. Thromb. Vasc. Biol., February 1, 1995; 15(2): 232 - 240. [Abstract] [Full Text]

				S. Sengupta, H. Chen, T. Togawa, P. M. DiBello, A. K. Majors, B. Budy, M. E. Ketterer, and D. W. Jacobsen Albumin Thiolate Anion Is an Intermediate in the Formation of Albumin-S-S-Homocysteine J. Biol. Chem., August 3, 2001; 276(32): 30111 - 30117. [Abstract] [Full Text] [PDF]

				J. C. Chambers, P. M. Ueland, M. Wright, C. J. Dore, H. Refsum, and J. S. Kooner Investigation of Relationship Between Reduced, Oxidized, and Protein-Bound Homocysteine and Vascular Endothelial Function in Healthy Human Subjects Circ. Res., July 20, 2001; 89(2): 187 - 192. [Abstract] [Full Text] [PDF]