Selected zinc metabolism parameters in women with arterial hypotension (original) (raw)

References

  1. W. R. Harlan, J. R. Landis, L. R. Schmouder, N. G. Goldstein, and L. C. Harlan, Blood lead and blood pressure. Relationship in the adolescent and adult U.S. population, JAMA 253, 530–534 (1985).
    Article PubMed CAS Google Scholar
  2. G. Frithz and G. Ronquist, Increased red cell content of zinc in essential hypertension, Acta Med. Scand. 205, 647–652 (1979).
    Article PubMed CAS Google Scholar
  3. J. G. Henrotte, M. Santarromana, G. Franck, and R. Bourdon, Blood and tissue zinc levels in spontaneously hypertensive rats, J. Am. Coll. Nutr. 9, 340–344 (1990).
    PubMed CAS Google Scholar
  4. J. G. Henrotte, M. Santarromana, G. Franck, P. Guicheney, R. Boulu, and R. Bourdon, High cardiac zinc levels in spontaneously hypertensive rats, J. Hypertens 10,553–558(1992).
    Article PubMed CAS Google Scholar
  5. G. Vivoli, M. Bergomi, S. Rovesti, M. Pinotti, and E. Caselgrandi, Zinc, copper and zinc-or copper-dependent enzymes in human hypertension, Biol. Trace Element Res. 49, 97–106 (1995).
    Article CAS Google Scholar
  6. S. Tubek, The zinc content in lymphocytes and the activity of zinc ions efflux from lymphocytes in primary arterial hypertension, Biol. Trace Element Res. 107, 89–99 (2005).
    Article CAS Google Scholar
  7. S. Tubek, Activity of zinc ions efflux from lymphocytes, serum zinc concentration and zinc content in lymphocytes in persons with arterial hypotension and hypertension, Post. Med. Klin. Dośv. 3, 257–261 (1994) (in Polish).
    Google Scholar
  8. F. J. Ma, G. S. Zhao, and X. G. Li, Haemodynamic effects of zinc sulfate on anesthetized open-chest dogs, Chung Kuo Yao Li Hsueh Pao 10, 242–249 (1989) (abstract).
    PubMed CAS Google Scholar
  9. J. C. Smith, J. A. Zeller, E. D. Brown, and S. C. Ong, Elevated plasma zinc: a heritable anomaly, Science 193, 496–498 (1976).
    Article PubMed CAS Google Scholar
  10. M. Calero, A. Sampalo, J. E. Millan, J. Freire, A. Senra, and E. Zamora, Changes in the activity of plasma renin and aldosterone induced by a pattern of increasing administration of zinc sulphate in normotensive individuals, Med. Clin. (Barc.) 92, 729–735 (1989) (abstract).
    CAS Google Scholar
  11. A. Boyum, Isolation of mononuclear cells and granulocytes from blood. II. Isolation of mononuclear cells by centrifugation and of granulocytes by combining centrifugation and sedimentation of 1 g, Scand. J. Clin. Lab. Invest. 21(Suppl. 97), 77–85 (1968).
    CAS Google Scholar
  12. A. Noworolska, Antygeny onkop⦊odowe w komórkach szeregu mielocytarnego, Praca doktorska, AM Wroc⦊aw (1984) (in Polish).
  13. A. M. Heagerty, R. F. Bing, M. Miluer, H. Thuston, J. W. Shales, Leucocyte membrane sodium transport in normotensive populations; dissociation of abnormalities of sodium efflux from raised blood pressure, Lancet 2, 894–905 (1982).
    Article PubMed CAS Google Scholar
  14. Perkin-Elmer, Analytical Methods for Atomic Absorption Spectrometry, Perkin-Elmer, Norwalk, CT (1971).
    Google Scholar
  15. M. J. du-Preez and C. J. Lockett, Effect of clopamide, a thiazide diuretic, on copper and zinc levels in hypertensive patients, J. Am. Coll. Nutr. 10, 34–40 (1991).
    Article PubMed CAS Google Scholar
  16. R. Gryglewski and E. Kostka-Trabka, Leki betaadrenolityczne. PZWL, Warszawa, p. 32 (1983) (in Polish).
    Google Scholar
  17. S. Koizumi, M. Ikeda, K. Inoue, K. Nakazawa, and Inoue K., Enhancement by zinc of ATP-evoked dopamine release from rat pheochromocytoma PC12 cells, Brain Res. 673, 75–82 (1995).
    Article PubMed CAS Google Scholar
  18. G. Vezzoli, A. A. Elli, G. Tripod, G. Bianchi, and E. Carafoli, Calcium ATPase in erythrocytes of spontaneously hypertensive rats of the Milan strain, J. Hypertens. 3, 645 (1985).
    Article PubMed CAS Google Scholar
  19. M. J. Berridge, Regulation of ion channels by inositol triphosphate and diacyl-glycerol, J. Exp. Biol. 124, 323 (1986).
    PubMed CAS Google Scholar
  20. I. G. Maccara, Oncogenesis, ions and phospholipids, Am. J. Physiol. 248, C3 (1985).
    Google Scholar
  21. S. Devergnas, F. Chimienti, N. Naud, et al., Differential regulation of zinc efflux transporters ZnT-1, ZnT-5 and ZnT-7 gene expression by zinc levels: a real-time RT-PCR study, Biochem. Pharmacol. 68, 699–709 (2004).
    Article PubMed CAS Google Scholar
  22. M. Simpson and Z. Xu, Increased abundance of labile intracellular zinc during cell proliferation was due to increased retention of extracellular zinc in 3T3 cells, J. Nutr. Biochem. 17, 541–547 (2006).
    Article PubMed CAS Google Scholar
  23. S. Tubek, Effect of aldosterone receptor blockade by spironolactone on zinc efflux rate constant from lymphocytes of patients with arterial hypertension, Post. Med. Klin. Dośw. 3, 27–33 (1994) (in Polish).
    Google Scholar
  24. S. Tubek, The differences in chosen zinc metabolism parameters in obesity and normal weight patients with arterial hypertension after spironolactone administration, Biol. Trace Element Res. 114, 135–141 (2006).
    Article CAS Google Scholar
  25. A. L. Tomat, A. R. Weisstaub, A. Jauregui, et al., Moderate zinc deficiency influences arterial blood pressure and vascular nitric oxide pathway in growing rats, Pediatr. Res. 58, 672–676 (2005).
    Article PubMed CAS Google Scholar
  26. M. Gekke, N. Golenhofen, H. Oberleithner, and S. Silbernagl, Rapid activation of Na+/H+ exchange by aldosterone in renal epthelial cell requires Ca2+ and stimulation of a plasma membrane proton conductance, Proc. Natl. Acad. Sci. USA 93, 10,500–10,504 (1996).
    Google Scholar
  27. M. Gekle, S. Silbernagl, and S. Wunsch, Non-genomic action of the mineralocorticoid aldosterone on cytosolic sodium in cultured kidney cells, J. Physiol. 511, 255–263 (1998).
    Article PubMed CAS Google Scholar
  28. Z. A. Musaeva, V. Iu. Oknin, B. A. Khapaev, A. V. Fedotova, and A. M. Vein, Features of daily rhythm of arterial pressure in patients with primary arterial hypotension and neurogenic syncope conditions, Ter. Arkh. 74, 85–88 (2002) (in Russian).
    PubMed CAS Google Scholar
  29. Z. A. Musaeva, B. A. Khapaev, A. V. Fedotova, and V. Iu. Oknin, Indices of 24-hour monitoring of arterial blood pressure in patients with neurogenic syncope and patients with chronic constitution-dependent hypotension, Zh. Nevrol. Psikhiatr. Im S.S. Korsakova 99, 13–16 (1999) (in Russian).
    PubMed CAS Google Scholar
  30. B. L. Vallee and K. H. Falchuk, The biochemical basis of zinc physiology, Physiol. Rev. 73, 79–91 (1993).
    PubMed CAS Google Scholar
  31. W. J. Bettger and B. L. O'Dell, A critical physiological role of zinc in the structure and function of biomembranes Life Sci. 28, 1425–1438 (1981).
    Article PubMed CAS Google Scholar
  32. P. Csermely, P. Sandor, L. Radics, and J. Somobyi, Zinc forms complexes with higher kinetical stability than calcium, 5-F-BAPTA as a good example, Biochem. Biophys. Res. Commun. 165, 838–845 (1989).
    Article PubMed CAS Google Scholar

Download references