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Herz Supplement Cardiovascular Diseases 5. Chung SJ, Fung HL. Identification of the sub� cellular site for nitroglycerin metabolism to nitric oxide in bovine coronary smooth mus� cle cells. J Pharmacol Exp Ther 1990;253(2): 614–619 6. Dupuis J, Lalonde G, Lemieux R, Rouleau JL. Tolerance to intravenous nitroglycerin in patients with congestive heart failure: role of increased intravascular volume, neurohu� moral activation and lack of prevention with N�acetyl�cysteine. J Am Coll Cardiol 1990;16(4):923–931 7. Packer M, Lee WH, Kessler PD, Gottlieb SS, Me� dina N, Yushak M. Prevention and reversal of nitrate tolerance in patients with congestive heart failure. N Engl J Med 1987;317(13): 799–804 8. Parker JD, Farrell B, Fenton T, Cohanim M, Parker JO. Counter�regulatory responses to continuous and intermittent therapy with nitroglycerin. Circulation 1991;84(6): 2336–2345 9. Molina CR, Andresen JW, Rapoport RM, Wald� man S, Murad F. Effect of in vivo nitroglycerin therapy on endothelium�dependent and in� dependent vascular relaxation and cyclic GMP accumulation in rat aorta. Journal of Cardiovascular Pharmacology 1987;10(4): 371–378 10. Axelsson KL, Andersson RG. Tolerance towards nitroglycerin, induced in vivo, is correlated to a reduced cGMP response and an alteration in cGMP turnover. Eur J Pharmacol 1983;88(1): 71–79 11. Mulsch A, Busse R, Bassenge E. Desensitiza� tion of guanylate cyclase in nitrate toler� ance does not impair endothelium�de� pendent responses. Eur J Pharmacol 1988; 158(3):191–198 12. Munzel T, Daiber A, Mulsch A. Explaining the phenomenon of nitrate tolerance. Circ Res 2005;97(7):618–628 13. Mollnau H, Wenzel P, Oelze M, Treiber N, Pautz A, Schulz E, Schuhmacher S, Reifen� berg K, Stalleicken D, Scharffetter�Kochanek K, Kleinert K, Munzel T, Daiber A, Mitochon� drial oxidative stress and nitrate toler� ance�comparison of nitroglycerin and pen� taerithrityl tetranitrate in Mn�SOD+/– mice. BMC Cardiovasc Disord 2006;6:44 14. Wenzel P, Oelze M, Coldewey M, Hortmann M, Seeling A, Hink U, Mollnau H, Stalleicken D, Weiner H, Lehmann J, Li H, Forstermann U, Munzel T, Daiber A, Heme oxygenase�1: a novel key player in the development of tol� erance in response to organic nitrates. Arte� rioscler Thromb Vasc Biol 2007;27(8): 1729–1735 15. Fink B, Bassenge E. Unexpected, tolerance� devoid vasomotor and platelet actions of pentaerythrityl tetranitrate. J Cardiovasc Pharmacol 1997;30(6):831–836 16. Schwemmer M, Bassenge E. New approach� es to overcome tolerance to nitrates. Cardio� vasc Drugs Ther 2003;17(2):159–173 17. Dikalov S, Fink B, Skatchkov M, Stalleicken D, Bassenge E. Formation of reactive oxygen species by pentaerithrityltetranitrate and glyceryl trinitrate in vitro and development of nitrate tolerance. J Pharmacol Exp Ther 1998;286(2):938–944 18. Oberle S, Abate A, Grosser N, Hemmerle A, Vreman HJ, Dennery PA, Schneider HT, Stal� leicken D, Schroder H. Endothelial protection by pentaerithrityl trinitrate: bilirubin and carbon monoxide as possible mediators. Exp Biol Med (Maywood) 2003;228(5): 529–534 19. Oberle S, Schwartz P, Abate A, Schroder H. The antioxidant defense protein ferritin is a novel and specific target for pentaerithrityl tetranitrate in endothelial cells. Biochem Biophys Res Commun 1999;261(1):28–34 20. Bassenge E, Schneider HT, Daiber A. Oxida� tive stress and cardiovascular diseases. Dtsch Med Wochenschr 2005;130(50): 2904–2909 21. Jurt U, Gori T, Ravandi A, Babaei S, Zeman P, Parker JD. Differential effects of pentaeryth� ritol tetranitrate and nitroglycerin on the development of tolerance and evidence of lipid peroxidation: a human in vivo study. J Am Coll Cardiol 2001;38(3):854–859 22. Gori T, Al�Hesayen A, Jolliffe C, Parker JD. Comparison of the effects of pentaerythri� tol tetranitrate and nitroglycerin on endo� thelium� dependent vasorelaxation in male volunteers. Am J Cardiol 2003;91(11): 1392–1394 23. Thomas GR, DiFabio JM, Tommaso T, Parker JD. Once Daily Therapy with Isosor� bide�5�Mononitrate Causes Endothelial Dysfunction in Humans: Evidence of a Free Radical Mediated Mechanism. J Am Coll Car� diol 2007; in press 24. Sekiya M, Sato M, Funada J, Ohtani T, Akutsu H, Watanabe K. Effects of the long�term ad� ministration of nicorandil on vascular endo� thelial function and the progression of ar� teriosclerosis. J Cardiovasc Pharmacol 2005; 46(1):63–67 25. Thum T, Fraccarollo D, Thum S, Schultheiss M, Daiber A, Wenzel P, Munzel T, Ertl G, Bau� ersachs J. Differential Effects of Organic Ni� trates on Endothelial Progenitor Cells Are Determined by Oxidative Stress. Arterioscler Thromb Vasc Biol 2007;27:748–754 26. DiFabio JM, Thomas GR, Zucco L, Kuliszewski MA, Bennett BM, Kutryk MJ, Parker JD. Nitro� glycerin attenuates human endothelial pro� genitor cell differentiation, function, and survival. J Pharmacol Exp Ther 2006;318(1): 117–123 26a. S. Schuhmacher, P. Wenzel, E. Schulz, M. Oelze, C. Mang, J. Kamuf, T. Gori, T. Jansen, M. Knorr, S. Karbach, M. Hortmann, F. Mäthner, A. Bhat� nagar, U. Förstermann, H. Li, T. Münzel, A. Daiber. Pentaerithrityl tetranitrate improves angiotensin II induced vascular dysfunction via induction of heme oxygenase�1. Hypertension 2010; DOI: 10.1161/Hyperten� sionAHA.109. 149542 26b. B. Schnorbus, R. Schiewe, M. A. Ostad, C. Medler, D. Wachtlin, P. Wenzel, A. Daiber, T. Münzel, A. Warnholtz. Effects of pentaeryth� ritol tetranitrate on endothelial function in coronary artery disease: Results of the PEN� TA study. Clin. Res. Cardiol. 2010; DOI 10.1007/s00392�009�0096�z 27. Pautz A, Rauschkolb P, Schmidt N, Art J, Oelze M, Wenzel P, Forstermann U, Daiber A, Klei� nert H. Effects of nitroglycerin or pentae� rithrityl tetranitrate treatment on the gene expression in rat hearts: evidence for car� diotoxic and cardioprotective effects. Physi� ol Genomics 2009;38(2):176–185 28. Oppermann M, Balz V, Adams V, Dao VT, Bas M, Suvorava T, Kojda G. Pharmacological in� duction of vascular extracellular superoxide dismutase expression in vivo. J Cell Mol Med 2009;13(7):1271–1278 29. Dovinova I, Cacanyiova S, Faberova V, Kristek F. The effect of an NO donor, pentaerythrityl tetranitrate, on biochemical, functional, and morphological attributes of cardiovascular system of spontaneously hypertensive rats. Gen Physiol Biophys 2009;28(1):86–93 30. Wenzel P, Schulz E, Gori T, Ostad MA, Math� ner F, Schildknecht S, Gobel S, Oelze M, Stal� leicken D, Warnholtz A, Munzel T, DaiberA. Monitoring white blood cell mitochondrial aldehyde dehydrogenase activity: implica� tions for nitrate therapy in humans. J Phar� macol Exp Ther 2009;330(1):63–71 31. Koenig A, Lange K, Konter J, Daiber A, Stal� leicken D, Glusa E, Lehmann J. Potency and in vitro tolerance of organic nitrates: par� tially denitrated metabolites contribute to the tolerance�devoid activity of pentaery� thrityl tetranitrate. J Cardiovasc Pharmacol 2007; 50(1):68–74 32. Daiber A, Oelze M, Coldewey M, Bachschmid M, Wenzel P, Sydow K, Wendt M, Kleschyov AL, Stalleicken D, Ullrich V, Mulsch A, Munzel T. Oxidative stress and mitochondrial alde� hyde dehydrogenase activity: a comparison of pentaerythritol tetranitrate with other organic nitrates. Mol Pharmacol 2004;66(6): 1372–1382 33. Nakamura Y, Moss AJ, Brown MW, Kinoshita M, Kawai C. Long�term nitrate use may be deleterious in ischemic heart disease: a study using the databases from two large�scale postinfarction studies. Multi� center Myocardial Ischemia Research Group. Am Heart J 1999;138(3 Pt 1):577–585 34. Munzel T, Sayegh H, Freeman BA, Tarpey MM, Harrison DG. Evidence for enhanced vascular superoxide anion production in nitrate tolerance. A novel mechanism un� derlying tolerance and cross�tolerance. J Clin Invest 1995;95(1):187–194 35. Chen Z, Zhang J, Stamler JS. Identification of the enzymatic mechanism of nitroglycerin bioactivation. Proc Natl Acad Sci U S A 2002; 99(12):8306–8311 36. Gori T, Daiber A. Non�hemodynamic effects of organic nitrates and the distinctive char� acteristics of pentaerithrityl tetranitrate. Am J Cardiovasc Drugs 2009;9(1):7–15 37. Daiber A, Wenzel P, Oelze M, Schuhmacher S, Jansen T, Munzel T. Mitochondrial alde� hyde dehydrogenase (ALDH�2) – maker of and marker for nitrate tolerance in response to nitroglycerin treatment. Chem Biol Inter� act 2009;178(1–3):40–47 38. Daiber A, Oelze M, Wenzel P, Wickramanay� ake JM, Schuhmacher S, Jansen T, Lackner KJ, Torzewski M, Munzel T. Nitrate tolerance as a model of vascular dysfunction: roles for mitochondrial aldehyde dehydrogenase and mitochondrial oxidative stress. Pharmacol Rep 2009;61(1):33–48 39. Kollau A, Beretta M, Russwurm M, Koesling D, Keung WM, Schmidt K, Mayer B. Mito� 34 Herz 35 · 2010 · Supplement II © Urban & Vogel
chondrial nitrite reduction coupled to solu� ble guanylate cyclase activation: lack of evi� dence for a role in the bioactivation of nitro� glycerin. Nitric Oxide 2009;20(1):53–60 40. Schuhmacher S, Schulz E, Oelze M, Konig A, Roegler C, Lange K, Sydow L, Kawamoto T, Wenzel P, Munzel T, Lehmann J, Daiber A. A new class of organic nitrates: investigations on bioactivation, tolerance and cross toler� ance phenomena. Br J Pharmacol 2009; 158(2):510–520 41. Zhang XJ, Chang L, Zhang YM, Deng S, Li YJ, Peng J. Comparing the role of glutathione�S �transferase and mitochondrial aldehyde dehydrogenase in nitroglycerin biotransfor� mation and the correlation with calcitonin gene related peptide. Eur J Pharmacol 2009; 617(1–3):97–101 42. Wenzel P, Hink U, Oelze M, Schuppan S, Schaeuble K, Schildknecht S, Ho KK, Weiner H, Bachschmid M, Munzel T, Daiber A: Role of reduced lipoic acid in the redox regula� tion of mitochondrial aldehyde dehydroge� nase (ALDH�2) activity. Implications for mitochondrial oxidative stress and nitrate tolerance. J Biol Chem 2007;282(1): 792–799 43. Beretta M, Gruber K, Kollau A, Russwurm M, Koesling D, Goessler W, Keung WM, Schmidt K, Mayer B. Bioactivation of nitroglycerin by purified mitochondrial and cytosolic alde� hyde dehydrogenases. J Biol Chem 2008; 283(26):17873–17880 44. Beretta M, Sottler A, Schmidt K, Mayer B, Gorren AC. Partially irreversible inactivation of mitochondrial aldehyde dehydrogenase by nitroglycerin. J Biol Chem 2008;283(45): 30735–30744 45. Wenzl MV, Beretta M, Gorren AC, Zeller A, Baral PK, Gruber K, Russwurm M, Koesling D, Schmidt K, Mayer B. Role of the general base Herz 35 · 2010 · Supplement II © Urban & Vogel Glu�268 in nitroglycerin bioactivation and superoxide formation by aldehyde dehydro� genase�2. J Biol Chem 2009;284(30): 19878–19886 46. Larson HN, Zhou J, Chen Z, Stamler JS, Wei� ner H, Hurley TD. Structural and functional consequences of coenzyme binding to the inactive asian variant of mitochondrial al� dehyde dehydrogenase: roles of residues 475 and 487. J Biol Chem 2007;282(17): 12940–12950 47. Li Y, Zhang D, Jin W, Shao C, Yan P, Xu C, Sheng H, Liu Y, Yu J, Xie Y, Zhao Y, Lu D, Nebert DW, Harrison DC, Huang W, Jin L. Mitochondrial aldehyde dehydrogenase�2 (ALDH�2) Glu� 504Lys polymorphism contributes to the va� riation in efficacy of sublingual nitroglycerin. J Clin Invest 2006;116(2):506–511 48. Mackenzie IS, Maki�Petaja KM, McEniery CM, Bao YP, Wallace SM, Cheriyan J, Monteith S, Brown MJ, Wilkinson IB. Aldehyde dehydro� genase 2 plays a role in the bioactivation of nitroglycerin in humans. Arterioscler Thromb Vasc Biol 2005;25(9):1891–1895 49. Beretta M, Gorren AC, Wenzl MV, Weis R, Rus� swurm M, Koesling D, Schmidt K, Mayer B. Characterization of the East Asian variant of aldehyde dehydrogenase�2: bioactivation of nitroglycerin and effects of ALDA�1. J Biol Chem 2009 50. Chen CH, Budas GR, Churchill EN, Disatnik MH, Hurley TD, Mochly�Rosen D. Activation of aldehyde dehydrogenase�2 reduces ischemic damage to the heart. Science 2008;321(5895) 1493–1495 51. Szocs K, Lassegue B, Wenzel P, Wendt M, Daiber A, Oelze M, Meinertz T, Munzel T, Bal� dus S. Increased superoxide production in nitrate tolerance is associated with NAD(P)H oxidase and aldehyde dehydrogenase 2 downregulation. J Mol Cell Cardiol 2007;42(6):1111–1118 Organische Nitrate 52. Wenzel P, Muller J, Zurmeyer S, Schuhmacher S, Schulz E, Oelze M, Pautz A, Kawamoto T, Wojnowski L, Kleinert H, Munzel T, Daiber A. ALDH�2 deficiency increases cardiovascular oxidative stress – evidence for indirect anti� oxidative properties. Biochem Biophys Res Commun 2008;367(1):137–143 53. Wenzel P, Schuhmacher S, Kienhofer J, Muller J, Hortmann M, Oelze M, Schulz E, Treiber N, Kawamoto T, Scharffetter�Kochanek K, Mun� zel T, Burkle A, Bachschmid MM, Daiber A. Manganese superoxide dismutase and alde� hyde dehydrogenase deficiency increase mi� tochondrial oxidative stress and aggravate age�dependent vascular dysfunction. Cardi� ovasc Res 2008;80(2):280–289 54. Gori T, Daiber A, Di Stolfo G, Sicuro S, Dragoni S, Lisi M, Munzel T, Forconi S, Parker JD. Ni� troglycerine causes mitochondrial reactive oxygen species production: in vitro mechani� stic insights. Can J Cardiol 2007;23(12): 990–992 Für die Verfasser: Prof. Dr. Andreas Daiber Universitätsmedizin der Johannes Gutenberg�Universität Mainz II. Medizinische Klinik – Labor für Moleku� lare Kardiologie Obere Zahlbacher Str. 63 55101 Mainz, Germany Tel.: +49 (0)6131 17 9722 Fax: +49 (0)6131 17 9723 E�Mail: daiber@uni�mainz.de 35
Seite 1 und 2: Herz Supplement Cardiovascular Dise
Seite 3 und 4: Vorwort PETN- und PETN-Verwandtes I
Seite 5 und 6: in A gehemmt wurden, dann fand kein
Seite 7 und 8: Entwicklung einer LC-MS-Methode zur
Seite 9 und 10: Bildung von FormiatAddukten zu ge
Seite 11 und 12: Summary Pentaerythritol tetranitrat
Seite 13 und 14: von Cholesterolsynthesehemmern (Sta
Seite 15 und 16: Aggregation [%] 120 100 80 60 40 20
Seite 17 und 18: Der durch Fluoreszenzmessungen erka
Seite 19 und 20: eigene Klasse von Nitrovasodilatato
Seite 21 und 22: tenverzweigung führte zu abgeschw
Seite 23 und 24: nische Nitrate wirken, weil aus ihr
Seite 25 und 26: mitierung der organischen Nitrate d
Seite 27 und 28: A 5,5 p = 0,427 B C Durchmesser der
Seite 29 und 30: fokussiert. Wir konnten in älteren
Seite 31 und 32: Nach Daiber et al. In Vorbereitung
Seite 33: L-012-Chemilumineszenz [min] 1,2 ×
Seite 37 und 38: iosklerose verlangsamt werden könn
Seite 39 und 40: L-NAME Puffer Nicht bestimmte Einhe
Seite 41 und 42: Nach Schuhmacher et al. Hypertensio
Seite 43 und 44: oxidativen Spektrums nicht nur auss
Seite 45 und 46: Pulmonale Hypertonie - ein weiteres
Seite 47 und 48: 2. Pulmonale Hypertonie - klinische
Seite 49 und 50: Literatur 1. Schwemmer M, Bassenge
Seite 51 und 52: Klinisch von Bedeutung sind vor all
Seite 53 und 54: a 123-Rhodaminfluoreszenz ∆% zu u
Seite 55 und 56: we speculate that GTN affects ROS f
Seite 57 und 58: der Zellen exportiert werden. Auch
Seite 59 und 60: A B NRF2 HuR-abhängige Stabilisier
Seite 61 und 62: a Relative Luciferaseaktivität [%
Seite 63 und 64: die nach Literaturangaben (siehe [1
Seite 65 und 66: Unterschiede in den freigesetzten N

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