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Charakterystyka peptydów i białek zaangażowanych w utrzymywanie homeostazy jonów miedzi w układzie nerwowym człowieka

Identyfikatory
Warianty tytułu
EN
Profile of peptides and proteins involved in copper ions homeostasis in human nervous system
Języki publikacji
PL
Abstrakty
EN
Copper is an essential metal in living organisms. They all require copper as a catalytic cofactor for biological processes such as respiration, iron transport, oxidative stress protection and pigmentation. Nevertheless, exposure to the excess of copper can damage cells and organs. Copper ions and complexes can induce formation of reactive oxygen species, that can damage biomolecules including unsaturated lipids and DNA. In the past few years exciting advances have been made toward understanding how copper is transported within cells. Dysfunction of copper metabolism can lead to its excess or defi-ciency. Two examples of illness related to alterations in copper metabolism are Menkes and Wilson diseases. The understanding of copper homeostasis has become important in clinical medicine as the metal could be involved in the pathogenesis of some neurological disorders such as Alzheimer, Parkinson or prion diseases.
Rocznik
Strony
547--565
Opis fizyczny
bibliogr. 86 poz., rys.
Twórcy
  • Wydział Chemii, Zakład Chemii Polipeptydów, Uniwersytet Gdański, ul. J. Sobieskiego 18/19, 80-952 Gdańsk
Bibliografia
  • [1] N.A. Platonova, S.V. Barabanova, R.G. Povalikhin, N.V. Tsymbalenko, M.A. Danilovskii, O.V. Voronina, I.I. Dorokhova, L.V. Puchkova, Biol. Bull., 2005, 32, 141.
  • [2] A.E.M. Klomp, J.A. Juijn, L.T.M. Gun, I.E.T. Berg, R. Berger, L.W.J. Klomp, Biochem. J., 2003, 370, 881.
  • [3] J.F.B. Mercer, TRENDS Mol. Med., 2001, 7, 64.
  • [4] J.F. Eisses, J.H. Kaplan, J. Biol. Chem., 2002, 277, 29162.
  • [5] J.H. Hung, R.L.B. Casareno, G. Labesse, F.S. Mathews, J. D. Gitlin, J. Biol. Chem., 1998, 3, 1749.
  • [6] D.J. Waggoner, T.B. Bartnikas, J. D. Gitlin, Neurob. Dis., 1999, 6, 221.
  • [7] V. Cizewski Culotta, L.W.J. Klomp, J. Strain, R.L.B. Casareno, B. Krems, J.D. Gitlin, J. Biol. Chem., 1997, 272, 23469.
  • [8] J. Bertinato, M. Iskandar, M.R. L.Abbe, J. Nutr., 2003, 133, 28.
  • [9] J.D. Rothstein, M. Dykes-Hoberg, L.B. Corson, M. Becker, D.W. Cleveland, D.L. Price, V.C. Culotta, P.C. Wong , J. Neurochem., 1999, 72(1), 422.
  • [10] A.N. Silahtaroglu, K. Brondum-Nielsen, O. Gredal, L. Werdelin, M. Panas, M.B. Petersen, N. Tommerup, Z. Tumer, BMC Genetics, 2002, 3, 1.
  • [11] J.R. Prohaska, A.A. Gybina, J. Nutr., 2004, 134, 1003.
  • [12] S. Kato, H. Sumi-Akamaru, H. Fujimura, S. Sakoda, M. Kato, A. Hirano, M. Takikawa, E. Ohama, Acta Neuropathol, 2001, 102, 233.
  • [13] T.D. Rae, P.J. Schmidt, R.A. Pufahl, V.C. Culotta, T.V. O'Halloran, Science, 1999, 284, 804.
  • [14] R.L.B. Casareno, D. Waggoner, J.D. Gitlin, J. Biol. Chem., 1998, 273, 23625.
  • [15] P.C. Wong, D. Waggoner, J.R. Subramaniam, L. Tessarollo, T.B. Bartnikas, V.C. Culotta, D.L. Price, J. Rothstein, J. D. Gitlin, PNAS, 2000, 97, 2886.
  • [16] M. Falconi, M. Iovino, A. Desideri, Structure, 1999, 7, 903.
  • [17] K.A. Markossian, B.I. Kurganov, Bioch.(Mosc.), 2003, 68(8), 827.
  • [18] D.M. Glerum, A. Shtanko, A. Tzagoloffss, J. Biol. Chem., 1996, 271, 14504.
  • [19] S.C. Leary, B.A. Kaufman, G. Pellecchia, G.H. Guercin, A. Mattman, M. Jaksch, E.A. Shoubridge, Hum. Mol. Genet., 2004, 13(17), 1839.
  • [20] P.A. Cobine, F. Pierrel, D.R. Winga, Bioch. Biophys. Acta, 2006, 1763(7), 759.
  • [21] S.D.P. Moore, K.E. Helmle, L.M. Prat, D.W. Cox, Mam. Gen., 2002, 13, 563.
  • [22] I. Hamza, M. Schaefer, L.W.J. Klomp, J.D. Gitlin, PNAS, 1999, 96, 13363.
  • [23] G. Multhaup, A. Schlicksupp, L. Hesse, D. Beher, T. Rupert, C.L. Masters, K. Beyreuther, Fifth International Conference on Alzheimer.s Disease, Japan, 24.29 July, 1996.
  • [24] M.A. Greenough, I. Volitakis, Q.X. Li, R.A. Cherny, J. Camakaris, A.I. Bush, P2-036, S242.
  • [25] G. Multhaup, Biomed&Pharm., 1997, 51, 105.
  • [26] A.R. White, R. Reyes, J.F. Mercer, J. Camakaris, H. Zheng, A.I. Bush, G. Multhaup, K. Beyereuther, C.L. Masters, R. Cappai, Brain Res., 1999, 842, 439.
  • [27] L. Hesse, D. Beher, C.L. Masters, G. Multhaup, FEBS Letters, 1994, 349, 109.
  • [28] D. Strausak, J.F.B. Mercer, H.H. Dieter, W. Stremmel, G. Multhaup, Brain Res. Bull., 2001, 55, 175.
  • [29] Ch.D. Carlton, D.L. Czilli, B.D. Gitter, Neurob. of Aging, 2000, 21, 747.
  • [30] P.R. Turner, K. O.Connor, W.P. Tate, W.C. Abraham, Prog. in Neurob., 2003, 70, 1.
  • [31] C. Ribaut-Barassin, J.-L. Dupont, A.-M. Haeberle, G. Bombarde, G. Huber, S. Moussaoui, J. Mariani, Y. Bailly, Neurosci., 2003, 120, 405.
  • [32] D.H. Small, H. Clarris, T. Williamson, K. Beyreuther, C.L. Masters, V. Nurcombe, Fifth International Conference on Alzheimer.s Disease, 1996, Japan, S19, 74.
  • [33] A.R. White, R. Reyes, J.F.B. Mercer, J. Camakaris, H. Zheng, A.I. Bush, G. Multhaup, K. Beyreuther, C.L. Masters, R. Cappai, Brain Res., 1999, 842, 439.
  • [34] U. Muller, S. Kins, TRENDS Mol. Med., 2002, 8, 152.
  • [35] S. Y. Guenette, TRENDS Pharmac. Sc., 2002, 23, 203.
  • [36] E. J. Coulson, K. Paliga, K. Beyreuther, C. L. Masters, Neuroch. Inter., 2000, 36, 175.
  • [37] J. A. Bailey, D. K. Lahiri, J. Alzheimer.s Assoc., 2006, 2, S506, P3-442.
  • [38] P. Kienlen-Campard, S.N. Constantinescu, B. Tasiaux, S.O. Smith, J.N. Octave, J. Alzheimer.s Assoc., 2006, 2, S35, O2-03-02.
  • [39] J.F. Hare, Arch. Bioch. Biophys., 2006, 451, 79.
  • [40] D.S. Le Brocque, G. Evin, A. Henry, R. Cappai, S. Fuller, K. Beyreuther, C.L. Masters, Fifth International Conference on Alzheimer's Disease, 1996, Japan, S98, 394.
  • [41] V. Vassiliev, Z. L. Harris, P. Zatta, Brain Research Rev., 2005, 49, 633.
  • [42] R. Wang, L. Zhang, M. A. Mateescu, R. Nadeau, Bioch. Biophys. Res. Comm., 1995, 207, 599.
  • [43] S.Y. Jeong, S. David, J. Biol. Chem., 2003, 278, 27144.
  • [44] B.N. Patel, R.J. Dunn, S. David, J. Biol. Chem., 2000, 275, 4305.
  • [45] B.N. Patel, S. David, J. Biol. Chem., 1997, 272, 20185.
  • [46] C.J. Jeffery, Trends in Genetics, 2003, 19, 415.
  • [47] C.J. Jeffery, TIBS, 1999, 24, 8.
  • [48] D. Maltais, D. Desroches, M. Aouffen, M.-A. Mateescu, R. Wang, J. Paquin, Neuroscience, 2003, 121, 73.
  • [49] J. Sarkar, V. Seshadri, N.A. Tripoulas, M.E. Ketterer, P.L. Fox, J. Biol. Chem., 2003, 278, 44018.
  • [50] B.N. Patel, R.J. Dunn, S.Y. Jeong, Q. Zhu, J.P. Julien, S. David, J. of Neuroscience, 2002, 22(15), 6578.
  • [51] C.W. Levenson, N.M. Tassabehji, Ageing Res. Rev., 2004, 3, 251.
  • [52] Y. Pan, K. Katula, M.L. Failla, Bioch. Biophys. Acta, 1996, 1307, 233.
  • [53] L.W.J. Klomp, J.D. Gitlin, Hum. Mol. Gen., 1996, 5, 1989.
  • [54] V.R. Martins, R. Linden, M.A.M. Prado, R. Walz, A.C. Sakamoto, I. Izquierdo, R.R. Brentani, FEBS Lett., 2002, 512, 25.
  • [55] D.R. Brown, Neurob. Dis., 2004, 15, 534.
  • [56] Praca magisterska Magdalena Wysocka, Gdańsk 2003.
  • [57] P.C. Pauly, D.A. Harris, J. Biol. Chem., 1998, 273, 33107.
  • [58] W. Cerpa et al., Mol. Asp. Med., 2005, 26, 405.
  • [59] A. Campbell, M.A. Smith, L.M. Sayre, S.C. Bondy, G. Perry, Brain Res. Bull., 2001, 55, 125.
  • [60] F.H. Ruiz, E. Silva, N.C. Inestrosa, Bioch. Biopys. Res. Commun., 2000, 269, 491.
  • [61] L. Stryer, Biochemia, PWN, W-wa 1999, 993.
  • [62] M. Toni, M.L. Massimino, C. Griffoni, B. Salvato, V. Tomasi, E. Spisni, FEBS Letters, 2005, 579, 741.
  • [63] S. Lehmann, O. Milhavet, A. Mange, Biomed & Pharmac., 1999, 53, 39.
  • [64] S.B. Prusiner, TIBS, 1996, 21, 482.
  • [65] T. Nishimura, A. Sakudo, I. Nakamura, D. Lee, Y. Taniuchni, K. Saeki, Y. Matsumoto, M. Ogawa, S. Sakaguchi, S. Itohara, T. Onodera, Biochem. Biophys. Res. Commun., 2004, 323, 218.
  • [66] D.R. Brown, K. Qin, J. W. Herms, A. Madlung, J. Manson, R. Strome, P.E. Fraser, T. Kruck, A. Bohlen, W. Schulz-Schaffer, A. Giese, D. Westaway, H. Kretzschmar, Nature, 1997, 390, 684.
  • [67] Institut fur Physikalische Biologie, http://www.biophys.uni-duesseldorf.de
  • [68] B.-H. Kim, H.-G. Lee, J.-K. Choi, J.-I. Kim, E.-K. Choi, R. I. Carp, Y.-S. Kim, Mol. Brain Res., 2004, 124, 40.
  • [69] C. Kuwahara, A. M. Takeuchi, T. Nishimura, K. Haraguchi, A. Kubosaki, Y. Matsumoto, K. Saeki, Y. Matsumoto, T. Yokoyama, S. Itohara, T. Onodera, Nature, 1999, 400, 225.
  • [70] M.A. Klein, R. Frigg, E. Flechsig, A.J. Raeber, U. Kalinke, H. Bluethmann, F. Bootz, M. Suter, R.M. Zinkernagel, A. Aguzzi, Nature, 1997, 390, 687.
  • [71] J. Hidalgo, M. Aschner, P. Zatta, M. Vasak, Brain Res. Bull., 2001, 55, 133.
  • [72] S. Lemoine, M. Laulier, Comp. Bioch. Phys., 2000, 126, S91.
  • [73] M. Giralt, M. Penkowa, N. Lago, A. Molinero, J. Hidalgo, Exp. Neurol., 2002, 173, 114.
  • [74] K.E. Rigby, M.J. Stillman, Biochem. Biophys. Res. Comm., 2004, 325, 1271.
  • [75] M. Vasak, D.W. Hasler, Curr. Opin. Biol., 2000, 4, 177.
  • [76] J.Y. Uriu-Adams, C.L. Keen, Mol. Aspects Med., 2005, 26, 268.
  • [77] J. Bertinato, M.R. L.Abbe, J. Nutrit. Bioch., 2004, 15, 316.
  • [78] N.C. Andrews, Curr. Opin. Biol., 2002, 6, 181.
  • [79] N. Fatemi, B. Sarkar, Inorg. Chim. Acta, 2002, 339, 179.
  • [80] N. Nelson, EMBO J., 1999, 18, 4361.
  • [81] M. Solioz, A. Odermatt, R. Krapf, FEBS Lett., 1994, 346, 44.
  • [82] J. Borjigin, A.S. Payne, J. Deng, X. Li, M.M. Wang, B. Ovodenko, J.D. Gitlin, S.H. Snyder, J. Neuroscience, 1999, 19(3), 1018.
  • [83] J. Lee, J.R. Prohaska, S.L. Dagenais, T.W. Glover, D.J. Thiele, An. Inter. J. Gen. Genomes and Evol., 2000, 254, 87.
  • [84] S.J. Opella, T.M. DeSilva, G. Veglia, Curr. Opin. Biol., 2002, 6, 217.
  • [85] X. Li, S. Chen, Q. Wang, D.J. Zack, S.H. Snyder, J. Borjigin, Neurobiol., 1998, 95, 1876.
  • [86] Z. Huang, J. Deng, J. Borjigin, J. Pineal Res., 2005, 39, 84.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUS5-0004-0043
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