Abstract
The link between protein aggregation and the UPS in the context of neurodegenerative diseases is still a matter of intense debate. Many issues, especially regarding the nature of the interaction between aggregated proteins and the UPS, remain unresolved. Further experiments, especially in an in vivo context, will be needed to address these issues. Such studies may shed light on the importance of the UPS in neurodegeneration.
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5. References
Kayed, R., Head, E., Thompson, J. L., McIntire, T. M., Milton, S. C., Cotman, C. W., and Glabe, C. G. (2003) Science 300, 486–489
Serpell, L. C., Sunde, M., Benson, M. D., Tennent, G. A., Pepys, M. B., and Fraser, P. E. (2000) J Mol Biol 300, 1033–1039
Spillantini, M. G., Crowther, R. A., Jakes, R., Hasegawa, M., and Goedert, M. (1998) Proc Natl Acad Sci U S A 95, 6469–6473
Harper, J. D., Wong, S. S., Lieber, C. M., and Lansbury, P. T. (1997) Chem Biol 4, 119–125
Podlisny, M. B., Walsh, D. M., Amarante, P., Ostaszewski, B. L., Stimson, E. R., Maggio, J. E., Teplow, D. B., and Selkoe, D. J. (1998) Biochemistry 37, 3602–3611
Harper, J. D., Wong, S. S., Lieber, C. M., and Lansbury, P. T., Jr. (1999) Biochemistry 38, 8972–8980
Ding, T. T., Lee, S. J., Rochet, J. C., and Lansbury, P. T., Jr. (2002) Biochemistry 41, 10209–10217
Lashuel, H. A., Petre, B. M., Wall, J., Simon, M., Nowak, R. J., Walz, T., and Lansbury, P. T., Jr. (2002) J Mol Biol 322, 1089–1102
Jarrett, J. T., and Lansbury, P. T., Jr. (1992) Biochemistry 31, 12345–12352
Minton, A. P. (2000) Curr Opin Struct Biol 10, 34–39
Shtilerman, M. D., Ding, T. T., and Lansbury, P. T., Jr. (2002) Biochemistry 41, 3855–3860
Duda, J. E., Giasson, B. I., Chen, Q., Gur, T. L., Hurtig, H. I., Stern, M. B., Gollomp, S. M., Ischiropoulos, H., Lee, V. M., and Trojanowski, J. Q. (2000) Am J Pathol 157, 1439–1445
Przedborski, S., Chen, Q., Vila, M., Giasson, B. I., Djaldatti, R., Vukosavic, S., Souza, J. M., Jackson-Lewis, V., Lee, V. M., and Ischiropoulos, H. (2001) J Neurochem 76, 637–640
Hodara, R., Norris, E. H., Giasson, B. I., Mishizen-Eberz, A. J., Lynch, D. R., Lee, V. M., and Ischiropoulos, H. (2004) J Biol Chem 279, 47746–47753
Chen, L., and Feany, M. B. (2005) Nat Neurosci 8, 657–663
Fujiwara, H., Hasegawa, M., Dohmae, N., Kawashima, A., Masliah, E., Goldberg, M. S., Shen, J., Takio, K., and Iwatsubo, T. (2002) Nat Cell Biol 4, 160–164
Negro, A., Brunati, A. M., Donella-Deana, A., Massimino, M. L., and Pinna, L. A. (2002) Faseb J 16, 210–212
Rochet, J. C., Outeiro, T. F., Conway, K. A., Ding, T. T., Volles, M. J., Lashuel, H. A., Bieganski, R. M., Lindquist, S. L., and Lansbury, P. T. (2004) J Mol Neurosci 23, 23–34
Conway, K. A., Lee, S. J., Rochet, J. C., Ding, T. T., Harper, J. D., Williamson, R. E., and Lansbury, P. T., Jr. (2000) Ann N Y Acad Sci 920, 42–45
Conway, K. A., Lee, S. J., Rochet, J. C., Ding, T. T., Williamson, R. E., and Lansbury, P. T., Jr. (2000) Proc Natl Acad Sci U S A 97, 571–576
Klucken, J., Shin, Y., Masliah, E., Hyman, B. T., and McLean, P. J. (2004) J Biol Chem 279, 25497–25502
Wacker, J. L., Zareie, M. H., Fong, H., Sarikaya, M., and Muchowski, P. J. (2004) Nat Struct Mol Biol 11, 1215–1222
Trojanowski, J. Q., Goedert, M., Iwatsubo, T., and Lee, V. M. (1998) Cell Death Differ 5, 832–837
Lansbury, P. T., Jr. (1999) Proc Natl Acad Sci U S A 96, 3342–3344
Goldberg, M. S., and Lansbury, P. T., Jr. (2000) Nat Cell Biol 2, E115–119
Walsh, D. M., Klyubin, I., Fadeeva, J. V., Cullen, W. K., Anwyl, R., Wolfe, M. S., Rowan, M. J., and Selkoe, D. J. (2002) Nature 416, 535–539
Cleary, J. P., Walsh, D. M., Hofmeister, J. J., Shankar, G. M., Kuskowski, M. A., Selkoe, D. J., and Ashe, K. H. (2005) Nat Neurosci 8, 79–84
Lambert, M. P., Barlow, A. K., Chromy, B. A., Edwards, C., Freed, R., Liosatos, M., Morgan, T. E., Rozovsky, I., Trommer, B., Viola, K. L., Wals, P., Zhang, C., Finch, C. E., Krafft, G. A., and Klein, W. L. (1998) Proc Natl Acad Sci U S A 95, 6448–6453
Hartley, D. M., Walsh, D. M., Ye, C. P., Diehl, T., Vasquez, S., Vassilev, P. M., Teplow, D. B., and Selkoe, D. J. (1999) J Neurosci 19, 8876–8884
Nilsberth, C., Westlind-Danielsson, A., Eckman, C. B., Condron, M. M., Axelman, K., Forsell, C., Stenh, C., Luthman, J., Teplow, D. B., Younkin, S. G., Naslund, J., and Lannfelt, L. (2001) Nat Neurosci 4, 887–893
Cheng, I. H., Palop, J. J., Esposito, L. A., Bien-Ly, N., Yan, F., and Mucke, L. (2004) Nat Med 10, 1190–1192
Rochet, J. C., Conway, K. A., and Lansbury, P. T., Jr. (2000) Biochemistry 39, 10619–10626
Li, J., Uversky, V. N., and Fink, A. L. (2001) Biochemistry 40, 11604–11613
Arrasate, M., Mitra, S., Schweitzer, E. S., Segal, M. R., and Finkbeiner, S. (2004) Nature 431, 805–810
Reiner, A., Dragatsis, I., Zeitlin, S., and Goldowitz, D. (2003) Mol Neurobiol 28, 259–276
Gunawardena, S., Her, L. S., Brusch, R. G., Laymon, R. A., Niesman, I. R., Gordesky-Gold, B., Sintasath, L., Bonini, N. M., and Goldstein, L. S. (2003) Neuron 40, 25–40
Terry, R. D. (2000) J Neuropathol Exp Neurol 59, 1118–1119
Gunawardena, S., and Goldstein, L. S. (2001) Neuron 32, 389–401
Hotze, E. M., Wilson-Kubalek, E. M., Rossjohn, J., Parker, M. W., Johnson, A. E., and Tweten, R. K. (2001) J Biol Chem 276, 8261–8268
Volles, M. J., and Lansbury, P. T., Jr. (2003) Biochemistry 42, 7871–7878
Arispe, N., Pollard, H. B., and Rojas, E. (1993) Proc Natl Acad Sci U S A 90, 10573–10577
Walsh, D. M., Tseng, B. P., Rydel, R. E., Podlisny, M. B., and Selkoe, D. J. (2000) Biochemistry 39, 10831–10839
Weiss, J. H., Pike, C. J., and Cotman, C. W. (1994) J Neurochem 62, 372–375
Furukawa, K., Abe, Y., and Akaike, N. (1994) Neuroreport 5, 2016–2018
Kazlauskaite, J., Sanghera, N., Sylvester, I., Venien-Bryan, C., and Pinheiro, T. J. (2003) Biochemistry 42, 3295–3304
Hirakura, Y., Azimov, R., Azimova, R., and Kagan, B. L. (2000) J Neurosci Res 60, 490–494
Monoi, H., Futaki, S., Kugimiya, S., Minakata, H., and Yoshihara, K. (2000) Biophys J 78, 2892–2899
Stipani, V., Gallucci, E., Micelli, S., Picciarelli, V., and Benz, R. (2001) Biophys J 81, 3332–3338
Ciechanover, A., and Brundin, P. (2003) Neuron 40, 427–446
Bence, N. F., Sampat, R. M., and Kopito, R. R. (2001) Science 292, 1552–1555
Johnston, J. A., Ward, C. L., and Kopito, R. R. (1998) J Cell Biol 143, 1883–1898
Jana, N. R., Zemskov, E. A., Wang, G., and Nukina, N. (2001) Hum Mol Genet 10, 1049–1059
Ii, K., Ito, H., Tanaka, K., and Hirano, A. (1997) J Neuropathol Exp Neurol 56, 125–131
Cummings, C. J., Mancini, M. A., Antalffy, B., DeFranco, D. B., Orr, H. T., and Zoghbi, H. Y. (1998) Nat Genet 19, 148–154
Chai, Y., Koppenhafer, S. L., Shoesmith, S. J., Perez, M. K., and Paulson, H. L. (1999) Hum Mol Genet 8, 673–682
Waelter, S., Boeddrich, A., Lurz, R., Scherzinger, E., Lueder, G., Lehrach, H., and Wanker, E. E. (2001) Mol Biol Cell 12, 1393–1407
Alves-Rodrigues, A., Gregori, L., and Figueiredo-Pereira, M. E. (1998) Trends Neurosci 21, 516–520
Donaldson, K. M., Li, W., Ching, K. A., Batalov, S., Tsai, C. C., and Joazeiro, C. A. (2003) Proc Natl Acad Sci U S A 100, 8892–8897
Burnett, B., Li, F., and Pittman, R. N. (2003) Hum Mol Genet 12, 3195–3205
Chai, Y., Berke, S. S., Cohen, R. E., and Paulson, H. L. (2004) J Biol Chem 279, 3605–3611
Doss-Pepe, E. W., Stenroos, E. S., Johnson, W. G., and Madura, K. (2003) Mol Cell Biol 23, 6469–6483
Chai, Y., Shao, J., Miller, V. M., Williams, A., and Paulson, H. L. (2002) Proc Natl Acad Sci U S A 99, 9310–9315
Bennett, E. J., Bence, N. F., Jayakumar, R., and Kopito, R. R. (2005) Mol Cell 17, 351–365
Kim, S., Nollen, E. A., Kitagawa, K., Bindokas, V. P., and Morimoto, R. I. (2002) Nat Cell Biol 4, 826–831
Stenoien, D. L., Mielke, M., and Mancini, M. A. (2002) Nat Cell Biol 4, 806–810
Mitra, S., Arrasate, M., and Finkbeiner, S. (2004) in Program No 1016.17. Society For Neuroscience Abstract
Verhoef, L. G., Lindsten, K., Masucci, M. G., and Dantuma, N. P. (2002) Hum Mol Genet 11, 2689–2700
Ravikumar, B., Duden, R., and Rubinsztein, D. C. (2002) Hum Mol Genet 11, 1107–1117
Holmberg, C. I., Staniszewski, K. E., Mensah, K. N., Matouschek, A., and Morimoto, R. I. (2004) Embo J 23, 4307–4318
Sanchez, I., Mahlke, C., and Yuan, J. (2003) Nature 421, 373–379
Sun, X. M., Butterworth, M., MacFarlane, M., Dubiel, W., Ciechanover, A., and Cohen, G. M. (2004) Mol Cell 14, 81–93
Stefanis, L., Kholodilov, N., Rideout, H. J., Burke, R. E., and Greene, L. A. (2001) J Neurochem 76, 1165–1176
Tanaka, Y., Engelender, S., Igarashi, S., Rao, R. K., Wanner, T., Tanzi, R. E., Sawa, A., V, L. D., Dawson, T. M., and Ross, C. A. (2001) Hum Mol Genet 10, 919–926
Petrucelli, L., O’Farrell, C., Lockhart, P. J., Baptista, M., Kehoe, K., Vink, L., Choi, P., Wolozin, B., Farrer, M., Hardy, J., and Cookson, M. R. (2002) Neuron 36, 1007–1019
Snyder, H., Mensah, K., Theisler, C., Lee, J., Matouschek, A., and Wolozin, B. (2003) J Biol Chem 278, 11753–11759
Lindersson, E., Beedholm, R., Hojrup, P., Moos, T., Gai, W., Hendil, K. B., and Jensen, P. H. (2004) J Biol Chem 279, 12924–12934
Ghee, M., Fournier, A., and Mallet, J. (2000) J Neurochem 75, 2221–2224
Bennett, M. C., Bishop, J. F., Leng, Y., Chock, P. B., Chase, T. N., and Mouradian, M. M. (1999) J Biol Chem 274, 33855–33858
Imai, Y., Soda, M., and Takahashi, R. (2000) J Biol Chem 275, 35661–35664
Tofaris, G. K., Layfield, R., and Spillantini, M. G. (2001) FEBS Lett 509, 22–26
Paxinou, E., Chen, Q., Weisse, M., Giasson, B. I., Norris, E. H., Rueter, S. M., Trojanowski, J. Q., Lee, V. M., and Ischiropoulos, H. (2001) J Neurosci 21, 8053–8061
Cuervo, A. M., Stefanis, L., Fredenburg, R., Lansbury, P. T., and Sulzer, D. (2004) Science 305, 1292–1295
Lee, H. J., Khoshaghideh, F., Patel, S., and Lee, S. J. (2004) J Neurosci 24, 1888–1896
Navon, A., and Goldberg, A. L. (2001) Mol Cell 8, 1339–1349
Goldberg, Y. P., Nicholson, D. W., Rasper, D. M., Kalchman, M. A., Koide, H. B., Graham, R. K., Bromm, M., Kazemi-Esfarjani, P., Thornberry, N. A., Vaillancourt, J. P., and Hayden, M. R. (1996) Nat Genet 13, 442–449
Saudou, F., Finkbeiner, S., Devys, D., and Greenberg, M. E. (1998) Cell 95, 55–66
Cummings, C. J., Reinstein, E., Sun, Y., Antalffy, B., Jiang, Y., Ciechanover, A., Orr, H. T., Beaudet, A. L., and Zoghbi, H. Y. (1999) Neuron 24, 879–892
Rideout, H. J., and Stefanis, L. (2002) Mol Cell Neurosci 21, 223–238
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Vekrellis, K., Stefanis, L. (2006). Protein Aggregation and the UPS: A Two-Way Street. In: Stefanis, L., Keller, J.N. (eds) The Proteasome in Neurodegeneration. Springer, Boston, MA. https://doi.org/10.1007/0-387-28500-8_3
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