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Issue
Korean Journal of Chemical Engineering,
Vol.29, No.6, 693-702, 2012
Techniques for monitoring protein misfolding and aggregation in vitro and in living cells
Gregoire S, Irwin J, Kwon I
Protein misfolding and aggregation have been considered important in understanding many neurodegenerative diseases and recombinant biopharmaceutical production. Various traditional and modern techniques have been utilized to monitor protein aggregation in vitro and in living cells. Fibril formation, morphology and secondary structure content of amyloidogenic proteins in vitro have been monitored by molecular probes, TEM/AFM, and CD/FTIR analyses, respectively. Protein aggregation in living cells has been qualitatively or quantitatively monitored by numerous molecular folding reporters based on either fluorescent protein or enzyme. Aggregation of a target protein is directly correlated to the changes in fluorescence or enzyme activity of the folding reporter fused to the target protein, which allows non-invasive monitoring aggregation of the target protein in living cells. Advances in the techniques used to monitor protein aggregation in vitro and in living cells have greatly facilitated the understanding of the molecular mechanism of amyloidogenic protein aggregation associated with neurodegenerative diseases, optimizing culture conditions to reduce aggregation of biopharmaceuticals expressed in living cells, and screening of small molecule libraries in the search for protein aggregation inhibitors.
Keywords: Protein Misfolding; Aggregation; Neurodegenerative Diseases; Amyloid Fibrils
[References]
  1. Bartolini M, Andrisano V, ChemBioChem., 11, 1018, 2010
  2. Colby DW, Cassady JP, Lin GC, Ingram VM, Wittrup KD, Nat. Chem. Biol., 2, 319, 2006
  3. Keshet B, Gray JJ, Good TA, Protein Sci., 19, 2291, 2010
  4. Lee S, Fernandez EJ, Good TA, Protein Sci., 16, 723, 2007
  5. Murphy RM, Annu. Rev. Biomed. Eng., 4, 155, 2002
  6. Pike CJ, Walencewicz AJ, Glabe CG, Cotman CW, Brain Research., 563, 311, 1991
  7. Alzheimer’s A, Alzheimer’s & Dementia., 6, 158, 2010
  8. Majoor-Krakauer D, Willems PJ, Hofman A, Clin. Genet., 63, 83, 2003
  9. Kabuta T, Suzuki Y, Wada K, J. Biol. Chem., 281, 30524, 2006
  10. Niwa J, Yamada S, Ishigaki S, Sone J, Takahashi M, Katsuno M, Tanaka F, Doyu M, Sobue G, J. Biol. Chem., 282, 28087, 2007
  11. Ferrer-Miralles N, Domingo-Espin J, Corchero J, Vazquez E, Villaverde A, Microbial Cell Factories., 8, 17, 2009
  12. Graumann K, Premstaller A, Biotechnol. J., 1, 164, 2006
  13. Jurgen B, Breitenstein A, Urlacher V, Buttner K, Lin H, Hecker M, Schweder T, Neubauer P, Microbial Cell Factories., 9, 41, 2010
  14. Thomas JG, Baneyx F, J. Biol. Chem., 271, 11141, 1996
  15. Ioannou YA, Bishop DF, Desnick RJ, J. Cell Biol., 119, 1137, 1992
  16. Ishii S, Kase R, Okumiya T, Sakuraba H, Suzuki Y, Biophys. Res. Commun., 220, 812, 1996
  17. Schroder M, Schafer R, Friedl P, Biotechnol. Bioeng., 78(2), 131, 2002
  18. Okumiya T, Kroos MA, Van Wet L, Takeuchi H, Van der Ploeg AT, Reuser AJJ, Mol. Genet. Metab., 90, 49, 2007
  19. Hwang SJ, Yoon SK, Koh GY, Lee GM, Appl. Microbiol. Biotechnol., 91(2), 305, 2011
  20. Jenkins N, Meleady P, Tyther R, Murphy L, Biotechnol. Appl.Biochem., 53, 73, 2009
  21. Waldo GS, Standish BM, Berendzen J, Terwilliger TC, Nat. Biotechnol., 17, 691, 1999
  22. Hardy JAHG, Science., 256, 184, 1992
  23. Kayed R, Head E, Thompson JL, McIntire TM, Milton SC, Cotman CW, Glabe CG, Science (New York)., 300, 486, 2003
  24. Glabe CG, J. Biol. Chem., 283, 29639, 2008
  25. Bucciantini M, Giannoni E, Chiti F, Baroni F, Formigli L, Zurdo J, Taddei N, Ramponi G, Dobson CM, Stefani M, Nature., 416, 507, 2002
  26. Cleary JP, Walsh DM, Hofmeister JJ, Shankar GM, Kuskowski MA, Selkoe DJ, Ashe KH, Nat. Neurosci., 8, 79, 2005
  27. Reinke AA, Gestwicki JE, Chemical Biology & Drug Design., 70, 206, 2007
  28. Nilsson MR, Methods., 34, 151, 2004
  29. Groenning M, J. Chem. Biol., 1, 2009
  30. Maezawa I, Hong HS, Liu R, Wu CY, Cheng RH, Kung MP, Kung HP, Lam KS, Oddo S, Laferla FM, Jin LW, J. Neurochem., 104, 457, 2008
  31. Hudson SA, Ecroyd H, Kee TW, Carver JA, The FEBS Journal., 276, 5960, 2009
  32. Reinke AA, Gestwicki JE, Chemical Biology & Drug Design., 77, 399, 2011
  33. Biancalana M, Koide S, Biochim. Biophys. Acta., 1804, 1405, 2010
  34. Hatters DM, Griffin MDW, Amyloid International Journal of Experimental and Clinical Investigation., 752, 121, 2011
  35. Lindgren M, Hammarstrom P, The FEBS Journal., 277, 1380, 2010
  36. Wong HE, Kwon I, Plos One., 6, e25752, 2011
  37. Ladiwala ARA, Dordick JS, Tessier PM, J. Biol. Chem., 286, 3209, 2011
  38. Bhak G, Lee JH, Hahn JS, Paik SR, Plos One., 4, e4177, 2009
  39. Lee JH, Bhak G, Lee SG, Paik SR, Biophys. J., 95, L16, 2008
  40. Ryu J, Kanapathipillai M, Lentzen G, Park CB, Peptides., 29, 578, 2008
  41. Wu JW, Breydo L, Isas JM, Lee J, Kuznetsov YG, Langen R, Glabe C, J. Biol. Chem., 285, 6071, 2010
  42. Ahmed M, Davis J, Aucoin D, Sato T, Ahuja S, Aimoto S, Elliott JI, Van Nostrand WE, Smith SO, Nat. Struct. Mol. Biol., 17, 561, 2010
  43. Ladiwala ARA, Lin JC, Bale SS, Marcelino-Cruz AM, Bhattacharya M, Dordick JS, Tessier PM, J. Biol. Chem., 285, 24228, 2010
  44. Klunk WE, Jacob RF, Mason RP, Methods Enzymol., 309, 6879, 1999
  45. Walsh DM, Hartley DM, Kusumoto Y, Fezoui Y, Condron MM, Lomakin A, Benedek GB, Selkoe DJ, Teplow DB, Biol DBJ, J. Biol. Chem., 274, 25945, 1999
  46. Hawe A, Sutter M, Jiskoot W, Pharmaceutical Research., 25, 1487, 2008
  47. Glabe CG, The Open Biology Journal., 2, 222, 2009
  48. Ladiwala ARA, Perchiacca JM, Fishman ZS, Bhattacharya M, Hickey AM, Domigan BG, Dordick JS, Tessier PM, Biotechnology and Bioengineering., 109, 1869, 2012
  49. Campioni S, Mannini B, Zampagni M, Pensalfini A, Parrini C, Evangelisti E, Relini A, Stefani M, Dobson CM, Cecchi C, Chiti F, Nat. Chem. Biol., 6, 140, 2010
  50. Bolognesi B, Kumita JR, Barros TP, Esbjorner EK, Luheshi LM, Crowther DC, Wilson MR, Dobson CM, Favrin G, Yerbury JJ, ACS Chem. Biol., 5, 735, 2010
  51. Kayed R, Head E, Sarsoza F, Saing T, Cotman CW, Necula M, Margol L, Wu J, Breydo L, Thompson JL, Rasool S, Gurlo T, Butler P, Glabe CG, Mol. Neurodegener., 2, 18, 2007
  52. Kayed R, Pensalfini A, Margol L, Sokolov Y, Sarsoza F, Head E, Hall J, Glabe C, J. Biol. Chem., 284, 4230, 2009
  53. LeVine H, III, Walker LC, Neurobiology of Aging., 31, 542, 2010
  54. Fandrich M, J. Mol. Biol., http://dx.doi.org/10.1016/j.jmb.2012.01.006, 2012
  55. Glabe CC, Subcellular Biochemistry., 38, 167, 2005
  56. Wong HE, Qi W, Choi HM, Fernandez EJ, Kwon I, ACS Chem. Neurosci., 2, 645, 2011
  57. Cerf E, Sarroukh R, Tamamizu-Kato S, Breydo L, Derclaye S, Dufrene YF, Narayanaswami V, Goormaghtigh E, Ruysschaert JM, Raussens V, Biochem. J., 421, 415, 2009
  58. Sarroukh R, Cerf E, Derclaye S, Dufrene YF, Goormaghtigh E, Ruysschaert JM, Raussens V, Cellular and Molecular Life Sciences: CMLS., 68, 1429, 2011
  59. Feng Y, Wang XP, Yang SG, Wang YJ, Zhang X, Du XT, Sun XX, Zhao M, Huang L, Liu RT, Neurotoxicology., 30, 986, 2009
  60. Woods LA, Platt GW, Hellewell AL, Hewitt EW, Homans SW, Ashcroft AE, Radford SE, Nat. Chem. Biol., 7, 730, 2011
  61. Necula M, Kayed R, Milton S, Glabe CG, J. Biol. Chem., 282, 10311, 2007
  62. Wang XP, Zhang JH, Wang YJ, Feng Y, Zhang X, Sun XX, Li JI, Du XT, Lambert MP, Yang SG, Zhao M, Klein WL, Liu RT, Febs Lett., 583, 579, 2009
  63. Kayed R, Canto I, Breydo L, Rasool S, Lukacsovich T, Wu J, Albay R, Pensalfini A, Yeung S, Head E, Marsh JL, Glabe C, Mol. Neurodegener., 5, 57, 2010
  64. Sood A, Abid M, Sauer C, Hailemichael S, Foster M, Torok B, Torok M, Bioorg. Med. Chem. Lett., 21, 2044, 2011
  65. Lee D, Lee EK, Lee JH, Chang CS, Paik SR, Eur. J. Biochem., 268, 295, 2001
  66. Ha C, Park CB, Biotechnol. Bioeng., 90(7), 848, 2005
  67. Ku SH, Park CB, Langmuir, 24(24), 13822, 2008
  68. Friedman R, Biochem. J., 438, 415, 2011
  69. Dasilva KA, Shaw JE, McLaurin J, Exp. Neurol., 223, 311, 2010
  70. Gras SL, Waddington LJ, Goldie KN, Notes., 752, 197, 2011
  71. Toyama BH, Weissman JS, Annu. Rev. Biochem., 80, 557, 2011
  72. Langkilde AE, Vestergaard B, Febs Lett., 583, 2600, 2009
  73. Chimon S, Shaibat MA, Jones CR, Calero DC, Aizezi B, Ishii Y, Nat. Struct. Mol. Biol., 14, 1157, 2007
  74. Stine WB, Dahlgren KN, Krafft GA, LaDu MJ, The Journal of Biological Chemistry., 278, 11612, 2003
  75. Perczel A, Park K, Fasman GD, Proteins: Structure, Function, and Bioinformatics., 13, 57, 1992
  76. Whitmore L, Wallace BA, Biopolymers., 89, 392, 2008
  77. Bartolini M, Bertucci C, Bolognesi ML, Cavalli A, Melchiorre C, Andrisano V, Chembiochem: A European Journal of Chemical Biology., 8, 2152, 2007
  78. Greenfield NJ, Trends in Analytical Chemistry., 18, 236, 1999
  79. Pelton JT, McLean LR, Anal. Biochem., 277, 167, 2000
  80. Surewicz WK, Mantsch JHH, Chapman D, Biochemistry., 32, 1993
  81. Correa DHA, Ramos CHI, J. Biochem., 3, 164, 2009
  82. Soto C, Castan EM, J. Biochem., 314, 701, 1996
  83. Vieira EP, Hermel H, Mohwald H, Biochim. Biophys. Acta., 1645, 6, 2003
  84. Tomaselli S, Esposito V, Vangone P, van Nuland, NAJ, Bonvin AMJJ, Guerrini R, Tancredi T, Temussi PA, Picone D, Chembiochem: A European Journal of Chemical Biology., 7, 257, 2006
  85. Greenfield NJ, Nature Protocols., 1, 2876, 2006
  86. Kim W, Hecht MH, J. Biol. Chem., 280, 35069, 2005
  87. Kim W, Hecht MH, J. Mol. Biol., 377, 565, 2008
  88. Arslan PE, Chakrabartty A, Biochem. Cell Biol., 87, 631, 2009
  89. Arslan PE, Mulligan VK, Ho S, Chakrabartty A, J. Mol. Biol., 396, 1284, 2010
  90. Heddle C, Mazaleyrat SL, Protein. Eng. Des. Sel., 20, 327, 2007
  91. Gregoire S, Kwon I, ACS Meeting., 234-BIOT, 241, 2011
  92. Kim W, Kim Y, Min J, Kim DJ, Chang YT, Hecht MH, ACS Chem. Biol., 1, 461, 2006
  93. Geng J, Li M, Ren J, Wang E, Qu X, Angew. Chem. Int. Ed. Eng., 50, 4184, 2011
  94. Philipps B, Hennecke J, Glockshuber R, J. Mol. Biol., 327, 239, 2003
  95. Cabantous S, Terwilliger TC, Waldo GS, Nat. Biotechnol., 23, 102, 2005
  96. Cabantous S, Pedelacq JD, Mark BL, Naranjo C, Terwilliger TC, Waldo GS, J. Struct. Funct. Genomics., 6, 113, 2005
  97. Cabantous S, Waldo GS, Nat. Methods., 3, 845, 2006
  98. Chun WJ, Waldo GS, Johnson GVW, J. Neurochem., 103, 2529, 2007
  99. Listwan P, Terwilliger TC, Waldo GS, J. Struct. Funct. Genomics., 10, 47, 2009
  100. Lockard MA, Listwan P, Pedelacq JD, Cabantous S, Nguyen HB, Terwilliger TC, Waldo GS, Protein Engineering Design & Selection., 24, 565, 2011
  101. Maxwell KL, Mittermaier AK, Forman-Kay JD, Davidson AR, Protein Sci., 8, 1908, 1999
  102. Dyson MR, Perera RL, Shadbolt SP, Biderman L, Bromek K, Murzina NV, McCafferty J, Nucleic Acids Res., e51.Epub 2008 Apr 17., 36, 2008
  103. Dyson MR, Biochem. Soc. Trans., 38, 908, 2010
  104. Morell M, de Groot NS, Vendrell J, Aviles FX, Ventura S, Mol. Biosyst., 7, 1121, 2011
  105. Wigley WC, Stidham RD, Smith NM, Hunt JF, Thomas PJ, Nat. Biotechnol., 19, 131, 2001
  106. Foit L, Morgan GJ, Kern MJ, Steimer LR, von Hacht AA, Titchmarsh J, Warriner SL, Radford SE, Bardwell JC, Mol. Cell., 36, 861, 2009
  107. Mansell TJ, Linderman SW, Fisher AC, DeLisa MP, Protein Science., 19, 1079, 2010
  108. Mansell TJ, Fisher AC, DeLisa MP, Curr. Protein Peptide Sci., 9, 138, 2008
  109. Yumerefendi H, Tarendeau F, Mas PJ, Hart DJ, J. Struct. Biol., 172(1), 66, 2010
  110. An Y, Yumerefendi H, Mas PJ, Chesneau A, Hart DJ, J.Struct. Biol., 175, 189, 2011
  111. Nolting B, Methods in modern biophysics: Ch. 5 - protein infrared spectroscopy, Springer Berlin Heidelberg, 91, 2010
  112. Wiseman RL, Kelly JW, Mol. Cell., 36, 730, 2009
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