Abstract
Surface plasmon resonance (SPR) biosensors have become the mainstream method for biomolecular interaction analysis. It offers many advantages over conventional methods by its label-free, real-time monitoring, low sample consumption, high throughput, and remarkable sensitivity. We have examined dengue virus protein interactions in the context of antibody affinity measurement, protein–protein interaction, and in the screening of small molecule inhibitors as well as the characterization of the interactions between the small molecule binders and the relevant dengue protein. Here we describe the basic methods involved in performing SPR assays as well as in data processing and evaluation using some examples of dengue proteins.
An erratum to this chapter is available at http://dx.doi.org/10.1007/978-1-4939-0348-1_25
An erratum to this chapter can be found at http://dx.doi.org/10.1007/978-1-4939-0348-1_25
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References
Rich RL, Myszka DG (2008) Survey of the year 2007 commercial optical biosensor literature. J Mol Recognit 21(6):355–400
Rich RL, Myszka DG (2009) Grading the commercial optical biosensor literature-Class of 2008: “The Mighty Binders”. J Mol Recognit 23(1):1–64
Rich RL, Myszka DG (2011) Survey of the 2009 commercial optical biosensor literature. J Mol Recognit 24(6):892–914
Myszka DG, Arulanantham PR, Sana T, Wu Z, Morton TA, Ciardelli TL (1996) Kinetic analysis of ligand binding to interleukin-2 receptor complexes created on an optical biosensor surface. Protein Sci 5(12):2468–2478
Rich RL (2002) Kinetic analysis of estrogen receptor/ligand interactions. Proc Natl Acad Sci 99(13):8562–8567
Besenicar M, Macek P, Lakey JH, Anderluh G (2006) Surface plasmon resonance in protein-membrane interactions. Chem Phys Lipids 141(1–2):169–178
Navratilova I, Hopkins AL (2010) Fragment screening by surface plasmon resonance. ACS Med Chem Lett 1(1):44–48
Retra K, Irth H, van Muijlwijk-Koezen JE (2010) Surface plasmon resonance biosensor analysis as a useful tool in FBDD. Drug Discov Today Tech 7(3):e181–e187
Elinder M, Geitmann M, Gossas T, Kallblad P, Winquist J, Nordstrom H, Hamalainen M, Danielson UH (2011) Experimental validation of a fragment library for lead discovery using SPR biosensor technology. J Biomol Screen 16(1):15–25
Papalia GA, Leavitt S, Bynum MA, Katsamba PS, Wilton R, Qiu H, Steukers M, Wang S, Bindu L, Phogat S, Giannetti AM, Ryan TE, Pudlak VA, Matusiewicz K, Michelson KM, Nowakowski A, Pham-Baginski A, Brooks J, Tieman BC, Bruce BD, Vaughn M, Baksh M, Cho YH, Wit MD, Smets A, Vandersmissen J, Michiels L, Myszka DG (2006) Comparative analysis of 10 small molecules binding to carbonic anhydrase II by different investigators using Biacore technology. Anal Biochem 359(1):94–105
Geitmann M, Unge T, Danielson UH (2006) Interaction kinetic characterization of HIV-1 reverse transcriptase non-nucleoside inhibitor resistance. J Med Chem 49(8):2375–2387
Richalet-Sécordel PM, Rauffer-Bruyère N, Christensen LL, Ofenloch-Haehnle B, Seidel C, Van Regenmortel MH (1997) Concentration measurement of unpurified proteins using biosensor technology under conditions of partial mass transport limitation. Anal Biochem 249(2):165–173
Chavane N, Jacquemart R, Hoemann CD, Jolicoeur M, De Crescenzo G (2008) At-line quantification of bioactive antibody in bioreactor by surface plasmon resonance using epitope detection. Anal Biochem 378(2):158–165
Rajamanonmani R, Nkenfou C, Clancy P, Yau YH, Shochat SG, Sukupolvi-Petty S, Schul W, Diamond MS, Vasudevan SG, Lescar J (2009) On a mouse monoclonal antibody that neutralizes all four dengue virus serotypes. J Gen Virol 90(Pt 4):799–809
Zheng A, Umashankar M, Kielian M (2010) In vitro and in vivo studies identify important features of dengue virus pr-E protein interactions. PLoS Pathog 6(10):e1001157
Zhang Q, Hunke C, Yau YH, Seow V, Lee S, Tanner LB, Guan XL, Wenk MR, Fibriansah G, Chew PL, Kukkaro P, Biukovic G, Shi PY, Shochat SG, Grüber G, Lok SM (2012) The stem region of premembrane protein plays an important role in the virus surface protein rearrangement during dengue maturation. J Biol Chem 287(48):40525–40534
Schmidt AG, Lee K, Yang PL, Harrison SC (2012) Small-molecule inhibitors of dengue-virus entry. PLoS Pathog 8(4):e1002627
Li PC, Liao MY, Cheng PC, Liang JJ, Liu IJ, Chiu CY, Lin YL, Chang GJJ, Wu HC (2012) Development of a humanized antibody with high therapeutic potential against dengue virus type 2. PLoS Negl Trop Dis 6(5):e1636
Balsitis SJ, Williams KL, Lachica R, Flores D, Kyle JL, Mehlhop E, Johnson S, Diamond MS, Beatty PR, Harris E (2010) Lethal antibody enhancement of dengue disease in mice is prevented by Fc modification. PLoS Pathog 6(2):e1000790
Fry SR, Meyer M, Semple MG, Simmons CP, Sekaran SD, Huang JX, McElnea C, Huang CY, Valks A, Young PR, Cooper MA (2011) The diagnostic sensitivity of dengue rapid test assays is significantly enhanced by using a combined antigen and antibody testing approach. PLoS Negl Trop Dis 5(6):e1199
Moreland NJ, Tay MYF, Lim E, Paradkar PN, Doan DNP, Yau YH, Geifman Shochat S, Vasudevan SG (2010) High affinity human antibody fragments to dengue virus non-structural protein 3. PLoS Negl Trop Dis 4(11):e881
Zou G, Chen YL, Dong H, Lim CC, Yap LJ, Yau YH, Shochat SG, Lescar J, Shi PY (2011) Functional analysis of two cavities in flavivirus NS5 polymerase. J Biol Chem 286(16):14362–14372
Bodenreider C, Beer D, Keller TH, Sonntag S, Wen D, Yap L, Yau YH, Shochat SG, Huang D, Zhou T, Caflisch A, Su XC, Ozawa K, Otting G, Vasudevan SG, Lescar J, Lim SP (2009) A fluorescence quenching assay to discriminate between specific and nonspecific inhibitors of dengue virus protease. Anal Biochem 395(2):195–204
O'Shannessy DJ, Brigham-Burke M, Peck K (1992) Immobilization chemistries suitable for use in the BIAcore surface plasmon resonance detector. Anal Biochem 205(1):132–136
Johnsson B, Löfås S, Lindquist G (1991) Immobilization of proteins to a carboxymethyldextran-modified gold surface for biospecific interaction analysis in surface plasmon resonance sensors. Anal Biochem 198(2):268–277
Rich RL, Myszka DG (2003) A survey of the year 2002 commercial optical biosensor literature. J Mol Recognit 16(6):351–382
Center for Biomolecular Interaction Analysis. http://www.cores.utah.edu/interaction/index.php.
Karlsson R, Katsamba PS, Nordin H, Pol E, Myszka DG (2006) Analyzing a kinetic titration series using affinity biosensors. Anal Biochem 349(1):136–147
Acknowledgements
This work was partly supported by research grants awarded to Dr. Subhash Vasudevan (DUKE-NUS, Singapore) and Dr. Julien Lescar (School of Biological Sciences, Nanyang Technological University, Singapore).
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Yau, Y.H., Shochat, S.G. (2014). Analysis of Affinity of Dengue Virus Protein Interaction Using Biacore. In: Padmanabhan, R., Vasudevan, S. (eds) Dengue. Methods in Molecular Biology, vol 1138. Humana Press, New York, NY. https://doi.org/10.1007/978-1-4939-0348-1_17
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DOI: https://doi.org/10.1007/978-1-4939-0348-1_17
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