Title page for ETD etd-06122002-115345

Type of Document Master's Thesis
Author Cassino, Theresa Rachel
URN etd-06122002-115345
Title Quantification of the Binding of Insulin-like Growth Factor-I (IGF-I) and IGF Binding Protein-3 (IGFBP-3) Using Surface Plasmon Resonance
Degree Master of Science
Department Chemical Engineering
Advisory Committee
Advisor Name Title
Williams, Kimberly Forsten Committee Chair
Dessy, Raymond E. Committee Member
Van Cott, Kevin E. Committee Member
  • Biosensor
  • Insulin-like Growth Factor Binding Protein-3 (IGF
  • Surface Plasmon Resonance
  • Insulin-like Growth Factor-I (IGF-I)
  • Binding Affinity
  • Growth Factor
Date of Defense 2002-05-30
Availability unrestricted
Insulin-like growth factor-I is a small growth factor known to signal in a variety of mammalian cells through the IGF-I cell surface receptor (IGF-IR). A unique feature of the IGF-I system is the regulation of this binding by soluble IGF binding proteins. Recent studies from our laboratory show that there is a pH dependence in the association of IGF-I with the cell surface in the presence of IGFBP-3 which suggested increased association of IGF-I with IGFBP-3 at low pH. We studied cell free interaction of IGF-I and IGFBP-3 as a function of pH using surface plasmon resonance (SPR) in order to understand the mechanism that causes the increased association. In our studies three different SPR instruments with different surfaces for immobilization of one of the binding partners were used: a Leica Bio-SPR 9000 with a low molecular weight carboxymethylated dextran (CMD) surface, a BIAcore 2000 with a high molecular weight CMD surface and a Leica SPR 2001 Alpha with a planar mixed self-assembled monolayer (mSAM) surface. Since the experimental system we used was transport sensitive, only the mSAM surface, under optimized conditions, produced results that fit to a single site model. Results suggest that use of CMD layers for immobilization of one partner of a high-affinity binding complex can result in transport limited binding for which simple analysis is inappropriate. Future studies are planned to expand the work with the mSAM surface to elucidate whether a significant difference between the binding parameters as a function of pH exists.
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