Home » Students » Alumni » Alumni Page Home Director Intro Structure Timeline Med 1 & 2 Grad School Med 3 & 4 Funding Directors/Administrators Committees Research Training Programs Faculty By Name Faculty By Program Resources History Campus Resources Students Research Highlights Students by Name Students by Year Resources Alumni By Name By Degree By Year Publications Admissions Procedure Application Living in Madison Housing Dining Campus Tour City Current Events Seminar Symposium Retreat Contact Us Alumni Page Michael C. Schuster    1993-2002 Resident, Internal Medicine U of Pennsylvania Hospital, Philadelphia, PA University of Nevada-Reno 1993 Chemistry PhD 2000 Laura L Kiessling Investigating protein - carbohydrate interactions with glycomimetics and oligovalent mannosides   To explore the molecular features responsible for the specificity of carbohydrate-binding proteins, we have investigated mono- and multivalent ligands targeted toward rat mannose binding protein A (MBP-A) and concanavalin A (Con A), respectively. We have developed methods for the solid-supported parallel synthesis of non-carbohydrate-based analogues of mannose utilizing the carbocycle shikimic acid as a scaffold. The alpha-beta; unsaturated carboxylic acid moiety of shikimic acid allowed for the incorporation of diversifying elements onto the carbocyclic scaffold by sequential amide formation and conjugate addition of thiols. The reaction conditions were tailored to the FlexChem 96-well combinatorial block and 192 compounds were prepared in multi-milligram quantities. The ability of the compounds to block the binding of the C-type lectin MBP-A to a multivalent mannosylated surface was assessed in a novel bead elution assay. Results of the assay identified ten library members with inhibitory activity approximately equal to that of alpha-ƒ{methylmannopyranoside. The results suggest that shikimic acid can be utilized to develop libraries of non-carbohydrate-containing molecules targeted toward the C-type lectin family. To investigate the structural features of multivalent carbohydrate ligands that influence carbohydrate-protein binding, the interaction between a small multivalent ligand and lectin concanavalin A was investigated. The small multivalent ligand investigated contains three mannose residues appended to a rigid macrocyclic backbone. Inhibition assays performed with the trivalent ligand against Con-A on a surface plasmon resonance instrument containing a mannose-derivatized sensor surface suggest that the small multivalent ligand enhances the interaction between Con-A and the surface. In contrast, a monovalent control ligand inhibits the binding of Con-A to the surface. Fluorescence resonance energy transfer experiments, performed with fluorescently labeled Con A and either the tri- or monovalent ligands, indicate that the trivalent ligand is capable of clustering the lectin in solution whereas the monovalent ligand does not. This solution clustering occurs without precipitation and its implications on carbohydrate-protein binding are discussed.   Thesis Publications Schuster MC, Mann DA, Buchholz TJ, Johnson KM, Thomas WD, Kiessling LL. Parallel synthesis of glycomimetic libraries: targeting a C-type lectin. Org Lett 5:1407-1410, 2003. Burke SD, Zhao Q, Schuster MC, Kiessling LL. Synergistic formation of soluble lectin clusters by a templated multivalent saccharide ligand. J Am Chem Soc 122:4518-4519, 2000.