TY - JOUR
T1 - Non-covalent polyvalent ligands by self-assembly of small glycodendrimers
T2 - A novel concept for the inhibition of polyvalent carbohydrate-protein interactions in vitro and in vivo
AU - Thoma, Gebhard
AU - Streiff, Markus B.
AU - Katopodis, Andreas G.
AU - Duthaler, Rudolf O.
AU - Voelcker, Nicolas H.
AU - Ehrhardt, Claus
AU - Masson, Christophe
PY - 2005/12/16
Y1 - 2005/12/16
N2 - Polyvalent carbohydrate-protein interactions occur frequently in biology, particularly in recognition events on cellular membranes. Collectively, they can be much stronger than corresponding monovalent interactions, rendering it difficult to control them with individual small molecules. Artificial macromolecules have been used as polyvalent ligands to inhibit polyvalent processes; however, both reproducible synthesis and appropriate characterization of such complex entities is demanding. Herein, we present an alternative concept avoiding conventional macromolecules. Small glycodendrimers which fulfill single molecule entity criteria self-assemble to form non-covalent nanoparticles. These particles - not the individual molecules - function as polyvalent ligands, efficiently inhibiting polyvalent processes both in vitro and in vivo. The synthesis and characterization of these glycodendrimers is described in detail. Furthermore, we report on the characterization of the non-covalent nanoparticles formed and on their biological evaluation.
AB - Polyvalent carbohydrate-protein interactions occur frequently in biology, particularly in recognition events on cellular membranes. Collectively, they can be much stronger than corresponding monovalent interactions, rendering it difficult to control them with individual small molecules. Artificial macromolecules have been used as polyvalent ligands to inhibit polyvalent processes; however, both reproducible synthesis and appropriate characterization of such complex entities is demanding. Herein, we present an alternative concept avoiding conventional macromolecules. Small glycodendrimers which fulfill single molecule entity criteria self-assemble to form non-covalent nanoparticles. These particles - not the individual molecules - function as polyvalent ligands, efficiently inhibiting polyvalent processes both in vitro and in vivo. The synthesis and characterization of these glycodendrimers is described in detail. Furthermore, we report on the characterization of the non-covalent nanoparticles formed and on their biological evaluation.
KW - Carbohydrate-protein interactions
KW - Dendrimers
KW - Multi-valency
KW - Polyvalency
KW - Self-assembly
UR - http://www.scopus.com/inward/record.url?scp=29344438189&partnerID=8YFLogxK
U2 - 10.1002/chem.200500901
DO - 10.1002/chem.200500901
M3 - Article
C2 - 16231293
AN - SCOPUS:29344438189
SN - 0947-6539
VL - 12
SP - 99
EP - 117
JO - Chemistry - A European Journal
JF - Chemistry - A European Journal
IS - 1
ER -