Anne-Marie Rousseau scite author profile

The efficacy of therapeutic antibodies that induce antibody-dependent cellular cytotoxicity can be improved by reduced fucosylation. Consequently, fucosylation is a critical product attribute of monoclonal antibodies produced as protein therapeutics. Small molecule fucosylation inhibitors have also shown promise as potential therapeutics in animal models of tumors, arthritis, and sickle cell disease. Potent small molecule metabolic inhibitors of cellular protein fucosylation, 6,6,6-trifluorofucose per-O-acetate and 6,6,6-trifluorofucose (fucostatin I), were identified that reduces the fucosylation of recombinantly expressed antibodies in cell culture in a concentration-dependent fashion enabling the controlled modulation of protein fucosylation levels. 6,6,6-Trifluorofucose binds at an allosteric site of GDP-mannose 4,6-dehydratase (GMD) as revealed for the first time by the X-ray cocrystal structure of a bound allosteric GMD inhibitor. 6,6,6-Trifluorofucose was found to be incorporated in place of fucose at low levels (<1%) in the glycans of recombinantly expressed antibodies. A fucose-1-phosphonate analog, fucostatin II, was designed that inhibits fucosylation with no incorporation into antibody glycans, allowing the production of afucosylated antibodies in which the incorporation of non-native sugar is completely absent-a key advantage in the production of therapeutic antibodies, especially biosimilar antibodies. Inhibitor structure-activity relationships, identification of cellular and inhibitor metabolites in inhibitor-treated cells, fucose competition studies, and the production of recombinant antibodies with varying levels of fucosylation are described.

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Identification of CD7 as a Cognate of the Human K12 (SECTM1) Protein

Lyman

Escobar

Rousseau

et al. 2000

Journal of Biological Chemistry

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Asymmetrical Fc Engineering Greatly Enhances Antibody-dependent Cellular Cytotoxicity (ADCC) Effector Function and Stability of the Modified Antibodies

Gunasekaran

Wang

et al. 2014

Journal of Biological Chemistry

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Background: Co-crystal structure of Fc-Fc␥RIII complex revealed that Fc binds to Fc␥RIII asymmetrically. Results: We identified a panel of novel Fc heterodimers with enhanced ADCC activity. Conclusion: Asymmetrical Fc engineering is an efficient approach for enhancing ADCC activity and stability of engineered antibodies. Significance: The discovery could be applied in therapeutic antibodies for the treatment of cancers and infectious diseases.

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T.79. Influence of High Mannose Species of Recombinantly Produced Human IgG1 on Fc Receptor Based Effector Functions

Padaki

Liu

Wang

et al. 2009

Clinical Immunology

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