Dongxing Zha scite author profile

As the fastest growing class of therapeutic proteins, monoclonal antibodies (mAbs) represent a major potential drug class. Human antibodies are glycosylated in their native state and all clinically approved mAbs are produced by mammalian cell lines, which secrete mAbs with glycosylation structures that are similar, but not identical, to their human counterparts. Glycosylation of mAbs influences their interaction with immune effector cells that kill antibody-targeted cells. Here we demonstrate that human antibodies with specific human N-glycan structures can be produced in glycoengineered lines of the yeast Pichia pastoris and that antibody-mediated effector functions can be optimized by generating specific glycoforms. Glycoengineered P. pastoris provides a general platform for producing recombinant antibodies with human N-glycosylation.

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Expanding the Range of Substrate Acceptance of Enzymes: Combinatorial Active‐Site Saturation Test

Reetz

et al. 2005

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CASTing for success: The traditional problem of expanding the range of substrate acceptance of enzymes can be solved by creating focused libraries of mutants resulting from randomization of pairs of properly chosen amino acids around the active site (see example with the lipase from Pseudomonas aeruginosa, amino acid pairs are shown in the same color). CAST=combinatorial active‐site saturation test.

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Expanding the Range of Substrate Acceptance of Enzymes: Combinatorial Active‐Site Saturation Test

et al. 2005

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Mit CASTing zum Erfolg: Das bekannte Problem, die Substratakzeptanz von Enzymen zu erweitern, lässt sich dadurch lösen, dass fokussierte Mutantenbibliotheken durch Randomisierung von geeignet gewählten Aminosäurepaaren um das aktive Zentrum erzeugt werden (siehe das Beispiel mit der Lipase aus Pseudomonas aeruginosa; die Aminosäurepaare haben jeweils die gleiche Farbe). CAST=combinatorial active‐site saturation test.

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Production of monoclonal antibodies by glycoengineered Pichia pastoris

Potgieter

Cukan

Drummond

et al. 2009

Journal of Biotechnology

143

122

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Directed Evolution of an Enantioselective Enzyme through Combinatorial Multiple-Cassette Mutagenesis

Reetz

Wilensek

Zha

et al. 2001

Angew. Chem. Int. Ed.

203

109

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Recombinant methods work exceedingly well in the directed evolution of an enantioselective enzyme. For the kinetic resolution of the ester rac‐1 by a lipase [Eq. (a)] three steps were applied: 1) Generation of mutants by the error‐prone polymerase chain reaction (epPCR), 2) identification of “hot spots” in the enzyme by epPCR and simplified combinatorial multiple‐cassette mutagenesis (CMCM), and 3) extension of the process of CMCM to cover a defined region of protein sequence space. From lass then 40 000 enzyme varients generated, one was found which catalyzes the reaction with almost 50‐times higher enantioselectivity than the wild‐type enzyme.

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Gerichtete Evolution eines enantioselektiven Enzyms durch kombinatorische multiple Kassetten-Mutagenese

et al. 2001

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Glycoengineered Pichia produced anti-HER2 is comparable to trastuzumab in preclinical study

Zhang¹,

Li²,

Dumitru³

et al. 2011

mAbs

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Complete reversal of enantioselectivity of an enzyme-catalyzed reaction by directed evolution

et al. 2001

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Dongxing Zha

Optimization of humanized IgGs in glycoengineered Pichia pastoris

Expanding the Range of Substrate Acceptance of Enzymes: Combinatorial Active‐Site Saturation Test

Expanding the Range of Substrate Acceptance of Enzymes: Combinatorial Active‐Site Saturation Test

Production of monoclonal antibodies by glycoengineered Pichia pastoris

Directed Evolution of an Enantioselective Enzyme through Combinatorial Multiple-Cassette Mutagenesis

Gerichtete Evolution eines enantioselektiven Enzyms durch kombinatorische multiple Kassetten-Mutagenese

Glycoengineered Pichia produced anti-HER2 is comparable to trastuzumab in preclinical study

Complete reversal of enantioselectivity of an enzyme-catalyzed reaction by directed evolution

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