Troy McKelvey

Methionine oxidation commonly occurs in the Fc fragment of therapeutic monoclonal antibodies; however, its impact on antibody function has not been addressed. Using surface plasmon resonance and cell binding assays, we examined the impact of methionine oxidation on the binding of two humanized IgG1 antibodies to Fc gamma receptors (Fc gammaR) and to the neonatal Fc receptor (Fc Rn). A panel of Fc gammaRs, including Fc gammaRI, Fc gammaRIIa-131H, Fc gammaRIIa-131R, Fc gammaRIIb/c, Fc gammaRIII ALF, Fc gammaRIII ALV, and Fc gammaRIIIb was evaluated. The binding of oxidized IgG1 molecules to individual receptors remained the same with the exception of Fc gammaRIIa where a subtle decrease in binding to the 131H allele was observed. In contrast, but in agreement with recently reported structural changes associated with Met oxidation, binding to Fc Rn was significantly affected. An increase in K(D) values at pH 6.0 was observed with increasing degree of oxidation, reaching several-fold gr...

In vitro alkaline elution is a sensitive and specific short term assay which measures DNA strand breakage in a mammalian test system (primary rat hepatocytes). This lab has previously demonstrated the performance of the assay with known genotoxic and non-genotoxic compounds. The methodology employed has relatively low sample throughput and is labor-intensive, requiring a great deal of manual processing of samples in a format that is not amenable to automation. Here, we present an automated version of the assay. This high-throughput alkaline elution assay (HT-AE) was made possible through 3 key developments: (1) DNA quantitation using PicoGreen and OliGreen fluorescent DNA binding dyes; (2) design and implementation of a custom automation system; and (3) reducing the assay to a 96-well plate format. The assay can now be run with 5-50mg of test compound. HT-AE was validated in a similar manner as the original assay, including assessment of non-genotoxic and non-carcinogenic compounds and evaluation of cytotoxicity to avoid confounding effects of toxicity-associated DNA degradation. The validation test results from compounds of known genotoxic potential were used to set appropriate criteria to classify alkaline elution results for genotoxicity.

We compared the human immunodeficiency virus type 1 (HIV-1)-specific cellular immune responses elicited in nonhuman primates by HIV-1 gag-expressing replication-defective adenovirus serotype 5 (Ad5) or poxvirus vectors, used either alone or in combination with each other. The responses arising from a heterologous Ad5 priming-poxvirus boosting regimen were significantly greater than those elicited by homologous regimens with the individual vectors or by a heterologous poxvirus priming-Ad5 boosting regimen. The heterologous Ad5 priming-poxvirus boosting approach may have potential utility in humans as a means of inducing high levels of cellular immunity.

The growing antibody market and the pressure to improve productivity as well as reduce cost of production have fueled the development of alternative expression systems. The therapeutic function of many antibodies is influenced by N-linked glycosylation, which is affected by a combination of the expression host and culture conditions. This paper reports the generation of a glycoengineered Pichia pastoris strain capable of producing more than 1 g l(-1) of a functional monoclonal antibody in a robust, scalable and portable cultivation process with uniform N-linked glycans of the type Man(5)GlcNAc(2). N-linked glycan uniformity and volumetric productivity have been maintained across a range of cultivation process conditions including pH (5.5-7.5), temperature (16-24 degrees C), dissolved oxygen concentration (0.85-3.40 mg l(-1)) and specific methanol feed rate (9-19 mg g(-1) h(-1)) as well as across different cultivation scales (0.5, 3.0, 15 and 40 l). Compared to a marketed CHO-produced therapeutic antibody, the glycoengineered yeast-produced antibody has similar motilities on SDS-PAGE, comparable size exclusion chromatograms (SEC) and antigen binding affinities. This paper provides proof of concept that glycoengineered yeast can be used to produce functional full-length monoclonal antibodies at commercially viable productivities.