High throughput screening for rapid and reliable prediction of monovalent antibody binding behavior in flowthrough mode.

Flowthrough (FT) anion exchange (AEX) chromatography is a widely used polishing step for the purification of monoclonal antibody (mAb) formats. To accelerate downstream process development, high throughput screening (HTS) tools have proven useful. In this study, the binding behavior of six monovalent mAbs (mvAbs) was investigated by HTS in batch binding mode on different AEX and mixed-mode resins at process-relevant pH and NaCl concentrations.

Evaluation of selectivity in homologous multimodal chromatographic systems using in silico designed antibody fragment libraries.

This study describes the in silico design, surface property analyses, production and chromatographic evaluations of a diverse set of antibody Fab fragment variants. Based on previous findings, we hypothesized that the complementarity-determining regions (CDRs) constitute important binding sites for multimodal chromatographic ligands. Given that antibodies are highly diversified molecules and in particular the CDRs, we set out to examine the generality of this result.

Monoclonal Antibodies Follow Distinct Aggregation Pathways During Production-Relevant Acidic Incubation and Neutralization.

Purpose: Aggregation aspects of therapeutic monoclonal antibodies (mAbs) are of common concern to the pharmaceutical industry. Low pH treatment is applied during affinity purification and to inactivate endogenous retroviruses, directing interest to the mechanisms of acid-induced antibody aggregation.

Methods: We characterized the oligomerization kinetics at pH 3.

Investigation of protein selectivity in multimodal chromatography using in silico designed Fab fragment variants.

In this study, a unique set of antibody Fab fragments was designed in silico and produced to examine the relationship between protein surface properties and selectivity in multimodal chromatographic systems. We hypothesized that multimodal ligands containing both hydrophobic and charged moieties would interact strongly with protein surface regions where charged groups and hydrophobic patches were in close spatial proximity. Protein surface property characterization tools were employed to identify the potential multimodal ligand binding regions on the Fab fragment of a humanized antibody and to evaluate the impact of mutations on surface charge and hydrophobicity.

The immunological effects of oral polio vaccine provided with BCG vaccine at birth: a randomised trial.

Background: Vaccines may have non-specific effects. An observational study from Guinea-Bissau suggested that oral polio vaccine at birth (OPV0) provided with Bacillus Calmette-Guérin (BCG) vaccine was associated with down-regulation of the immune response to BCG vaccine 6 weeks later. Based on the previous finding, we wanted to test our a priori hypothesis that OPV would dampen the immune response to BCG, and secondarily to test immune responses to other antigens.

Model-based process development for the purification of a modified human growth hormone using multimodal chromatography.

This study demonstrates how the multimodal Capto adhere resin can be used in concert with calcium chloride or arginine hydrochloride as mobile phase modifiers to create a highly selective purification process for a modified human growth hormone. Importantly, these processes are shown to result in significant clearance of product related aggregates and host cell proteins. Furthermore, the steric mass action model is shown to be capable of accurately describing the chromatographic process and the aggregate removal.

Methods development in multimodal chromatography with mobile phase modifiers using the steric mass action model.

The ability to predict downstream protein purification processes is of great value in the biopharmaceutical industry; saving time, cost and resources. While many complex models exist, the appropriate use of simple models can be a useful tool for rapidly designing and optimizing processes as well as for risk analysis and establishing parameter ranges. In this study, the steric mass action isotherm is success-fully employed to predict the chromatographic behavior of a multimodal anionic Capto adhere systemin the presence of various mobile phase modifiers.