BIVV001, a new class of factor VIII replacement for hemophilia A that is independent of von Willebrand factor in primates and mice.

Factor VIII (FVIII) replacement products enable comprehensive care in hemophilia A. Treatment goals in severe hemophilia A are expanding beyond low annualized bleed rates to include long-term outcomes associated with high sustained FVIII levels. Endogenous von Willebrand factor (VWF) stabilizes and protects FVIII from degradation and clearance, but it also subjects FVIII to a half-life ceiling of ∼15 to 19 hours.

Application of a label-free and domain-specific free thiol method in monoclonal antibody characterization.

Characterization of free thiol variants in antibody therapeutics is important for biopharmaceutical development, as the presence of free thiols may have an impact on aggregate formation, structural and thermal stability, as well as antigen-binding potency of monoclonal antibodies. Most current methods for free thiol quantification involve labeling of free thiol groups by different tagging molecules followed by UV, fluorescence or mass spectrometry (MS) detection. Here, we optimized a label-free liquid chromatography (LC)-UV/MS method for free thiol quantification at a subunit level and compared this method with two orthogonal and conventional approaches, Ellman's assay and peptide mapping with differential alkylation.

Influence of glycan modification on IgG1 biochemical and biophysical properties.

Monoclonal antibodies (mAbs) are the fastest growing class of biopharmaceuticals. The specific therapeutic tasks vary among different mAbs, which may include neutralization of soluble targets, activation of cytotoxic pathways, targeted drug delivery, and diagnostic imaging. The specific therapeutic goal defines which interactions of the antibody with its multiple physiological partners are most critical for function, and which ones are irrelevant or indeed detrimental.

Analysis of dynamic changes in the proteome of a Bcl-XL overexpressing Chinese hamster ovary cell culture during exponential and stationary phases.

Mammalian cell cultures used for biopharmaceutical production undergo various dynamic biological changes over time, including the transition of cells from an exponential growth phase to a stationary phase during cell culture. To better understand the dynamic aspects of cell culture, a quantitative proteomics approach was used to identify dynamic trends in protein expression over the course of a Chinese hamster ovary (CHO) cell culture for the production of a recombinant monoclonal antibody and overexpressing the antiapoptotic gene Bcl-xl. Samples were analyzed using a method incorporating iTRAQ labeling, two-dimensional LC/MS, and linear regression calculations to identify significant dynamic trends in protein abundance.

Residual metals cause variability in methionine oxidation measurements in protein pharmaceuticals using LC-UV/MS peptide mapping.

Methionine oxidation has been demonstrated to play an important role in protein stability in vitro and in vivo. It may also cause changes in biological activity and immunogenicity profile of therapeutic proteins. Therefore, it is critical to monitor methionine oxidation in biopharmaceuticals during process and formulation development, as well as long-term stability studies.

Proteomic profiling of a high-producing Chinese hamster ovary cell culture.

The productivity of mammalian cell culture expression systems is critically important to the production of biopharmaceuticals. In this study, a high-producing Chinese hamster ovary cell culture which was transfected with the apoptosis inhibitor Bcl-X(L) gene was compared to a low-producing control that was not transfected. Shotgun proteomics was used to compare the high and low-producing fed-batch cell cultures at different growth time points.

Application of imaging capillary IEF for characterization and quantitative analysis of recombinant protein charge heterogeneity.

In this work several aspects of imaging capillary IEF (icIEF) application for charge heterogeneity analysis of recombinant proteins and monoclonal antibodies have been discussed. Advantages of the method as compared with traditional approaches for determination of biomolecule charge heterogeneity, such as gel and IEC, have been demonstrated. Correlation of icIEF-detected protein isoforms with the charge heterogeneity determined by IEC has been shown for a representative recombinant monoclonal antibody.