C-terminal lysine clipping of IgG1: impact on binding to human FcγRIIIa and neonatal Fc receptors.

Monoclonal antibodies (mAbs) display numerous structural attributes, some of them may impact their safety and/or efficacy profiles. C-terminal lysine clipping is a common phenomenon occurring during the bioproduction of mAbs and leads to variable amounts of final process-related charge variants. If Fc-glycosylation has been by far the most documented critical quality attribute (CQA), the potential impacts of mAb C-terminal lysine content is far less reported, particularly on the ability of these basic variants to bind human Fc receptors.

Investigation of monoclonal antibody dimers in a final formulated drug by separation techniques coupled to native mass spectrometry.

Therapeutic monoclonal antibodies (mAbs) are highly complex proteins that must be exhaustively characterized according to the regulatory authorities' recommendations. MAbs display micro-heterogeneity mainly due to their post-translational modifications, but also to their susceptibility to chemical and physical degradations. Among these degradations, aggregation is quite frequent, initiated by protein denaturation and then dimer formation.

Aggregates Dramatically Alter Fibrin Ultrastructure.

Among the many factors influencing fibrin formation and structure (concentration, temperature, composition, pH, etc.), it has been suggested that the polydispersity of fibrinogen may play an important role. We propose here a detailed investigation of the influence of this parameter on fibrin multiscale structure.

A generic method for intact and subunit level characterization of mAb charge variants by native mass spectrometry.

Monoclonal antibodies (mAbs) are heterogeneous macromolecules that display a complex isoform profile as a result of the large series of modifications they can undergo. Product-related charge variants that are associated with a loss of biological activity or affected half-life and immunogenicity are especially important. Consequently, they are often considered critical quality attributes such that acceptance criteria and controls should be established.

Human serum albumin presents isoform variants with altered neonatal Fc receptor interactions.

Human serum albumin (HSA) is the most abundant protein in plasma and presents the particularity, with IgG, to have an extraordinary long serum half-life conferred by its interaction with the neonatal Fc receptor (FcRn). If the impact of IgG post-translational modifications (PTMs) on FcRn binding is well documented, it is far less reported for HSA despite numerous PTMs occurring on the protein in plasma. HSA is susceptible to numerous degradation reactions in plasma, because of aging, oxidative stress or liver and pancreas related pathologies.