Characterization of antithrombin isoforms and latent forms by ion exchange chromatography coupled to mass spectrometry.

Antithrombin is a key protein of the coagulation system belonging to the serine protease inhibitor family. Antithrombin preparations are used as a therapeutic treatment for patients with decreased antithrombin activity. Elucidating the structural features of this protein is an important part of the control strategy to assure a high quality.

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.

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.

Middle-up analysis of monoclonal antibodies after combined IgdE and IdeS hinge proteolysis: Investigation of free sulfhydryls.

Despite significant analytical improvements during this last decade, characterizing the whole integrity of monoclonal antibodies during their bioproduction remains a challenge. In this study, we report a new analytical approach to evaluate the overall heterogeneity/integrity of mAbs by LC-MS after combined proteolysis at their lower- and upper-hinge sites using the immunoglobulin-degrading enzymes IdeS and IgdE respectively. The whole sample preparation did not use any harsh conditions such as low pH, high temperature or reductive conditions and enables the splitting of mAbs structure into three fragments, namely the hinge dimer, Fab and Fc/2.

Biochemical characterization of LR769, a new recombinant factor VIIa bypassing agent produced in the milk of transgenic rabbits.

Background: The bypassing agent factor VII (FVIIa) is a first-line therapy for the treatment of acute bleeding episodes in patients with haemophilia and high-titre inhibitors. FVIIa is a highly post-translationally modified protein that requires eukaryotic expression systems to produce a fully active molecule. A recombinant FVIIa was produced in the milk of transgenic rabbits to increase expression and provide an efficient, safe and affordable product after purification to homogeneity (LR769).

Mass spectrometry based analysis of human plasma-derived factor X revealed novel post-translational modifications.

Human coagulation factor X is a central component of the blood coagulation cascade that converts, under its activated form, prothrombin into thrombin. Generation of thrombin is the final step of the clotting cascade that leads to the clot by polymerization of fibrinogen molecules into a fibrin network. Today, research of new by-passing agents of the coagulation may contribute to an increased interest for human factor X, which may, in consequence, lead to the need of a more exhaustive picture of its structural features.

Site-specific N-glycosylation analysis of human factor XI: Identification of a noncanonical NXC glycosite.

Human factor XI (hFXI) is a 160-kDa disulphide-linked homodimer zymogen involved in the coagulation cascade. Its deficiency results in bleeding diathesis referred to as hemophilia C. hFXI bears five N-glycosylation consensus sites per monomer, N72 , N108 , N335 on the heavy chain and N432 , N473 on the light chain.

N-/O-glycosylation analysis of human FVIIa produced in the milk of transgenic rabbits.

Human coagulation factor VIIa is a glycoprotein that promotes haemostasis through activation of the coagulation cascade extrinsic pathway. Most haemophilia A/B patients with inhibitors are treated by injection of plasma-derived or recombinant FVIIa. The use of recombinant products raises questions about the ability of the host cell to produce efficiently post-translationally modified proteins.

Differential investigations from plasma-derived and recombinant Factor IX revealed major differences in post-translational modifications of activation peptides.

Post-translational modifications (PTMs) located on the activation peptide (AP) of recombinant FIX (rFIX, BeneFIX(®) ) and plasma-derived FIX (pdFIX, Betafact(®) ) have been investigated by mass spectrometry to review the structural differences between these two products. Three major structural differences were pointed out. rFIX contains a low amount of phosphorylated and sulphated AP (4% for rFIX vs.

Glycosylation pattern of mature dimeric leukocyte and recombinant monomeric myeloperoxidase: glycosylation is required for optimal enzymatic activity.

The involvement of myeloperoxidase (MPO) in various inflammatory conditions has been the scope of many recent studies. Besides its well studied catalytic activity, the role of its overall structure and glycosylation pattern in biological function is barely known. Here, the N-glycan composition of native dimeric human MPO purified from neutrophils and of monomeric MPO recombinantly expressed in Chinese hamster ovary cells has been investigated.

Analysis of N- and O-linked glycans from glycoproteins using MALDI-TOF mass spectrometry.

Glycosylation represents the most common of all known protein post-translational modifications. Carbohydrates can modulate the biological functions of a glycoprotein, protect a protein against hydrolysis via protease activity, and reduce or prevent aggregation of a protein. The determination of the carbohydrate structure and function in glycoproteins remains one of the most challenging tasks given to biochemists, as these molecules can exhibit complex branched structures that can differ in linkage and in the level of branching.

A mass spectrometric strategy for profiling glycoproteinoses, Pompe disease, and sialic acid storage diseases.

Glycoproteinoses, Pompe disease, and sialic acid storage diseases are characterized by a massive accumulation of unprocessed oligosaccharides and/or glycoconjugates in urine. The identification of these glycocompounds is essential for a proper diagnosis. In this study, we investigated the potential of MALDI-TOF-MS to identify glycocompounds present in urine from patients with different inborn errors of glycan metabolism.

A rapid mass spectrometric strategy for the characterization of N- and O-glycan chains in the diagnosis of defects in glycan biosynthesis.

Glycosylation of proteins is a very complex process which involves numerous factors such as enzymes or transporters. A defect in one of these factors in glycan biosynthetic pathways leads to dramatic disorders named congenital disorders of glycosylation (CDG). CDG can affect the biosynthesis of not only protein N-glycans but also O-glycans.

The use of mass spectrometry for the proteomic analysis of glycosylation.

Of all protein PTMs, glycosylation is by far the most common, and is a target for proteomic research. Glycosylation plays key roles in controlling various cellular processes and the modifications of the glycan structures in diseases highlight the clinical importance of this PTM. Glycosylation analysis remains a difficult task.

Site-specific glycosylation analysis of the bovine lysosomal alpha-mannosidase.

Lysosomal alpha-mannosidase is a broad specificity exoglycosidase involved in the ordered degradation of glycoproteins. The bovine enzyme is used as an important model for understanding the inborn lysosomal storage disorder alpha-mannosidosis. This enzyme of about 1,000 amino acids consists of five peptide chains, namely a- to e-peptides and contains eight N-glycosylation sites.

Structural analysis of permethylated oligosaccharides using electrospray ionization quadrupole time-of-flight tandem mass spectrometry and deutero-reduction.

Deutero-reduced permethylated oligosaccharides were analyzed by electrospray ionization mass spectrometry (ESI-MS) and tandem mass spectrometry (MS/MS) using a hybrid quadrupole orthogonal acceleration time-of-flight mass spectrometer, fitted with a nanoflow ESI source. Under these ionization conditions such derivatives preferentially form sodiated molecular species in addition to protonated molecular species. Under collision-induced dissociation, protonated and sodiated molecular species yield simple and predictable fragment mass spectra.