Development of mass spectrometry based techniques for the identification and determination of compositional variability in recombinant polyclonal antibody products.

Recombinant polyclonal antibodies are a new class of protein biologics, combining a defined number of target-specific antibodies, developed for therapeutic use across various indications. Development, manufacture, and release of recombinant polyclonal antibodies as well characterized biological products have required development of new chemistry, manufacturing, and control (CMC) technologies. Sym001 is a recombinant polyclonal antibody product containing 25 unique antibodies specific for the Rhesus D antigen. Sym001 drug substance is manufactured using a single batch technology, Sympress. Here, we describe the development of two novel mass spectrometry based methods that allows identification of individual antibodies in the Sym001 drug substance, through the determination of unique marker peptides or antibody light chains. The two methods provide an unambiguous identification of the 25 unique antibodies comprised in the Sym001 drug substance. Furthermore, the light chain liquid chromatography-mass spectrometry (LC-MS) method has been developed to allow the determination of the relative distribution of the 25 antibodies. The light chain LC-MS method has demonstrated linearity, specificity, precision, and accuracy, thus qualifying it for use in the quality control of recombinant polyclonal antibodies for human use. The development of such quantitative methods is central for the development and quality control of additional therapeutic recombinant polyclonal antibody products.

Reduced susceptibility of recombinant polyclonal antibodies to inhibitory anti-variable domain antibody responses.

The immunogenicity of therapeutic Abs is a concern as anti-drug Abs may impact negatively on the pharmacodynamics and safety profile of Ab drugs. The factors governing induction of anti-drug Abs are not fully understood. In this study, we describe a model based on mouse-human chimeric Abs for the study of Ab immunogenicity in vivo. Six chimeric Abs containing human V regions and mouse C regions were generated from six human anti-Rhesus D Abs and the Ag-binding characteristics of the parental human Abs were retained. Analysis of the immune response toward the individual chimeric Abs revealed the induction of anti-variable domain Abs including anti-idiotypic Abs against some of these, thereby demonstrating the applicability of the model for studying anti-drug Ab responses in vivo. Immunization of BALB/c, C57, and outbred NMRI mice with a polyclonal composition consisting of all six chimeric Abs demonstrated that the immunogenicity of the individual Abs was haplotype dependent. Chimeric Abs, which were nonimmunogenic when administered individually, did not become immunogenic as part of the polyclonal composition, implying the absence of epitope spreading. Ex vivo Ab-binding studies established a clear correlation between the level of immunogenicity of the Abs comprised in the composition and the impact on the pharmacology of the Abs. These analyses demonstrate that under these conditions this polyclonal Ab composition was generally less susceptible to blocking Abs than the respective mAbs.

Production of target-specific recombinant human polyclonal antibodies in mammalian cells.

We describe the expression and consistent production of a first target-specific recombinant human polyclonal antibody. An anti-Rhesus D recombinant polyclonal antibody, Sym001, comprised of 25 unique human IgG1 antibodies, was produced by the novel Sympress expression technology. This strategy is based on site-specific integration of antibody genes in CHO cells, using the FRT/Flp-In recombinase system. This allows integration of the expression construct at the same genomic site in the host cells, thereby reducing genomic position effects. Different bioreactor batches of Sym001 displayed highly consistent manufacturing yield, antibody composition, binding potency, and functional activity. The results demonstrate that diverse recombinant human polyclonal antibody compositions can be reproducibly generated under conditions directly applicable to industrial manufacturing settings and present a first recombinant polyclonal antibody which could be used for treatment of hemolytic disease of the newborn and/or idiopathic thrombocytopenic purpura.

The phosphorylation pattern of human alphas1-casein is markedly different from the ruminant species.

Caseins are highly phosphorylated milk proteins assembled in large colloidal structures termed micelles. In the milk of ruminants, alphas1-casein has been shown to be extensively phosphorylated. In this report we have determined the phosphorylation pattern of human alphas1-casein by a combination of matrix-assisted laser desorption mass spectrometry and amino acid sequence analysis. Three phosphorylation variants were identified. A nonphosphorylated form, a variant phosphorylated at Ser18 and a variant phosphorylated at Ser18 and Ser26. Both phosphorylation sites are located in the amino acid recognition sequence of the mammary gland casein kinase. Notably, no phosphorylations were observed in the conserved region covering residues Ser70-Glu78, which is extensively phosphorylated in the ruminant alphas1-caseins.

Isolation and characterization of MUC15, a novel cell membrane-associated mucin.

The present work reports isolation and characterization of a highly glycosylated protein from bovine milk fat globule membranes, known as PAS III. Partial amino-acid sequencing of the purified protein allowed construction of degenerate oligonucleotide primers, enabling isolation of a full-length cDNA encoding a protein of 330 amino-acid residues. N-terminal amino-acid sequencing of derived peptides and the purified protein confirmed 76% of the sequence and demonstrated presence of a cleavable signal peptide of 23 residues, leaving a mature protein of 307 amino acids. Database searches showed no homology to any other proteins. A survey of the human genome indicated the presence of a corresponding gene on chromosome band 11p14.3. Isolation and sequencing of the complete cDNA sequence of the human homologue proved the existence of the gene product (334 amino-acid residues). This novel mucin-like protein was named MUC15 by appointment of the HUGO Gene Nomenclature Committee. The deduced amino-acid sequences of human and bovine MUC15 demonstrated structural hallmarks characteristic for other membrane-bound mucins, such as a serine, threonine, and proline-rich extracellular region with several potential glycosylation sites, a putative transmembrane domain, and a short cytoplasmic C-terminal. We have shown the presence of O-glycosylations, identified N-glycosylations at 11 of 15 potential sites in bovine MUC15, and a splice variant encoding a short secreted mucin. Finally, analysis of human and bovine cDNA panels and libraries showed MUC15 gene expression in adult human spleen, thymus, prostate, testis, ovary, small intestine, colon, peripheral blood leukocyte, bone marrow, lymph node, tonsil, breast, fetal liver, bovine lymph nodes and lungs of both species.