Application of C flux analysis to identify high-productivity CHO metabolic phenotypes.

Industrial bioprocesses place high demands on the energy metabolism of host cells to meet biosynthetic requirements for maximal protein expression. Identifying metabolic phenotypes that promote high expression is therefore a major goal of the biotech industry. We conducted a series of C flux analysis studies to examine the metabolic response to IgG expression during early stationary phase of CHO cell cultures grown in 3L fed-batch bioreactors.

The contribution of cell surface FcRn in monoclonal antibody serum uptake from the intestine in suckling rat pups.

The neonatal Fc receptor (FcRn) in intestinal epithelium is the primary mechanism for transfer of maternal immunoglobulin G (IgG) from suckled milk to serum; but the factors contributing to the rapid uptake of IgG are poorly understood. These studies help to determine the contribution of cell surface FcRn in IgG uptake in 2-week-old rat pups by varying local pH and binding conditions. Variants of a human wild-type (WT) IgG monoclonal antibody (mAb WT) were assessed for binding affinity (KD) to rat (r)FcRn at pH 6.

Mammalian cell-produced therapeutic proteins: heterogeneity derived from protein degradation.

Therapeutic glycoproteins, for example, antibodies (Abs) and Fc fusion proteins when produced in mammalian cells, such as Chinese hamster ovary (CHO) cells generally exhibit heterogeneity. Both the oligosaccharide moiety and the protein moiety contribute to this phenomenon. Non-enzymatic and enzymatic pathways of protein fragmentation generate heterogeneity in the polypeptide backbone.

The impact of anti-apoptotic gene Bcl-2∆ expression on CHO central metabolism.

Anti-apoptosis engineering is an established technique to prolong the viability of mammalian cell cultures used for industrial production of recombinant proteins. However, the effect of overexpressing anti-apoptotic proteins on central carbon metabolism has not been systematically studied. We transfected CHO-S cells to express Bcl-2∆, an engineered anti-apoptotic gene, and selected clones that differed in their Bcl-2∆ expression and caspase activity.

Human and non-human primate intestinal FcRn expression and immunoglobulin G transcytosis.

Purpose: To evaluate transcytosis of immunoglobulin G (IgG) by the neonatal Fc receptor (FcRn) in adult primate intestine to determine whether this is a means for oral delivery of monoclonal antibodies (mAbs).

Methods: Relative regional expression of FcRn and localization in human intestinal mucosa by RT-PCR, ELISA & immunohistochemistry. Transcytosis of full-length mAbs (sandwich ELISA-based detection) across human intestinal segments mounted in Ussing-type chambers, human intestinal (caco-2) cell monolayers grown in transwells, and serum levels after regional intestinal delivery in isoflurane-anesthetized cynomolgus monkeys.

Early prediction of instability of Chinese hamster ovary cell lines expressing recombinant antibodies and antibody-fusion proteins.

One of the most important criteria for the successful manufacture of a therapeutic protein (e.g., an antibody) is to develop a mammalian cell line that maintains stability of production.

Controlling apoptosis to optimize yields of proteins from mammalian cells.

Apoptosis is the foremost method of cell death in bioreactors and can be caused by nutrient limitation, toxin accumulation, and growth factor withdrawal. By delaying the onset of this form of programmed cell death, one can achieve longer sustained viabilities in culture, thereby increasing product yield. Described here is a genetic-based, step-by-step method to generate an apoptosis-resistant cell line.

Characterization of the proteases involved in the N-terminal clipping of glucagon-like-peptide-1-antibody fusion proteins.

In an attempt to develop high producing mammalian cell lines expressing glucagon-like-peptide-1-antibody fusion proteins (GLP-1), we have noted that the N-terminal GLP-1 portion of the fusion protein was susceptible to proteolytic degradation during cell culture, which resulted in an inactive product. The majority of the N-terminal clipped product appeared to be due to the removal of the entire biologically active peptide (30 amino acids) from the intact molecule. A number of parameters that influenced the degradative process were investigated.

Combining high-throughput screening of caspase activity with anti-apoptosis genes for development of robust CHO production cell lines.

A set of anti-apoptotic genes were over-expressed, either singly or in combination, in an effort to develop robust Chinese Hamster Ovary host cell lines suitable for manufacturing biotherapeutics. High-throughput screening of caspase 3/7 activity enabled a rapid selection of transfectants with reduced caspase activity relative to the host cell line. Transfectants with reduced caspase 3/7 activity were then tested for improved integrated viable cell count (IVCC), a function of peak viable cell density and longevity.

Expression of anti-apoptosis genes alters lactate metabolism of Chinese Hamster Ovary cells in culture.

In an effort to develop robust Chinese Hamster Ovary host cell lines, a variety of anti-apoptotic genes were over-expressed, either singly or in combination, followed by screening of transfectants for improved cell growth, extended longevity, reduced caspase 3/7 activity, and enhanced mitochondrial membrane potential (MMP). Two particular cell lines, one containing two anti-apoptotic genes, E1B-19K and Aven (EA167), and another containing three, E1B-19K, Aven, and a mutant of XIAP (EAX197), exhibited a reduction in caspase 3 activity of at least 60% and a 170% enhancement in mitochondrial membrane potential compared to controls when treated with staurosporine. In batch cell growth experiments, the peak viable cell densities and viabilities were higher resulting in a 186% increase in integrated viable cell densities.

Development of mammalian production cell lines expressing CNTO736, a glucagon like peptide-1-MIMETIBODY: factors that influence productivity and product quality.

In an attempt to develop a high producing mammalian cell line expressing CNTO736, a Glucagon like peptide-1-antibody fusion protein (also known as a Glucagon like peptide-1 MIMETIBODY), we have noted that the N-terminal GLP-1 portion of the MIMETIBODY was susceptible to proteolytic degradation during cell culture, which resulted in an inactive product. Therefore, a number of parameters that had an effect on productivity as well as product quality were examined. Results suggest that the choice of the host cell line had a significant effect on the overall product quality.

Genome-wide analysis of mouse myeloma cell lines expressing therapeutic antibodies.

Manufacturing cell line development involves transfection of therapeutic antibody genes into host cell lines and isolation of primary transfectomas that upon subcloning yield high expressing cell lines secreting the desired antibody. In an attempt to increase productivity of these cell lines, we set out to identify cellular genes whose expression level may affect antibody productivity. For this purpose, three different sets of mouse myeloma production cell lines expressing variable levels of three different therapeutic antibodies were subjected to microarray analysis using Murine GeneChip MG_U74Av2 arrays.

Correlation of heavy and light chain mRNA copy numbers to antibody productivity in mouse myeloma production cell lines.

Manufacturing cell line development at Centocor involves transfection of antibody genes into host cell lines and isolating primary transfectomas that upon subcloning yield high expressing cell lines for the desired antibody. In an attempt to increase productivity of these cell lines, we set out to identify the rate-limiting step in the process of antibody expression and secretion. For this purpose, 30 antibody expressing cell lines with variable antibody expression levels were analyzed for heavy-chain and light-chain mRNA expression levels.

BMP-7 regulates chemokine, cytokine, and hemodynamic gene expression in proximal tubule cells.

Background: Proximal tubule epithelial cells (PTEC) play a central role in the response of the kidney to insult by virtue of their production of chemokines and cytokines that signal an inflammatory response. Bone morphogenic protein-7 (BMP-7/OP-1), a member of the transforming growth factor-beta (TGF-beta) superfamily, has previously been demonstrated to reduce macrophage infiltration and tissue damage in animal models of acute and chronic renal failure. The present study was designed to define the molecular mechanism of BMP-7 action in human PTEC.

The 5' flanking region of the human bone morphogenetic protein-7 gene.

We describe here the cloning and characterization of the 5' flanking region of the human Bone Morphogenetic Protein-7 (BMP-7) gene from a 3.3 kb genomic DNA fragment. Functional analysis by transient transfection using the luciferase reporter gene indicated that this region had a low basal promoter activity in human Wilm's tumor derived renal (G401) and rat osteoblast (ROS 17/2.

Bone morphogenetic protein-7 modulates genes that maintain the vascular smooth muscle cell phenotype in culture.

Background: The vasculature is an important component in the musculoskeletal system, and vascularization is a key event in the development of normal cartilage and bone formation. Blood vessels deliver nutrients, oxygen, and precursor cells to maintain the structural and functional integrity of joints and soft and hard tissues. Therefore, agents that help to inhibit proliferation and retain the phenotype of vascular smooth muscle cells (SMCs) are of critical importance.

Bone morphogenetic protein-7 (osteogenic protein-1) inhibits smooth muscle cell proliferation and stimulates the expression of markers that are characteristic of SMC phenotype in vitro.

Vascular proliferative disorders are characterized by migration and proliferation of vascular smooth muscle cells (SMCs), loss of expression of SMC phenotype, and enhanced extracellular matrix synthesis (e.g., type I collagen).

Osteogenic protein-1 (bone morphogenetic protein-7) reduces severity of injury after ischemic acute renal failure in rat.

We have shown that osteogenic protein-1 (OP-1) (bone morphogenetic protein-7) is responsible for the induction of nephrogenic mesenchyme during embryonic kidney development. Gene knock-out studies showed that OP-1 null mutant mice die of renal failure within the first day of postnatal life. In the present study, we evaluated the effect of recombinant human OP-1 for the treatment of acute renal failure after 60 min bilateral renal artery occlusion in rats.

Mammalian cell expression of single-chain Fv (sFv) antibody proteins and their C-terminal fusions with interleukin-2 and other effector domains.

The production of several single-chain Fv (sFv) antibody proteins was examined by three modes of mammalian cell expression. Our primary model was the 741F8 anti-c-erbB-2 sFv, assembled as either the VH-VL or VL-VH, and expressed alone, with C-terminal cysteine for dimerization, or as fusion proteins with carboxyl-terminal effector domains, including interleukin-2, the B domain of staphylococcal protein A, the S-peptide of ribonuclease S, or hexa-histidine metal chelate peptide. Constructs were expressed and secreted transiently in 293 cells and stably in CHO or Sp2/0 cell lines, the latter yielding up to 10 mg per liter.

Role of inter-heavy and light chain disulfide bonds in the effector functions of human immunoglobulin IgG1.

The role of inter-heavy and light chain disulfide bonds in the effector functions of human IgG1 was investigated. This was accomplished by mutating appropriate sites in IgG1 such that the disulfide bond pattern now resembled that of IgG4. The effector functions of the mutant antibody were then compared to native IgG1 and IgG4.

Cloning and reexpression of a functional human IgM anti-lipid A antibody.

The human hybridoma cell line HR78 secretes a human antibody of the IgM isotype directed against bacterial endotoxin. The cell line produces low levels of antibody and, more importantly, the antibody product is likely to be impure since two and perhaps more species of heavy chain are being synthesized as judged by cloning and expression studies. To address these issues, the cell line was used as a source of mRNA for the construction of cDNA libraries and the subsequent isolation of the sequences encoding heavy and light chains.

Aglycosylated chimeric mouse/human IgG1 antibody retains some effector function.

The N-linked carbohydrate attachment site of human IgG1 Ab has been eliminated by site-directed mutagenesis. Effector functions of aglycosylated Ab was then compared to its native counterpart. Aglycosylated Ab failed to exhibit any ADCC activity, but a significant level of CDC activity was retained by the aglycosylated Ab.

The effect of dihydrofolate reductase-mediated gene amplification on the expression of transfected immunoglobulin genes.

Murine/human chimeric gamma 1 and K Ig genes were cloned adjacent to the gene coding for methotrexate-resistant dihydrofolate reductase. These constructs were introduced into myeloma cells, and lines containing stably integrated genes were selected. The integrated Ig genes were then amplified by selection of the cells in increasing concentrations of methotrexate.

A genetically engineered murine/human chimeric antibody retains specificity for human tumor-associated antigen.

Chimeric immunoglobulin genes were constructed by fusing murine variable region exons to human constant region exons. The ultimate goal was to produce an antibody capable of escaping surveillance by the human immune system while retaining the tumor specificity of a murine monoclonal. The murine variable regions were isolated from the functionally expressed kappa and gamma 1 immunoglobulin genes of the murine hybridoma cell line B6.