ABSTRACT: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. Analyses of metabolite utilization and formation of waste products indicated that the apoptotic resistant cell lines depleted all the lactate when grown in commercially available CD-CHO medium while significant levels (>1.8 g/L) accumulated in the host cell lines. When the lactate level was replenished daily in the apoptotic resistant cell lines, the cell lines consumed lactate and the culture longevity was extended up to four additional days compared to control cell lines. Furthermore, the anti-apoptosis cell lines also accumulated lower levels of ammonia. The ability of the apoptotic resistant cell lines to consume lactate was exploited by cultivating them in a ''high'' glucose medium containing 15 g/L (60 mM glucose) in which apoptotic resistant cell lines exhibited lower maximum lactate (1.8 g/L) compared to control cell lines which accumulated concentrations of lactate (2.2 g/L) that appeared to be deleterious for growth. The shaker flask titer of a therapeutic antibody product expressed in an apoptotic resistant cell line in ''high'' glucose medium reached 690 mg/ L compared to 390 mg/L for a cell line derived from a control host cell line. These results represent to our knowledge the first example in the literature in which manipulation of the apoptosis pathway has altered the nutrient consumption profile of mammalian cells in culture; findings that underscore the interdependence of the apoptotic cellular machinery and metabolism and provide greater flexibility to mammalian bioreactor process development.
We have shown elsewhere that equine-2 influenza virus (EIV; subtype H3N8) induced pronounced cell death in infected cells through apoptosis as demonstrated by DNA fragmentation assay and a combined TUNEL and immunostaining scheme. In this study, we investigated the mechanism of EIV-mediated cytotoxicity on a permissive mammalian epithelial cell line, Madin-Darby canine kidney (MDCK) cells. EIV infection increased the cellular levels of oxidative stress and c-Jun/AP-1 protein (which is known to be affected by oxidative stress), as well as its DNA binding activity. Increased production of TGF-beta1, an inducer of c-Jun N-terminal kinase or stress-activated protein kinase (JNK/SAPK) activation, was also detected in EIV-infected MDCK cells. It has been reported that TGF-beta may initiate a signaling cascade leading to JNK/SAPK activation. Addition of c-Jun antisense oligodeoxynucleotide, antioxidant N-acetyl-cysteine (NAC), JNK/SAPK inhibitor carvedilol, or TGF-beta-neutralizing antibody effectively blocked c-Jun/AP-1 upregulation and TGF-beta1 production mediated by EIV infection. These treatments also attenuated EIV-induced cytopathogenic effects (CPE) and apoptosis. Our results suggest that a stress-activated pathway is involved in apoptosis mediated by EIV infection. It is likely that EIV infection turns on the JNK/SAPK cascade, which modulates the activity of apoptosis-promoting regulatory factor c-Jun/AP-1 and epithelial growth inhibitory cytokine TGF-beta.
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. The maximal level of improvement in IVCC could be achieved by over-expression of either single anti-apoptotic genes, e.g., Bcl-2Δ (a mutated variant of Bcl-2) or Bcl-XL, or a combination of two or three anti-apoptotic genes, e.g., E1B-19K, Aven, and XIAPΔ. These cell lines yielded higher transient antibody production and a greater number of stable clones with high antibody yields. In a 5 L fed-batch bioreactor system, BΔ31-1, a stable clone expressing Bcl-2Δ, had a product titer that was 180% as compared to an optimal clone (Con-1) from the control cell line. Although lactate accumulated to more than 5 g/L in the control culture, its concentration was reduced in the anti-apoptotic BΔ31-1 cultures to below 1 g/L, confirming our earlier findings that cells over-expressing anti-apoptotic genes consume the lactate that would otherwise accumulate as a by-product in the culture medium. To the best of our knowledge, this is the first study to use the high throughput caspase screening method to identify CHO host cell lines with superior anti-apoptotic characteristics.
Equine nasal turbinate epithelial cells and tracheal rafts were maintained with sustained viability in culture. Both types of culture supported productive replication of equine influenza virus (equine-2, subtype H3N8) and cell death occurred through apoptosis following viral infection. Thus, primary respiratory epithelial cell and organ cultures of equine origin may be valuable as alternatives to the intact animal for studying the virus-host interaction of equine respiratory viruses including influenza.
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