Response of Transformed and Normal Mouse Cell Lines to Anti-Melanin Compounds,Hyperthermia, and Radiation

Five cell lines (one parental, two transformed melanin producing, and two transformed non-melanin producing) were evaluated for the responses to 2- and 4-hydroxyanisole (2HA, 4HA) alone or combined with hyperthermia or radiation. All cells exhibited a non-specific toxic response to the two compounds and the effect was exposure time and concentration dependent and was greater for 4HA compared to 2HA. In addition, the two melanin-producing cell lines were more sensitive, demonstrating specific toxicity to such cell lines. The treatment with either 2HA or 4HA combined with heat and radiation resulted mostly in additive or antagonistic effects, except for one combination of 2HA plus radiation in the melanin-producing R25 cells. Thus, while these compounds may be useful in therapy for pigmented melanomas, combined treatment with radiation is not recommended.     

Response of transformed and normal mouse cell lines to anti-melanin compounds, hyperthermia, and radiation.

Five cell lines (one parental, two transformed melanin producing, and two transformed non-melanin producing) were evaluated for the responses to 2- and 4-hydroxyanisole (2HA, 4HA) alone or combined with hyperthermia or radiation. All cells exhibited a non-specific toxic response to the two compounds and the effect was exposure time and concentration dependent and was greater for 4HA compared to 2HA. In addition, the two melanin-producing cell lines were more sensitive, demonstrating specific toxicity to such cell lines. The treatment with either 2HA or 4HA combined with heat and radiation resulted mostly in additive or antagonistic effects, except for one combination of 2HA plus radiation in the melanin-producing R25 cells. Thus, while these compounds may be useful in therapy for pigmented melanomas, combined treatment with radiation is not recommended.     

Contagious cancer: lessons from the devil and the dog

Cancer is generally defined as uncontrollable growth of cells caused by genetic aberrations and/or environmental factors. Yet contagious cancers also occur. The recent emergence of a contagious cancer in Tasmanian devils has reignited interest in transmissible cancers. Two naturally occurring transmissible cancers are known: devil facial tumour disease and canine transmissible venereal tumour. Both cancers evolved once and have then been transmitted from one individual to another as clonal cell lines. The dog cancer is ancient; having evolved more than 6,000 years ago, while the devil disease was first seen in 1996. In this review I will compare and contrast the two diseases focusing on the life histories of the clonal cell lines, their evolutionary trajectories and the mechanisms by which they have achieved immune tolerance. A greater understanding of these contagious cancers will provide unique insights into the role of the immune system in shaping tumour evolution and may uncover novel approaches for treating human cancer.     

Radiobiology of alpha particles. III. Cell inactivation by alpha-particle traversals of the cell nucleus

Cell inactivation after exposure to collimated 3.5-MeV alpha particles in three hamster cell lines, V79, CHO-10B, and HS-23, one mouse cell line, C3H 10T1/2, and a human skin fibroblast cell line were studied. Several parameters were investigated for each cell line. Theoretical calculations were performed to find the distribution of energy deposited in the nuclear volume for each cell line. The mean number of alpha-particle traversals required to induce a lethal lesion varied between two for HS-23 cells and six for C3H 10T1/2 cells. The number of traversals per unit area and the total track length of alpha particles that inactivated a cell were found to be nearly constant for the hamster and mouse cell lines. These quantities were found to be lower for the human skin fibroblast cell line. The RBE values for all cell lines were found to be about 3.8 at 10% survival. Thus cell lines that are more sensitive to alpha radiation are also more sensitive to gamma radiation. The average number of alpha-particle traversals producing a single lethal lesion is greater than one. The passages of alpha particles through the cell nucleus that do not kill the cell may lead to carcinogenic effects.     

Th17 cell induction and immune regulatory effects

The T help 1 (Th1) and Th2 cell classification have provided the framework for understanding CD4⁺ T cell biology and the interplay between innate and adaptive immunity for almost two decades. Recent studies have defined a previously unknown arm of the CD4⁺ T cell effector response, the Th17 lineage, which promises to change our understanding of immune regulation, immune pathogenesis and host defense. The factors that specify differentiation of IL‐17 producing effector T cells from naïve T cell precursors are being rapidly discovered and are providing insights into mechanisms by which signals from cells of the innate immune system guide alternative pathways of Th1, Th2, or Th17 development. In this review, we will focus on recent studies that have identified new subsets of Th cells, new insights regarding the induced generation and differentiation mechanisms of Th17 cells and immune regulatory effects. J. Cell. Physiol. 211: 273–278, 2007. © 2007 Wiley‐Liss, Inc.     

Improving the efficiency of CHO cell line generation using glutamine synthetase gene knockout cells

Although Chinese hamster ovary (CHO) cells, with their unique characteristics, have become a major workhorse for the manufacture of therapeutic recombinant proteins, one of the major challenges in CHO cell line generation (CLG) is how to efficiently identify those rare, high‐producing clones among a large population of low‐ and non‐productive clones. It is not unusual that several hundred individual clones need to be screened for the identification of a commercial clonal cell line with acceptable productivity and growth profile making the cell line appropriate for commercial application. This inefficiency makes the process of CLG both time consuming and laborious. Currently, there are two main CHO expression systems, dihydrofolate reductase (DHFR)‐based methotrexate (MTX) selection and glutamine synthetase (GS)‐based methionine sulfoximine (MSX) selection, that have been in wide industrial use. Since selection of recombinant cell lines in the GS‐CHO system is based on the balance between the expression of the GS gene introduced by the expression plasmid and the addition of the GS inhibitor, L‐MSX, the expression of GS from the endogenous GS gene in parental CHOK1SV cells will likely interfere with the selection process. To study endogenous GS expression's potential impact on selection efficiency, GS‐knockout CHOK1SV cell lines were generated using the zinc finger nuclease (ZFN) technology designed to specifically target the endogenous CHO GS gene. The high efficiency (～2%) of bi‐allelic modification on the CHO GS gene supports the unique advantages of the ZFN technology, especially in CHO cells. GS enzyme function disruption was confirmed by the observation of glutamine‐dependent growth of all GS‐knockout cell lines. Full evaluation of the GS‐knockout cell lines in a standard industrial cell culture process was performed. Bulk culture productivity improved two‐ to three‐fold through the use of GS‐knockout cells as parent cells. The selection stringency was significantly increased, as indicated by the large reduction of non‐producing and low‐producing cells after 25 µM L‐MSX selection, and resulted in a six‐fold efficiency improvement in identifying similar numbers of high‐productive cell lines for a given recombinant monoclonal antibody. The potential impact of GS‐knockout cells on recombinant protein quality is also discussed. Biotechnol. Bioeng. 2012; 109:1007–1015. © 2011 Wiley Periodicals, Inc.     

Enhanced Heterologous Expression of Biologically Active Human Granulocyte Colony Stimulating Factor in Transgenic Tobacco BY-2 Cells by Localization to Endoplasmic Reticulum

Tobacco Bright Yellow-2 (BY-2) cells, one of the best characterized cell lines is an attractive expression system for heterologous protein expression. However, the expression of foreign proteins is currently hampered by their low yield, which is partially the result of proteolytic degradation. Human granulocyte colony stimulating factor (hG-CSF) is a hematopoietic cytokine. Recombinant hG-CSF is successfully being used for the treatment of chemotherapy-induced neutropenia in cancer patients. Here, we describe a simple strategy for producing biologically active hG-CSF in tobacco BY-2 cells, localized in the apoplast of BY-2 cells, as well as targeted to the endoplasmic reticulum (ER). ER targeting significantly enhanced recombinant production which scaled to 17.89 mg/l from 4.19 mg/l when expressed in the apoplasts. Southern blotting confirmed the stable integration of hG-CSF in the BY-2 nuclear genome, and the expression of hG-CSF was analysed by Western blotting. Total soluble protein containing hG-CSF isolated from positive calli showed proliferative potential when tested on HL-60 cell lines by MTT assay. We also report the potential of a Fluorescence-activated cell sorting approach for an efficient sorting of the hG-CSF-expressing cell lines, which will enable the generation of homogenous high-producing cell lines.     

Matrix metalloproteinase 11 depletion inhibits cell proliferation in gastric cancer cells

Our previous study has shown that matrix metalloproteinase 11 (MMP11) is highly expressed in tumor cell lines and primary tumor of gastric cancer (GC). In order to reveal the correlation between expression of MMP11 and biological features of GC cell, we have constructed the recombinant plasmids producing hairpin small interfering RNA (siRNA) to target MMP11 mRNA using a vector-based RNA interference technology. Stable transfection of recombinants into GC cell line BGC823 specifically depleted the mRNA and protein of MMP11 as demonstrated by RT-PCR and Western blotting analysis. The siRNA-treated cells exhibited significantly decreased growth ability compared with mock transfectants and parental BGC823 cells. Furthermore, colony formation of MMP11 deficient cells was dramatically inhibited in soft agar and tumorigenicity was reduced in nude mice, respectively. These results provide new insights into the function of MMP11 and suggest that MMP11 may play an important role in the control of cell proliferation and tumor development in GC.     

Differential growth kinetics are exhibited by human immunodeficiency virus type 1 TAR mutants.

The human immunodeficiency virus type 1 (HIV-1) TAR element is critical for the activation of gene expression by the transactivator protein, Tat. Mutagenesis has demonstrated that a stable stem-loop RNA structure containing both loop and bulge structures transcribed from TAR is the major target for tat activation. Though transient assays have defined elements critical for TAR function, no studies have yet determined the role of TAR in viral replication because of the inability to generate viral stocks containing mutations in TAR. In the current study, we developed a strategy which enabled us to generate stable 293 cell lines which were capable of producing high titers of different viruses containing TAR mutations. Viruses generated from these cell lines were used to infect both T-lymphocyte cell lines and peripheral blood mononuclear cells. Viruses containing TAR mutations in either the upper stem, the bulge, or the loop exhibited dramatically decreased HIV-1 gene expression and replication in all cell lines tested. However, we were able to isolate lymphoid cell lines which stably expressed gene products from each of these TAR mutant viruses. Though the amounts of virus in these cell lines were roughly equivalent, cells containing TAR mutant viruses were extremely defective for gene expression compared with cell lines containing wild-type virus. The magnitude of this decrease in viral gene expression was much greater than previously seen in transient expression assays using HIV-1 long terminal repeat chloramphenicol acetyltransferase gene constructs. In contrast to the defects in viral growth found in T-lymphocyte cell lines, several of the viruses containing TAR mutations were much less defective for gene expression and replication in activated peripheral blood mononuclear cells. These results indicate that maintenance of the TAR element is critical for viral gene expression and replication in all cell lines tested, though the cell type which is infected is also a major determinant of the replication properties of TAR mutant viruses.     

Packaging system for rapid production of murine leukemia virus vectors with variable tropism.

A method for rapidly producing helper-free murine leukemia virus (MLV) without using packaging cell lines is described. Viruses bearing ecotropic or amphotropic MLV or Rous sarcoma virus envelope glycoprotein and containing various retroviral vector genomes have been prepared with titers 30 to 40-fold higher than those produced by transient transfection of standard packaging cells. This system can be used to alter the cellular tropism of MLV by incorporating other envelope glycoproteins and to prepare retroviral vector stocks without establishing stable producer cell lines. This method will be particularly useful for preparing viruses that encode toxic proteins and for the rapid analysis of panels of mutant envelope glycoproteins.     

Isolation of cell lines from differentiating embryonal carcinoma cultures

We report the isolation of six cell lines (designated EB cell lines) from cultures of the hypoxanthine guanine phosphoribosyl transferase-deficient (HGPRT-) feeder-dependent embryonal carcinoma cell line PSA4TG12 which have undergone in vitro differentiation, and of clonal derivatives of these lines. Whereas some lines possess quasi-diploid karyotypes similar to that of PSA4TG12, others are markedly aneuploid. Cell line EB26/1 and its clonal derivatives undergo adipogenesis in cultures maintained at confluence; in tumours formed by injection into syngeneic mice they produce muscle-like cells, cartilage and bone in addition to adipose cells. We therefore propose that EB26/1 and its clones are aneuploid derivatives of an uncommitted mesodermal cell. Cell line EB28/5 forms tumours with a histological appearance resembling that of yolk sac carcinoma but does not express biochemical markers characteristic of visceral or parietal endoderm. Cell line EB28/10n has a myoblast-like culture morphology and in tumours is capable of producing muscle-like cells, cartilage and bone. A high specific activity of alkaline phosphatase is present is two of five EB cell lines assayed, and plasminogen activator activity is present in all five. Since the EB cell lines represent populations of cells each expressing a particular subset of the genetic information present in a common ancestral genome, they will be invaluable for studying the developmental regulation of gene expression.     

Directed differentiation of rhesus monkey ES cells into pancreatic cell phenotypes

Embryonic stem cells (ES) can self-replicate and differentiate into all cell types including insulin-producing, beta-like cells and could, therefore, be used to treat diabetes mellitus. To date, results of stem cell differentiation into beta cells have been debated, largely due to difficulties in defining the identity of a beta cell. We have recently differentiated non-human primate (rhesus) embryonic stem (rES) cell lines into insulin producing, beta-like cells with the beta cell growth factor, Exendin-4 and using C-peptide as a phenotype marker. Cell development was characterized at each stage by gene and protein expression. Insulin, NKX6.1 and glucagon mRNA were expressed in stage 4 cells but not in early undifferentiated cells. We concluded that rES cells could be differentiated ex vivo to insulin producing cells. These differentiated rES cells could be used to develop a non-human primate model for evaluating cell therapy to treat diabetes. To facilitate the identification of beta-like cells and to track the cells post-transplantation, we have developed a marker gene construct: fusing the human insulin promoter (HIP) to the green fluorescent protein (GFP) gene. This construct was transfected into stage 3 rES derived cells and subsequent GFP expression was identified in C-peptide positive cells, thereby substantiating endogenous insulin production by rES derived cells. Using this GFP detection system, we will enrich our population of insulin producing rES derived cells and track these cells post-transplantation in the non-human primate model.     

Profiling conserved microRNA expression in recombinant CHO cell lines using Illumina sequencing

MicroRNAs (miRNAs) are small, non-coding RNAs that regulate multiple aspects of cell physiology. The differential expression of conserved miRNAs in two Chinese hamster ovary (CHO) cell lines producing recombinant proteins was examined relative to the CHO-K1 cell line. A total of 190 conserved CHO miRNAs were identified through homology with known human and rodent miRNAs. More than 80% of these miRNAs showed differential expression in recombinant CHO cell lines. The small RNA sequencing data were analyzed in context of the CHO-K1 genome to examine miRNA organization and develop sequence-specific miRNA resources for CHO cells. The identification and characterization of CHO miRNAs will facilitate the use of miRNA tools in cell line engineering efforts to improve product yield and quality.     

Development and characterization of a cell line for large-scale, serum-free production of recombinant adeno-associated viral vectors

BACKGROUND: One of the major limitations to the use of adeno-associated virus (AAV) vectors for gene therapy has been the difficulty in producing enough vector to supply a clinical trial. More than 20 000 roller bottles may be required to generate AAV by the traditional transient transfection process to treat 50 patients. A scalable AAV producer cell line grown in serum-free media will meet the needs for the manufacture of AAV gene therapeutics. METHODS: A packaging cell line was generated by introducing the AAV rep and cap genes into A549 cells. From this packaging cell line, a number of producer cell lines were generated by infecting the packaging cell with the appropriate AAV vector. Producer cell lines were then adapted to serum-free suspension conditions for growth in bioreactors. RESULTS: We report here the development of six AAV producer cell lines that generate > 10(4) particles/cell. The rAAV vector preparations from these cell lines have physical and functional characteristics similar to rAAV vectors prepared by transient transfection. To enable large-scale production, producer cell lines were adapted to serum-free suspension and we demonstrate production of AAV at the 15 L scale. In addition, vector preparations from these cell lines were shown to be free of wild-type AAV. CONCLUSIONS: AAV producer cell lines can be readily scaled to meet the needs of clinical trials. One 500 L bioreactor of these producer cells can produce the equivalent of 2500 high capacity roller bottles or 25 000 T-175 tissue culture flasks.     

Generation of goats by nuclear transfer: a retrospective analysis of a commercial operation (1998–2010)

At LFB USA, Inc., the ultimate use for transgenic cloned goats is for the production of recombinant human protein therapeutics in their milk. This retrospective analysis of the Somatic Cell Nuclear Transfer (SCNT) program, spanning from 1998 to 2010, examined parameters potentially affecting the outcomes and efficiencies in this commercial operation. Over 37,000?+?ova were utilized in the SCNT protocol producing a total of 203 cloned goats. Fifty one (51) clones were produced from non-transfected (transgenic and non-transgenic animal donor) cell lines and 152 clones were produced from transfected cell lines. Comparisons and summaries of (a) transfected versus non-transfected cell lines, (b) relationship of SCNT parameters to offspring produced, (c) skin versus fetal cells, (d) fresh versus cryopreserved cells, (e) parameters from all cell lines used versus those producing SCNT offspring, (f) variation among cell sources, (g) methods of SCNT parturition management and effects on live offspring, and lastly (h) SCNT variation by program are reported. Findings indicate that (a) non-transfected cell lines were more efficient versus transfected cell lines in generating viable cloned offspring on a per reconstructed embryo transferred basis, (b) transfected fetal fibroblasts had improved efficiency versus transfected skin fibroblasts, (c) the percentage of non-transfected cell lines that produced offspring was statistically higher than transfected cell lines, (d) and induction of parturition improved the percentage of viable offspring. In summary, this retrospective analysis on the SCNT process has identified certain parameters for improved efficiency in producing viable cloned goats in a commercial setting.

     

Baculovirus as versatile vectors for protein expression in insect and mammalian cells

Today, many thousands of recombinant proteins, ranging from cytosolic enzymes to membrane-bound proteins, have been successfully produced in baculovirus-infected insect cells. Yet, in addition to its value in producing recombinant proteins in insect cells and larvae, this viral vector system continues to evolve in new and unexpected ways. This is exemplified by the development of engineered insect cell lines to mimic mammalian cell glycosylation of expressed proteins, baculovirus display strategies and the application of the virus as a mammalian-cell gene delivery vector. Novel vector design and cell engineering approaches will serve to further enhance the value of baculovirus technology.