Your search keyword '"Gideon Foseh"' showing total 9 results

1. GLI1+ perivascular, renal, progenitor cells: The likely source of spontaneous neoplasia that created the AGMK1-9T7 cell line

Author

Andrew M. Lewis, Gideon Foseh, Wei Tu, Keith Peden, Adovi Akue, Mark KuKuruga, Daniel Rotroff, Gladys Lewis, Ilya Mazo, and Steven R. Bauer

Subjects

Medicine, Science

Published

2023

2. The AGMK1-9T7 cell model of neoplasia: Evolution of DNA copy-number aberrations and miRNA expression during transition from normal to metastatic cancer cells

Author

Andrew M. Lewis, Rachael Thomas, Matthew Breen, Keith Peden, Belete Teferedegne, Gideon Foseh, Alison Motsinger-Reif, Daniel Rotroff, and Gladys Lewis

Subjects

Medicine, Science

Abstract

To study neoplasia in tissue culture, cell lines representing the evolution of normal cells to tumor cells are needed. To produce such cells, we developed the AGMK1-9T7 cell line, established cell banks at 10-passage intervals, and characterized their biological properties. Here we examine the evolution of chromosomal DNA copy-number aberrations and miRNA expression in this cell line from passage 1 to the acquisition of a tumorigenic phenotype at passage 40. We demonstrated the use of a human microarray platform for DNA copy-number profiling of AGMK1-9T7 cells using knowledge of synteny to ‘recode’ data from human chromosome coordinates to those of the African green monkey. This approach revealed the accumulation of DNA copy-number gains and losses in AGMK1-9T7 cells from passage 3 to passage 40, which spans the period in which neoplastic transformation occurred. These alterations occurred in the sequences of genes regulating DNA copy-number imbalance of several genes that regulate endothelial cell angiogenesis, survival, migration, and proliferation. Regarding miRNA expression, 195 miRNAs were up- or down-regulated at passage 1 at levels that appear to be biologically relevant (i.e., log2 fold change >2.0 (q

Published

2022

3. Responsiveness to basement membrane extract as a possible trait for tumorigenicity characterization

Author

Haruhiko Murata, Romelda Omeir, Wei Tu, Lynda Lanning, Kathryn Phy, Gideon Foseh, Andrew M. Lewis, Jr., and Keith Peden

Subjects

Immunologic diseases. Allergy, RC581-607

Abstract

Immortalized cell lines used to produce vaccines are expected to be described in terms of their tumorigenicity. However, current in vivo tumorigenicity assays can be time-consuming and results can be equivocal, especially for weakly tumorigenic cells. Basement membrane extract (BME) derived from the Engelbreth-Holm-Swarm mouse tumor, such as Matrigel and Cultrex, consists of laminin, collagen IV, entactin, heparan sulfate, and proteoglycans, as well as biologically active peptides and growth factors. For nearly three decades, BME has been used in cancer research to enhance tumorigenicity assays (both tumor “take” as well as tumor growth are substantially improved). We assessed the feasibility of using BME to facilitate the evaluation of vaccine cell substrate tumorigenicity. Vero cells (WHO 10-87) were serially passaged and banked at every ten passages beginning with p140; for the present study, low-passage Vero cells (Vero LP, originating from cells banked at p140) and high-passage Vero cells (Vero HP, originating from cells banked at p250) were used. In addition, Vero TPX2 and Vero NM1, cell lines established from tumors formed in nude mice by Vero HP cells, as well as other cell lines relevant to vaccine production (HeLa, MDCK, 293, and ARPE-19), were assessed. Female adult athymic nude mice were injected subcutaneously with cells in the absence or presence of BME. We observed that the tumorigenicity of ARPE-19 cells as well as Vero cells below passage 258 (Vero LP and Vero HP; previously characterized as non-tumorigenic or weakly tumorigenic, respectively) was not enhanced by BME. In contrast, BME shortened the latency and decreased the tumor-producing cell dose of HeLa, 293, and MDCK cells as well as the tumorigenic Vero derivatives TPX2 and NM1. Thus, responsiveness to BME may reflect the status of the neoplastic process and possibly serve as a useful trait for better defining the tumorigenic phenotype of cells. Keywords: Tumor, Tumorigenicity, Vero, Nude mouse, Basement membrane, Matrigel

Published

2019

4. A mouse strain defective in both T cells and NK cells has enhanced sensitivity to tumor induction by plasmid DNA expressing both activated H-Ras and c-Myc.

Author

Li Sheng-Fowler, Wei Tu, Haiqing Fu, Haruhiko Murata, Lynda Lanning, Gideon Foseh, Juliete Macauley, Donald Blair, Stephen H Hughes, John M Coffin, Andrew M Lewis, and Keith Peden

Subjects

Medicine, Science

Abstract

As part of safety studies to evaluate the risk of residual cellular DNA in vaccines manufactured in tumorigenic cells, we have been developing in vivo assays to detect and quantify the oncogenic activity of DNA. We generated a plasmid expressing both an activated human H-ras gene and murine c-myc gene and showed that 1 µg of this plasmid, pMSV-T24-H-ras/MSV-c-myc, was capable of inducing tumors in newborn NIH Swiss mice. However, to be able to detect the oncogenicity of dominant activated oncogenes in cellular DNA, a more sensitive system was needed. In this paper, we demonstrate that the newborn CD3 epsilon transgenic mouse, which is defective in both T-cell and NK-cell functions, can detect the oncogenic activity of 25 ng of the circular form of pMSV-T24-H-ras/MSV-c-myc. When this plasmid was inoculated as linear DNA, amounts of DNA as low as 800 pg were capable of inducing tumors. Animals were found that had multiple tumors, and these tumors were independent and likely clonal. These results demonstrate that the newborn CD3 epsilon mouse is highly sensitive for the detection of oncogenic activity of DNA. To determine whether it can detect the oncogenic activity of cellular DNA derived from four human tumor-cell lines (HeLa, A549, HT-1080, and CEM), DNA (100 µg) was inoculated into newborn CD3 epsilon mice both in the presence of 1 µg of linear pMSV-T24-H-ras/MSV-c-myc as positive control and in its absence. While tumors were induced in 100% of mice with the positive-control plasmid, no tumors were induced in mice receiving any of the tumor DNAs alone. These results demonstrate that detection of oncogenes in cellular DNA derived from four human tumor-derived cell lines in this mouse system was not possible; the results also show the importance of including a positive-control plasmid to detect inhibitory effects of the cellular DNA.

Published

2014

5. Assessment of potential miRNA biomarkers of VERO-cell tumorigenicity in a new line (AGMK1-9T7) of African green monkey kidney cells

Author

Belete Teferedegne, Andrew M. Lewis, Gladys Lewis, Juliete Macauley, Alison Motsinger-Rief, Gideon Foseh, and Daniel M. Rotroff

Subjects

0301 basic medicine, Carcinogenesis, Mice, Nude, Biology, medicine.disease_cause, Kidney, Cell Line, 03 medical and health sciences, 0302 clinical medicine, Neoplasms, microRNA, Chlorocebus aethiops, medicine, Animals, Humans, Epigenetics, Vero Cells, General Veterinary, General Immunology and Microbiology, Microarray analysis techniques, Public Health, Environmental and Occupational Health, Phenotype, Molecular biology, MicroRNAs, 030104 developmental biology, Infectious Diseases, Cell Transformation, Neoplastic, Cell culture, 030220 oncology & carcinogenesis, Vero cell, Molecular Medicine, Female, African Green Monkey, Biomarkers

Abstract

Patterns of microRNA expression appear to delineate the process of spontaneous neoplastic development-transformation (SPNDT) occurring in the African green monkey kidney (AGMK) VERO cell line (Teferedegne et al., 2010). Analysis of microarray data identified 6 microRNAs whose high-level of expression peaked when the World Health Organization 10-87 VERO cells became tumorigenic at passage (p) 190. Six miRNAs were identified as potential biomarkers for the expression of the VERO-cell tumorigenic phenotype (Teferedegne et al., 2014). However, the question remained whether these miRNA biomarkers are specific for VERO cells or can be generalizable to other cells originating from African green monkey kidneys. To examine miRNA expression patterns in AGMK cells at lower passage levels and to re-examine the identified miRNAs as biomarkers associated with tumorigenic phenotype of VERO cells in another independently-derived line, we established a new line of African green monkey kidney cells (AGMK1-9T7) by serially passaging kidney cells from another AGM. The AGMK1-9T7 cells became tumorigenic in nude mice at p40. Evaluation of miRNA expression at intervals from p1 to p40 revealed similarities between the evolution of miRNA expression during SPNDT in the AGMK1-9T7 cells and the 10-87 VERO cells. Four of the 6 potential biomarker miRNAs (miR-376a, miR-654-3p, miR-543, miR-134) in our earlier reports were detected by microarray in the AGMK1-9T7 cells; RT-qPCR analysis detected all 6 miRNAs. All 6 of these miRNAs have been associated with human tumors. Detection of the same miRNAs associated with the tumorigenic p40 AGMK1-9T7 cells and tumorigenic 10-87 VERO cells confirmed our proposal that these miRNA represent biomarkers for the tumor-forming ability of AGMK/VERO cells. The similarities of expression of miRNAs in different AGMK cell lines that were established 50years apart suggest that the process of SPNDT in these non-human primate cells in tissue culture is based upon similar genetic and epigenetic mechanisms.

Published

2016

6. Tumors Induced in Mice by Direct Inoculation of Plasmid DNA Expressing Both Activated H-ras and c-myc

Author

Li Sheng-Fowler, Fang Cai, Haiqing Fu, Yong Zhu, Brian Orrison, Gideon Foseh, Don G. Blair, Stephen H. Hughes, John M. Coffin, Andrew M. Lewis Jr, Keith Peden

Subjects

lcsh:Biology (General), lcsh:QH301-705.5

Abstract

Vaccines contain residual DNA derived from the cells used to produce them. As part of our investigation to assess the risk of this cellular DNA, we are developing a quantitative in vivo assay to assess the oncogenicity of DNA. In an earlier study, we had generated expression plasmids for two oncogenes - human activated T24-H-ras and murine c-myc - and had shown that these two plasmids, pMSV-T24-H-ras and pMSV-c-myc, could act in concert to induce tumors in mice, although the efficiency was low. In this study, we took two approaches to increase the oncogenic efficiency: 1) both oncogene-expression cassettes were placed on the same plasmid; 2) transfection facilitators, which increase DNA uptake and expression in vitro, were tested. The dual-expression plasmid, pMSV-T24-H-ras/MSV-c-myc, is about 20-fold more efficient at tumor induction in newborn NIH Swiss mice than the separate expression plasmids, with tumors being induced with 1 µg of the dual-expression plasmid DNA. However, none of the transfection facilitators tested increased the efficiency of tumor induction. Based on these data, the dual-expression plasmid pMSV-T24-H-ras/MSV-c-myc will be used as the positive control to develop a sensitive and quantitative animal assay that can be used to assess the oncogenic activity of DNA.

Published

2010

7. Tumors Induced in Mice by Direct Inoculation of Plasmid DNA Expressing Both Activated H-ras and c-myc

Author

Stephen H. Hughes, Yong Zhu, Haiqing Fu, Gideon Foseh, Li Sheng-Fowler, Keith Peden, Fang Cai, Don G. Blair, Brian Orrison, John M. Coffin, and Andrew M. Lewis

Subjects

oncogenes, Biology, Oncogenicity, Transfection, H-ras, Polymerase Chain Reaction, Applied Microbiology and Biotechnology, law.invention, Proto-Oncogene Proteins c-myc, Mice, chemistry.chemical_compound, Plasmid, c-myc, law, In vivo, Neoplasms, Animals, Humans, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Polymerase chain reaction, DNA, Cell Biology, Molecular biology, In vitro, Rats, Gene Expression Regulation, Neoplastic, Mice, Inbred C57BL, chemistry, NIH 3T3 Cells, ras Proteins, Plasmids, Research Paper, Developmental Biology

Abstract

Vaccines contain residual DNA derived from the cells used to produce them. As part of our investigation to assess the risk of this cellular DNA, we are developing a quantitative in vivo assay to assess the oncogenicity of DNA. In an earlier study, we had generated expression plasmids for two oncogenes--human activated T24-H-ras and murine c-myc--and had shown that these two plasmids, pMSV-T24-H-ras and pMSV-c-myc, could act in concert to induce tumors in mice, although the efficiency was low. In this study, we took two approaches to increase the oncogenic efficiency: 1) both oncogene-expression cassettes were placed on the same plasmid; 2) transfection facilitators, which increase DNA uptake and expression in vitro, were tested. The dual-expression plasmid, pMSV-T24-H-ras/MSV-c-myc, is about 20-fold more efficient at tumor induction in newborn NIH Swiss mice than the separate expression plasmids, with tumors being induced with 1 microg of the dual-expression plasmid DNA. However, none of the transfection facilitators tested increased the efficiency of tumor induction. Based on these data, the dual-expression plasmid pMSV-T24-H-ras/MSV-c-myc will be used as the positive control to develop a sensitive and quantitative animal assay that can be used to assess the oncogenic activity of DNA.

Published

2010

8. A mouse strain defective in both T cells and NK cells has enhanced sensitivity to tumor induction by plasmid DNA expressing both activated H-Ras and c-Myc

Author

Donald G. Blair, Li Sheng-Fowler, Juliete Macauley, Haiqing Fu, Haruhiko Murata, Stephen H. Hughes, Keith Peden, Lynda L Lanning, John M. Coffin, Andrew M. Lewis, Wei Tu, and Gideon Foseh

Subjects

Genetically modified mouse, Transgene, T-Lymphocytes, Genes, myc, lcsh:Medicine, Mice, Transgenic, Biology, medicine.disease_cause, Research and Analysis Methods, Biochemistry, chemistry.chemical_compound, Mice, Plasmid, Cell Line, Tumor, Neoplasms, medicine, Animals, Humans, lcsh:Science, Gene, Molecular Biology, Multidisciplinary, lcsh:R, Biology and Life Sciences, Cell Biology, DNA, Neoplasm, Molecular biology, DNA extraction, Histochemistry and Cytochemistry Techniques, Killer Cells, Natural, Genes, ras, chemistry, Cell culture, Animal Studies, Immunologic Techniques, lcsh:Q, DNA, Circular, Carcinogenesis, DNA, Research Article, Plasmids

Abstract

As part of safety studies to evaluate the risk of residual cellular DNA in vaccines manufactured in tumorigenic cells, we have been developing in vivo assays to detect and quantify the oncogenic activity of DNA. We generated a plasmid expressing both an activated human H-ras gene and murine c-myc gene and showed that 1 µg of this plasmid, pMSV-T24-H-ras/MSV-c-myc, was capable of inducing tumors in newborn NIH Swiss mice. However, to be able to detect the oncogenicity of dominant activated oncogenes in cellular DNA, a more sensitive system was needed. In this paper, we demonstrate that the newborn CD3 epsilon transgenic mouse, which is defective in both T-cell and NK-cell functions, can detect the oncogenic activity of 25 ng of the circular form of pMSV-T24-H-ras/MSV-c-myc. When this plasmid was inoculated as linear DNA, amounts of DNA as low as 800 pg were capable of inducing tumors. Animals were found that had multiple tumors, and these tumors were independent and likely clonal. These results demonstrate that the newborn CD3 epsilon mouse is highly sensitive for the detection of oncogenic activity of DNA. To determine whether it can detect the oncogenic activity of cellular DNA derived from four human tumor-cell lines (HeLa, A549, HT-1080, and CEM), DNA (100 µg) was inoculated into newborn CD3 epsilon mice both in the presence of 1 µg of linear pMSV-T24-H-ras/MSV-c-myc as positive control and in its absence. While tumors were induced in 100% of mice with the positive-control plasmid, no tumors were induced in mice receiving any of the tumor DNAs alone. These results demonstrate that detection of oncogenes in cellular DNA derived from four human tumor-derived cell lines in this mouse system was not possible; the results also show the importance of including a positive-control plasmid to detect inhibitory effects of the cellular DNA.

Published

2014

9. MicroRNAs as potential biomarkers for VERO cell tumorigenicity

Author

Konstantin Chumakov, Belete Teferedegne, Keith Peden, Eugenia Dragunsky, Andrew M. Lewis, Juliete Macauley, Gideon Foseh, and Haruhiko Murata

Subjects

Cell, Mice, Nude, Biology, Transformation, African green monkey kidney (VERO) cells, Cell Movement, Immunology and Microbiology(all), Chlorocebus aethiops, microRNA, medicine, Animals, Vero Cells, miRNA, Kidney, Tumorigenicity, General Veterinary, General Immunology and Microbiology, Public Health, Environmental and Occupational Health, veterinary(all), Virology, Molecular biology, Phenotype, In vitro, MicroRNAs, Cell Transformation, Neoplastic, Infectious Diseases, medicine.anatomical_structure, Potential biomarkers, Vero cell, Molecular Medicine, African Green Monkey, Neoplastic development, Biomarkers

Abstract

MicroRNA expression appears to capture the process of neoplastic development in vitro in the VERO line of African green monkey kidney (AGMK) cells (Teferedegne et al. PLoS One 2010;5(12):e14416). In that study, specific miRNA signatures were correlated with the transition, during serial tissue-culture passage, of low-density passaged 10–87 VERO cells from a non-tumorigenic phenotype at passage (p) 148 to a tumorigenic phenotype at p256. In the present study, six miRNAs (miR-376a, miR-654-3p, miR-543, miR-299-3p, miR-134 and miR-369-3p) were chosen from the identified signature miRNAs for evaluation of their use as potential biomarkers to track the progression of neoplastic development in VERO cells. Cells from the 10–87 VERO cell line at passage levels from p148 to p256 were inoculated into newborn and adult athymic nude mice. No tumors were observed in animals inoculated with cells from p148 to p186. In contrast, tumor incidences of 20% developed only in newborn mice that received 10–87 VERO cells at p194, p234 and p256. By qPCR profiling of the signature miRNAs of 10–87 VERO cells from these cell banks, we identified p194 as the level at which signature miRNAs elevated concurrently with the acquisition of tumorigenic phenotype with similar levels expressed beyond this passage. In wound-healing assays at 10-passage intervals between p150 to p250, the cells displayed a progressive increase in migration from p165 to p186; beginning at p194 and higher passages thereafter, the cells exhibited the highest rates of migration. By qPCR analysis, the same signature miRNAs were overexpressed with concomitant acquisition of the tumorigenic phenotype in another lineage of 10–87 VERO cells passaged independently at high density. Correlation between the passages at which the cells expressed a tumorigenic phenotype and the passages representing peaks in expression levels of signature miRNAs indicates that these miRNAs are potential biomarkers for the expression of the VERO cell tumorigenic phenotype.