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Your search keyword '"Susan E. Andrew"' showing total 22 results
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22 results on '"Susan E. Andrew"'

1. Inhibition of p38 MAPK enhances ABT-737-induced cell death in melanoma cell lines: novel regulation of PUMA

Author

Susan E. Andrew, Victor A. Tron, and Angela M. Keuling

Subjects
MAPK/ERK pathway, Programmed cell death, Melanoma, p38 mitogen-activated protein kinases, Dermatology, Biology, medicine.disease, biology.organism_classification, General Biochemistry, Genetics and Molecular Biology, Cell biology, Oncology, Cell culture, Apoptosis, Puma, medicine, Protein kinase A
Abstract

The mitogen-activated protein kinase (MAPK) pathway is constitutively activated in the majority of melanomas, promoting cell survival, proliferation and migration. In addition, anti-apoptotic Bcl-2 family proteins Mcl-1, Bcl-xL and Bcl-2 are frequently overexpressed, contributing to melanoma's well-documented chemoresistance. Recently, it was reported that the combination of MAPK pathway inhibition by specific MEK inhibitors and Bcl-2 family inhibition by BH3-mimetic ABT-737 synergistically induces apoptotic cell death in melanoma cell lines. Here we provide the first evidence that inhibition of another key MAPK, p38, synergistically induces apoptosis in melanoma cells in combination with ABT-737. We also provide novel mechanistic data demonstrating that inhibition of p38 increases expression of pro-apoptotic Bcl-2 protein PUMA. Furthermore, we demonstrate that PUMA can be cleaved by a caspase-dependent mechanism during apoptosis and identify what appears to be the PUMA cleavage product. Thus, our findings suggest that the combination of ABT-737 and inhibition of p38 is a promising, new treatment strategy that acts through a novel PUMA-dependent mechanism.

Published
2010
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6. Application of inter-simple sequence repeat PCR to mouse models: Assessment of genetic alterations in carcinogenesis

Author

Fernando Benavides, Gabriel Sternik, Ellen R. Richie, Susan E. Andrew, Mónica Flores, Monica Zamisch, Julien D.F. Licchesi, Joe M. Angel, Marcia R. Campbell, and Claudio J. Conti

Subjects
Genome instability, Cancer Research, Somatic cell, Mice, Nude, Mice, Inbred Strains, Biology, medicine.disease_cause, Mice, Inbred SENCAR, Polymerase Chain Reaction, Mice, Mice, Inbred AKR, Mice, Inbred NOD, Neoplasms, Tumor Cells, Cultured, Genetics, medicine, Animals, Crosses, Genetic, Repetitive Sequences, Nucleic Acid, Mice, Inbred BALB C, Mice, Inbred C3H, Mice, Inbred NZB, Cancer, DNA, Neoplasm, medicine.disease, DNA Fingerprinting, Molecular biology, Mice, Mutant Strains, Mice, Inbred C57BL, Disease Models, Animal, Mice, Inbred DBA, Tumor progression, MSH2, Mutation, Knockout mouse, Primer (molecular biology), Carcinogenesis, Neoplasm Transplantation
Abstract

Genomic instability is believed to play a significant role in cancer development by facilitating tumor progression and tumor heterogeneity. Inter-simple sequence repeat (inter-SSR) PCR has been proved to be a fast and reproducible technique for quantitation of genomic instability (amplifications, deletions, translocations, and insertions) in human sporadic tumors. However, the use of inter-SSR PCR in animal models of cancer has never been described. This new technique has been adapted in our laboratory for the analysis of spontaneous and induced mouse tumors. We established the best PCR conditions for each microsatellite-anchored primer and critically evaluated the reproducibility of the band patterns. We also studied the variation of the fingerprints between and within various inbred mouse strains, including wild-derived lines. Tumor-specific alterations were detected as gains, losses, or intensity changes in bands when compared with matched normal DNA. We quantitated the extent of alterations by dividing the number of altered bands in the tumor by the total number of bands in normal DNA (instability index). By means of inter-SSR PCR, we successfully analyzed genomic alterations in various mouse tumors, including spontaneous thymic lymphomas developed in Msh2 knockout mice as well as chemically induced squamous cell carcinomas and thymic lymphomas. Instability index values ranged between 0 and 9%, the highest levels observed in N-methyl-N-nitrosourea-induced thymic lymphomas generated in Trp53 (p53) nullizygote (-/-) mice. We report here, for the first time, the use of inter-SSR PCR to detect somatic mutations in mouse tumoral DNA, including laser-capture microdissected, methanol-fixed tissues. These PCR-based fingerprints provide a novel approach to assessing the number and onset of mutational events in mouse tumors and will help to understand better the mechanisms of carcinogenesis in mouse models.

Published
2002
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7. The ‘flap’ endonuclease gene FEN1 is excluded as a candidate gene implicated in the CAG repeat expansion underlying Huntington disease

Author

E. Almqvist, Susan E. Andrew, Otto Cj, and Michael R. Hayden

Subjects
Genetics, Candidate gene, Mutation, Mutant, Biology, medicine.disease_cause, DNA-(apurinic or apyrimidinic site) lyase, medicine, Flap endonuclease, Repeated sequence, Trinucleotide repeat expansion, Gene, Genetics (clinical)
Abstract

At least 12 disorders including Huntington disease (HD) are associated with expansion of a trinucleotide repeat (TNR). Factors contributing to the risk of expansion of TNRs and the mechanism of expansion have not been elucidated. Data from Saccharomyces cerevisiae suggest that the flap endonuclease FEN1 plays a role in expansion of repetitive DNA tracts. It has been hypothesized that insufficiency of FEN1 or a mutant FEN1 might contribute to the occurrence of expansion events of long repetitive DNA tracts after polymerase slippage events during lagging strand synthesis. The expression pattern of FEN1 was determined, and ubiquitous tissue expression, including germ cells, suggested that FEN1 has the potential to be involved in HD. Fifteen HD parent/child pairs that demonstrated intergenerational increases in CAG length of greater than 10 repeats were examined for possible mutations or polymorphisms within the FEN1 gene that could underlie the saltatory repeat expansions seen in these individuals. No alterations were observed compared to 50 controls, excluding FEN1 as a trans-acting factor underlying TNR expansion. The identification of a candidate gene(s) in HD or other CAG-expansion disorders implicated in TNR instability will elucidate the mechanism of expansion for this growing family of neurological disorders.

Published
2001
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12. Timing is everything: especially with loss of tumor suppressor genes

Author

Susan E. Andrew

Subjects
Neurofibromatosis 1, Hematologic Neoplasms, Biology, law.invention, Mice, law, Genetics, Animals, Humans, Genes, Tumor Suppressor, Genetic Predisposition to Disease, Age of Onset, Nuclear protein, Genes tumor suppressor, Child, Gene, Genetics (clinical), Adaptor Proteins, Signal Transducing, Nuclear Proteins, Neoplasm Proteins, Carrier protein, Suppressor, Age of onset, Carrier Proteins, MutL Protein Homolog 1
Published
1999
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21. PIK3CA: determining its role in cellular proliferation and ovarian cancer

Author

Susan E. Andrew

Subjects
Heterozygote, medicine.medical_specialty, Apoptosis, Tumor cells, Mice, Phosphatidylinositol 3-Kinases, Internal medicine, Tumor Cells, Cultured, Genetics, medicine, Animals, Humans, RNA, Messenger, Genetics (clinical), Ovarian Neoplasms, business.industry, Chromosome Mapping, RNA, Heterozygote advantage, medicine.disease, Endocrinology, Cancer research, Female, Ovarian cancer, business, Cell Division
Published
1999
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