Your search keyword '"Shoemaker RH"' showing total 4 results

1. Impact of mutant β-catenin on ABCB1 expression and therapy response in colon cancer cells.

Author

Stein U, Fleuter C, Siegel F, Smith J, Kopacek A, Scudiero DA, Hite KM, Schlag PM, Shoemaker RH, Walther W, Stein, U, Fleuter, C, Siegel, F, Smith, J, Kopacek, A, Scudiero, D A, Hite, K M, Schlag, P M, Shoemaker, R H, and Walther, W

Abstract

Background: Colorectal cancers are often chemoresistant toward antitumour drugs that are substrates for ABCB1-mediated multidrug resistance (MDR). Activation of the Wnt/β-catenin pathway is frequently observed in colorectal cancers. This study investigates the impact of activated, gain-of-function β-catenin on the chemoresistant phenotype.Methods: The effect of mutant (mut) β-catenin on ABCB1 expression and promoter activity was examined using HCT116 human colon cancer cells and isogenic sublines harbouring gain-of-function or wild-type β-catenin, and patients' tumours. Chemosensitivity towards 24 anticancer drugs was determined by high throughput screening.Results: Cell lines with mut β-catenin showed high ABCB1 promoter activity and expression. Transfection and siRNA studies demonstrated a dominant role for the mutant allele in activating ABCB1 expression. Patients' primary colon cancer tumours shown to express the same mut β-catenin allele also expressed high ABCB1 levels. However, cell line chemosensitivities towards 24 MDR-related and non-related antitumour drugs did not differ despite different β-catenin genotypes.Conclusion: Although ABCB1 is dominantly regulated by mut β-catenin, this did not lead to drug resistance in the isogenic cell line model studied. In patient samples, the same β-catenin mutation was detected. The functional significance of the mutation for predicting patients' therapy response or for individualisation of chemotherapy regimens remains to be established. [ABSTRACT FROM AUTHOR]

Published

2012

2. Transcriptomic response to differentiation induction.

Author

Patton, GW, Stephens, R, Sdorov, IA, Xiao, X, Lempicki, RA, Dimitrov, DS, Shoemaker, RH, and Tudor, G

Subjects

*GENE expression, *BIOCHIPS, *GENETIC transcription, *LEUCOCYTES, *ACUTE myeloid leukemia

Abstract

Background: Microarrays used for gene expression studies yield large amounts of data. The processing of such data typically leads to lists of differentially-regulated genes. A common terminal data analysis step is to map pathways of potentially interrelated genes. Methods: We applied a transcriptomics analysis tool to elucidate the underlying pathways of leukocyte maturation at the genomic level in an established cellular model of leukemia by examining time-course data in two subclones of U-937 cells. Leukemias such as Acute Promyelocytic Leukemia (APL) are characterized by a block in the hematopoietic stem cell maturation program at a point when expansion of clones which should be destined to mature into terminally-differentiated effector cells get locked into endless proliferation with few cells reaching maturation. Treatment with retinoic acid, depending on the precise genomic abnormality, often releases the responsible promyelocytes from this blockade but clinically can yield adverse sequellae in terms of potentially lethal side effects, referred to as retinoic acid syndrome. Results: Briefly, the list of genes for temporal patterns of expression was pasted into the ABCC GRID Promoter TFSite Comparison Page website tool and the outputs for each pattern were examined for possible coordinated regulation by shared regelems (regulatory elements). We found it informative to use this novel web tool for identifying, on a genomic scale, genes regulated by drug treatment. Conclusion: Improvement is needed in understanding the nature of the mutations responsible for controlling the maturation process and how these genes regulate downstream effects if there is to be better targeting of chemical interventions. Expanded implementation of the techniques and results reported here may better direct future efforts to improve treatment for diseases not restricted to APL. [ABSTRACT FROM AUTHOR]

Published

2006

3. Separation and SAR study of HIF-1alpha inhibitory tubulosines from Alangium cf. longiflorum.

Author

Klausmeyer P, McCloud TG, Uranchimeg B, Melillo G, Scudiero DA, Cardellina JH II, and Shoemaker RH

Published

2008

4. Identification of a new natural camptothecin analogue in targeted screening for HIF-1a inhibitors.

Author

Klausmeyer P, McCloud TG, Melillo G, Scudiero DA, Cardellina JH II, and Shoemaker RH

Published

2007