Your search keyword '"Christopher Fiore"' showing total 8 results

1. Functional cis-regulatory modules encoded by mouse-specific endogenous retrovirus

Author

Vasavi Sundaram, Mayank N. K. Choudhary, Erica Pehrsson, Xiaoyun Xing, Christopher Fiore, Manishi Pandey, Brett Maricque, Methma Udawatta, Duc Ngo, Yujie Chen, Asia Paguntalan, Tammy Ray, Ava Hughes, Barak A. Cohen, and Ting Wang

Subjects

Science

Abstract

The gene-battery model posits transposable elements (TEs) may becis-regulatory elements to control gene expression. Here, mouse-specific TEs are shown as binding sites for multiple collaborating transcription factors in embryonic stem cells, and act as cis-regulatory modules in synergistic fashion.

Published

2017

2. Antitumor synergy with SY-1425, a selective RARα agonist, and hypomethylating agents in retinoic acid receptor pathway activated models of acute myeloid leukemia

Author

Michael R. McKeown, Liv Johannessen, Emily Lee, Christopher Fiore, and Emmanuelle di Tomaso

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2019

3. Functional cis-regulatory modules encoded by mouse-specific endogenous retrovirus

Author

Christopher Fiore, Tammy Ray, Barak A. Cohen, Brett B Maricque, Erica C. Pehrsson, Mayank N. K. Choudhary, Ting Wang, Vasavi Sundaram, Ava Hughes, Manishi Pandey, Yujie Chen, Xiaoyun Xing, Methma Udawatta, Duc Ngo, and Asia Paguntalan

Subjects

0301 basic medicine, Transposable element, Science, General Physics and Astronomy, Endogenous retrovirus, Computational biology, Biology, Genome, General Biochemistry, Genetics and Molecular Biology, Article, Gene Expression Regulation, Enzymologic, Evolution, Molecular, 03 medical and health sciences, Mice, Animals, Enhancer, Gene, Transcription factor, Embryonic Stem Cells, Cis-regulatory module, Genetics, Multidisciplinary, Terminal Repeat Sequences, food and beverages, General Chemistry, 3. Good health, 030104 developmental biology, Regulatory sequence, DNA Transposable Elements, Transcription Factors

Abstract

Cis-regulatory modules contain multiple transcription factor (TF)-binding sites and integrate the effects of each TF to control gene expression in specific cellular contexts. Transposable elements (TEs) are uniquely equipped to deposit their regulatory sequences across a genome, which could also contain cis-regulatory modules that coordinate the control of multiple genes with the same regulatory logic. We provide the first evidence of mouse-specific TEs that encode a module of TF-binding sites in mouse embryonic stem cells (ESCs). The majority (77%) of the individual TEs tested exhibited enhancer activity in mouse ESCs. By mutating individual TF-binding sites within the TE, we identified a module of TF-binding motifs that cooperatively enhanced gene expression. Interestingly, we also observed the same motif module in the in silico constructed ancestral TE that also acted cooperatively to enhance gene expression. Our results suggest that ancestral TE insertions might have brought in cis-regulatory modules into the mouse genome., The gene-battery model posits transposable elements (TEs) may be cis-regulatory elements to control gene expression. Here, mouse-specific TEs are shown as binding sites for multiple collaborating transcription factors in embryonic stem cells, and act as cis-regulatory modules in synergistic fashion.

Published

2017

4. Model-based transcriptome engineering promotes a fermentative transcriptional state in yeast

Author

Michael R. Brent, Christopher Fiore, Randall H. Brown, Holly Brown, Stacey R. Gish, Ezekiel J. Maier, and Drew G. Michael

Subjects

0301 basic medicine, Saccharomyces cerevisiae Proteins, Saccharomyces cerevisiae, Biology, Xylose, Metabolic engineering, Transcriptome, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Transcriptional regulation, Gene Regulatory Networks, Multidisciplinary, Ethanol, Models, Genetic, biology.organism_classification, Yeast, 030104 developmental biology, Glucose, Biochemistry, chemistry, PNAS Plus, Metabolic Engineering, Fermentation, Flux (metabolism), 030217 neurology & neurosurgery, Algorithms, Gene Deletion, Transcription Factors

Abstract

The ability to rationally manipulate the transcriptional states of cells would be of great use in medicine and bioengineering. We have developed an algorithm, NetSurgeon, which uses genome-wide gene-regulatory networks to identify interventions that force a cell toward a desired expression state. We first validated NetSurgeon extensively on existing datasets. Next, we used NetSurgeon to select transcription factor deletions aimed at improving ethanol production in Saccharomyces cerevisiae cultures that are catabolizing xylose. We reasoned that interventions that move the transcriptional state of cells using xylose toward that of cells producing large amounts of ethanol from glucose might improve xylose fermentation. Some of the interventions selected by NetSurgeon successfully promoted a fermentative transcriptional state in the absence of glucose, resulting in strains with a 2.7-fold increase in xylose import rates, a 4-fold improvement in xylose integration into central carbon metabolism, or a 1.3-fold increase in ethanol production rate. We conclude by presenting an integrated model of transcriptional regulation and metabolic flux that will enable future efforts aimed at improving xylose fermentation to prioritize functional regulators of central carbon metabolism.

Published

2016

5. Utility of multispectral imaging in automated quantitative scoring of immunohistochemistry

Author

Stephen P. Finn, Neil E. Martin, Michelangelo Fiorentino, Swen-Olof Andersson, Dyane Bailey, Ove Andrén, Katja Fall, Niamh Conlon, Massimo Loda, Richard Flavin, Christopher Fiore, Xiaoqiu Wu, Fiore C, Bailey D, Conlon N, Wu X, Martin N, Fiorentino M, Finn S, Fall K, Andersson SO, Andren O, Loda M, and Flavin R

Subjects

Male, Pathology, medicine.medical_specialty, Cytoplasm, Multispectral image, Adenocarcinoma, Article, Pathology and Forensic Medicine, Software, Urological cancer, Biomarkers, Tumor, Image Processing, Computer-Assisted, Medicine, Humans, Image analysis, Aged, Aged, 80 and over, Cell Nucleus, business.industry, Cell Membrane, Prostatic Neoplasms, Reproducibility of Results, Pattern recognition, General Medicine, Middle Aged, Immunohistochemistry, Ki-67 Antigen, Prostate cancer, digital imaging, Stathmin, Artificial intelligence, business, alpha Catenin

Abstract

BACKGROUND: Automated scanning devices and image analysis software provide a means to overcome the limitations of manual semiquantitative scoring of immunohistochemistry. Common drawbacks to automated imaging systems include an inability to classify tissue type and an inability to segregate cytoplasmic and nuclear staining. METHODS: Immunohistochemistry for the membranous marker α-catenin, the cytoplasmic marker stathmin and the nuclear marker Ki-67 was performed on tissue microarrays (TMA) of archival formalin-fixed paraffin-embedded tissue comprising 471 (α-catenin and stathmin) and 511 (Ki-67) cases of prostate adenocarcinoma. These TMA were quantitatively analysed using two commercially available automated image analysers, the Ariol SL-50 system and the Nuance system from CRi. Both systems use brightfield microscopy for automated, unbiased and standardised quantification of immunohistochemistry, while the Nuance system has spectral deconvolution capabilities. RESULTS: Overall concordance between scores from both systems was excellent (r=0.90; 0.83-0.95). The software associated with the multispectral imager allowed accurate automated classification of tissue type into epithelial glandular structures and stroma, and a single-step segmentation of staining into cytoplasmic or nuclear compartments allowing independent evaluation of these areas. The Nuance system, however, was not able to distinguish reliably between tumour and non-tumour tissue. In addition, variance in the labour and time required for analysis between the two systems was also noted. CONCLUSION: Despite limitations, this study suggests some beneficial role for the use of a multispectral imaging system in automated analysis of immunohistochemistry.

Published

2012

6. Immunohistochemical expression of BRCA1 and lethal prostate cancer

Author

Philip W. Kantoff, Neil E. Martin, Meir J. Stampfer, Stephen P. Finn, Jennifer R. Stark, Gregory L Judson, Richard Flavin, Lorelei A. Mucci, Howard D. Sesso, Michelangelo Fiorentino, Edward Giovannucci, Jennifer A. Sinnott, Christopher Fiore, Massimo Loda, Kathryn L. Penney, Katja Fall, Jing Ma, Fiorentino M, Judson G, Penney K, Flavin R, Stark J, Fiore C, Fall K, Martin N, Ma J, Sinnott J, Giovannucci E, Stampfer M, Sesso HD, Kantoff PW, Finn S, Loda M, and Mucci L

Subjects

PCA3, Male, Cancer Research, Pathology, medicine.medical_specialty, Tumor suppressor gene, Proliferation index, endocrine system diseases, Genes, BRCA1, Biology, Article, Prostate cancer, Prostate, Cancer stem cell, medicine, Biomarkers, Tumor, Humans, Prospective Studies, Neoplasm Metastasis, skin and connective tissue diseases, Aged, Oligonucleotide Array Sequence Analysis, BRCA1 Protein, Cancer, Prostatic Neoplasms, Cell cycle, medicine.disease, Immunohistochemistry, Gene Expression Regulation, Neoplastic, medicine.anatomical_structure, Ki-67 Antigen, Oncology, Mutation, Cancer research, Disease Progression, BRCA1 prostate cancer prognosis

Abstract

BRCA1 functions as a tumor suppressor; recent work suggests that BRCA1 may also induce cell cycle arrest to allow for DNA repair. We hypothesized that BRCA1 expression in prostate tumor tissue may be associated with prostate cancer progression through regulation of the cell cycle. We used immunohistochemistry to evaluate BRCA1 protein expression in archival tumor samples from 393 prostate cancer cases in the Physicians' Health Study. The men were followed prospectively from diagnosis to development of metastases and mortality. Fifteen percent of tumors stained positive for BRCA1. BRCA1-positive tumors had substantially increased tumor proliferation index compared with negative tumors (47.0 Ki67-positive nuclei versus 10.3, P = 0.0016) and were more likely to develop lethal cancer compared with BRCA1-negative tumors (hazard ratio, 4.6; 95% confidence interval, 2.4–8.7). These findings strengthen the hypothesis that BRCA1 plays a role in cell cycle control and show that BRCA1 is a marker of clinical prostate cancer prognosis. Cancer Res; 70(8); 3136–9. ©2010 AACR.

Published

2010

7. Utility of multispectral imaging in automated quantitative scoring of immunohistochemistry.

Author

Christopher Fiore, Dyane Bailey, Niamh Conlon, Xiaoqiu Wu, Neil Martin, Michelangelo Fiorentino, Stephen Finn, Katja Fall, Swen-Olof Andersson, Ove Andren, Massimo Loda, and Richard Flavin

Abstract

BackgroundAutomated scanning devices and image analysis software provide a means to overcome the limitations of manual semiquantitative scoring of immunohistochemistry. Common drawbacks to automated imaging systems include an inability to classify tissue type and an inability to segregate cytoplasmic and nuclear staining.MethodsImmunohistochemistry for the membranous marker α-catenin, the cytoplasmic marker stathmin and the nuclear marker Ki-67 was performed on tissue microarrays (TMA) of archival formalin-fixed paraffin-embedded tissue comprising 471 (α-catenin and stathmin) and 511 (Ki-67) cases of prostate adenocarcinoma. These TMA were quantitatively analysed using two commercially available automated image analysers, the Ariol SL-50 system and the Nuance system from CRi. Both systems use brightfield microscopy for automated, unbiased and standardised quantification of immunohistochemistry, while the Nuance system has spectral deconvolution capabilities.ResultsOverall concordance between scores from both systems was excellent (r=0.90; 0.83–0.95). The software associated with the multispectral imager allowed accurate automated classification of tissue type into epithelial glandular structures and stroma, and a single-step segmentation of staining into cytoplasmic or nuclear compartments allowing independent evaluation of these areas. The Nuance system, however, was not able to distinguish reliably between tumour and non-tumour tissue. In addition, variance in the labour and time required for analysis between the two systems was also noted.ConclusionDespite limitations, this study suggests some beneficial role for the use of a multispectral imaging system in automated analysis of immunohistochemistry. [ABSTRACT FROM AUTHOR]

Published

2012

8. Androgen Receptor Regulates a Distinct Transcription Program in Androgen-Independent Prostate Cancer

Author

Jindan Yu, Jason S. Carroll, Meredith M. Regan, Xin Yuan, Philip W. Kantoff, Michelangelo Fiorentino, Clifford A. Meyer, Arul M. Chinnaiyan, Bo Han, Tao Wu, Hongyun Wang, Arjun K. Manrai, Mathieu Lupien, Lawrence D. True, Myles Brown, X. Shirley Liu, Rameen Beroukhim, Qianben Wang, Massimo Loda, Olli A. Jänne, Christopher Fiore, Zhong Chen, Kexin Xu, Yong Zhang, Steven P. Balk, Mark A. Rubin, Wei Li, Rohit Mehra, Wang Q, Li W, Zhang Y, Yuan X, Xu K, Yu J, Chen Z, Beroukhim R, Wang H, Lupien M, Wu T, Regan MM, Meyer CA, Carroll JS, Manrai AK, Jänne OA, Balk SP, Mehra R, Han B, Chinnaiyan AM, Rubin MA, True L, Fiorentino M, Fiore C, Loda M, Kantoff PW, Liu XS, and Brown M

Subjects

Hepatocyte Nuclear Factor 3-alpha, Male, Transcriptional Activation, medicine.medical_specialty, HUMDISEASE, Biology, urologic and male genital diseases, General Biochemistry, Genetics and Molecular Biology, Article, Histones, 03 medical and health sciences, Prostate cancer, 0302 clinical medicine, Internal medicine, Cell Line, Tumor, medicine, Humans, Epigenetics, Enhancer, Transcription factor, 030304 developmental biology, Regulation of gene expression, 0303 health sciences, Biochemistry, Genetics and Molecular Biology(all), Prostatic Neoplasms, medicine.disease, androgen receptor prostate cancer, Androgen receptor, Gene Expression Regulation, Neoplastic, Endocrinology, Receptors, Androgen, 030220 oncology & carcinogenesis, Cancer cell, Ubiquitin-Conjugating Enzymes, Cancer research, Androgens, FOXA1, Cell Division

Abstract

SummaryThe evolution of prostate cancer from an androgen-dependent state to one that is androgen-independent marks its lethal progression. The androgen receptor (AR) is essential in both, though its function in androgen-independent cancers is poorly understood. We have defined the direct AR-dependent target genes in both androgen-dependent and -independent cancer cells by generating AR-dependent gene expression profiles and AR cistromes. In contrast to what is found in androgen-dependent cells, AR selectively upregulates M-phase cell-cycle genes in androgen-independent cells, including UBE2C, a gene that inactivates the M-phase checkpoint. We find that epigenetic marks at the UBE2C enhancer, notably histone H3K4 methylation and FoxA1 transcription factor binding, are present in androgen-independent cells and direct AR-enhancer binding and UBE2C activation. Thus, the role of AR in androgen-independent cancer cells is not to direct the androgen-dependent gene expression program without androgen, but rather to execute a distinct program resulting in androgen-independent growth.