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42 results on '"Jackson-Grusby, Laurie"'

1. Age- and Pregnancy-Associated DNA Methylation Changes in Mammary Epithelial Cells

Author

Huh, Sung Jin, Clement, Kendell, Jee, David, Merlini, Alessandra, Choudhury, Sibgat, Maruyama, Reo, Yoo, Ronnie, Chytil, Anna, Boyle, Patrick, Ran, Fei Ann, Moses, Harold L, Barcellos-Hoff, Mary Helen, Jackson-Grusby, Laurie, Meissner, Alexander, and Polyak, Kornelia

Subjects
Biological Sciences, Genetics, Human Genome, 1.1 Normal biological development and functioning, Underpinning research, Reproductive health and childbirth, Age Factors, Animals, Antigens, Surface, Cell Differentiation, Cluster Analysis, DNA (Cytosine-5-)-Methyltransferase 1, DNA (Cytosine-5-)-Methyltransferases, DNA Methylation, Enhancer Elements, Genetic, Enzyme Activation, Epigenesis, Genetic, Epithelial Cells, Female, Gene Expression Profiling, Gene Expression Regulation, Histones, Immunophenotyping, Mammary Glands, Animal, Mice, Mice, Knockout, Organ Specificity, Phenotype, Pregnancy, Promoter Regions, Genetic, Sexual Maturation, Signal Transduction, Biochemistry and Cell Biology, Clinical Sciences, Biochemistry and cell biology
Abstract

Postnatal mammary gland development and differentiation occur during puberty and pregnancy. To explore the role of DNA methylation in these processes, we determined the genome-wide DNA methylation and gene expression profiles of CD24(+)CD61(+)CD29(hi), CD24(+)CD61(+)CD29(lo), and CD24(+)CD61(-)CD29(lo) cell populations that were previously associated with distinct biological properties at different ages and reproductive stages. We found that pregnancy had the most significant effects on CD24(+)CD61(+)CD29(hi) and CD24(+)CD61(+)CD29(lo) cells, inducing distinct epigenetic states that were maintained through life. Integrated analysis of gene expression, DNA methylation, and histone modification profiles revealed cell-type- and reproductive-stage-specific changes. We identified p27 and TGFβ signaling as key regulators of CD24(+)CD61(+)CD29(lo) cell proliferation, based on their expression patterns and results from mammary gland explant cultures. Our results suggest that relatively minor changes in DNA methylation occur during luminal differentiation compared with the effects of pregnancy on CD24(+)CD61(+)CD29(hi) and CD24(+)CD61(+)CD29(lo) cells.

Published
2015

12. DNA hypomethylation leads to elevated mutation rates

Author

Chen, Richard Z., Pettersson, Ulf, Beard, Caroline, Jackson-Grusby, Laurie, and Jaenisch, Rudolf

Subjects
Carcinogenesis -- Research, DNA -- Research, Methylation -- Research, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Evidence for genome wide demethylation as a step in carcinogenesis comes from frequently observed global DNA hypomethylation in tumour cells. DNA hypomethylation has also been linked to abnormal chromosomal structures. It is reported murine embryonic stem cells nullizygous for the major DNA methyltransferase gene, showed significantly higher mutation rates at the endogenous hypoxanthine phosphoribosyltransferase gene and the integrated viral thymidine kinase transgene.

Published
1998

14. Suppression of intestinal neoplasia by DNA hypomethylation

Author

Laird, Peter W., Jackson-Grusby, Laurie, Fazeli, Amin, Dickinson, Stephanie L., Jung, W. Edward, Li, En, Weinberg, Robert A., and Jaenisch, Rudolf

Subjects
Methyltransferases -- Research, Colorectal cancer -- Research, Tumors -- Research, Methylation -- Research, Biological sciences
Abstract

Inhibition of DNA methyltransferase activity by treating mice, heterozygous for DNA methyltransferase, with 5-aza-2'-deoxycytidine (5-aza-dC), results in a significant reduction in the number of intestinal tumors. Control animals had an average of 113 intestinal polyps, while this number was reduced to 2 polyps in heterozygous mice treated with 5-aza-dC. The inhibitor has a marked impact on the initiation stage, but no effect on the proliferation stages of carcinogenesis. The number of polyps was also reduced in mice with a mutant allele of the DNA methyltransferase gene. Results do not support DNA hypomethylation as a contributor to oncogenesis.

Published
1995

15. Cancer

Author

Buratovich, Michael A., Jackson-Grusby, Laurie, Buratovich, Michael A., and Jackson-Grusby, Laurie

Subjects
Cancer
Abstract

This updated edition offers new information about over 900 topics in cancer. Written by physicians, nurses, and professional medical writers, this important resource will also be of interest to public library patrons, premedical students, and those building collections for the patient population.

Published
2016

19. Suppression of Intestinal Neoplasia by Deletion of Dnmt3b

Author

Lin, Haijiang, primary, Yamada, Yasuhiro, additional, Nguyen, Suzanne, additional, Linhart, Heinz, additional, Jackson-Grusby, Laurie, additional, Meissner, Alexander, additional, Meletis, Konstantinos, additional, Lo, Grace, additional, and Jaenisch, Rudolf, additional

Published
2006
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21. DNA hypomethylation leads to elevated mutation rates

Author

Chen, Richard Z, Pettersson, Ulf, Beard, Caroline, Jackson-Grusby, Laurie, Jaenisch, Rudolf, Chen, Richard Z, Pettersson, Ulf, Beard, Caroline, Jackson-Grusby, Laurie, and Jaenisch, Rudolf

Abstract

Genome-wide demethylation has been suggested to be a step in carcinogenesis. Evidence for this notion comes from the frequently observed global DNA hypomethylation in tumour cells, and from a recent study suggesting that defects in DNA methylation might contribute to the genomic instability of some colorectal tumour cell lines. DNA hypomethylation has also been associated with abnormal chromosomal structures, as observed in cells from patients with ICF (Immunodeficiency, Centromeric instability and Facial abnormalities) syndrome and in cells treated with the demethylating agent 5-azadeoxycytidine. Here we report that murine embryonic stem cells nullizygous for the major DNA methyltransferase (Dnmt1) gene exhibited significantly elevated mutation rates at both the endogenous hypoxanthine phosphoribosyltransferase (Hprt) gene and an integrated viral thymidine kinase (tk) transgene. Gene deletions were the predominant mutations at both loci. The major cause of the observed tk deletions was either mitotic recombination or chromosomal loss accompanied by duplication of the remaining chromosome. Our results imply an important role for mammalian DNA methylation in maintaining genome stability.

Published
1998
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22. Male and female mice derived from the same embryonic stem cell clone by tetraploid embryo complementation

Author

Eggan, Kevin, primary, Rode, Anja, additional, Jentsch, Isabell, additional, Samuel, Caroline, additional, Hennek, Thomas, additional, Tintrup, Hartmut, additional, Zevnik, Branko, additional, Erwin, Jennifer, additional, Loring, Janet, additional, Jackson-Grusby, Laurie, additional, Speicher, Michael R., additional, Kuehn, Ralf, additional, and Jaenisch, Rudolf, additional

Published
2002
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30. STAT3-iNOS Signaling Mediates EGFRvIII-Induced Glial Proliferation and Transformation.

Author

Puram, Sidharth V., Yeung, Caleb M., Jahani-Asl, Arezu, Lin, Chieyu, de la Iglesia, Nuria, Konopka, Genevieve, Jackson-Grusby, Laurie, and Bonni, Azad

Subjects
CELLULAR signal transduction, NEUROGLIA, CELL proliferation, CELL transformation, GLIOBLASTOMA multiforme, TRANSCRIPTION factors, EPIDERMAL growth factor
Abstract

Malignant gliomas, including glioblastoma multiforme, constitute the mostcommonand aggressive primary brain tumors in adults. The transcription factor signal transducer and activator of transcription 3 (STAT3) plays an essential role in glioblastoma pathogenesis downstream of the major oncogenic protein epidermal growth factor receptor variant III (EGFRvIII). However, the critical gene targets of STAT3 that mediate EGFRvIII-induced glial transformation have remained unknown. Here, we identify inducible nitric oxide synthase (iNOS) as a novel target gene of STAT3 in EGFRvIII-expressing mouse astrocytes. Endogenous STAT3 occupies the endogenous iNOS promoter and stimulates iNOS transcription in EGFRvIII-expressing astrocytes. STAT3 does not appear to control iNOS transcription in astrocytes deficient in the major glioblastoma tumor suppressor protein phosphatase and tensin homolog (PTEN), suggesting that STAT3 regulates iNOS transcription specifically in EGFRvIII-expressing astrocytes. Importantly, inhibition of iNOS by distinct approaches, including knockdown by RNA interference, reduces cell population growth and invasiveness of EGFRvIII-expressing astrocytes. In addition, upon iNOS knockdown or administration of a small-molecule inhibitor of iNOS, EGFRvIII-expressing astrocytes form smaller tumors in vivo. These findings suggest that inhibition of iNOS may have potential therapeutic value for EGFRvIII-activated brain tumors. [ABSTRACT FROM AUTHOR]

Published
2012
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31. Moving AHEAD with an international human epigenome project.

Author

Jones, Peter A., Archer, Trevor K., Baylin, Stephen B., Beck, Stephan, Berger, Shelley, Bernstein, Bradley E., Carpten, John D., Clark, Susan J., Costello, Joseph F., Doerge, Rebecca W., Esteller, Manel, Feinberg, Andrew P., Gingeras, Thomas R., Greally, John M., Henikoff, Steven, Herman, James G., Jackson-Grusby, Laurie, Jenuwein, Thomas, Jirtle, Randy L., and Kim, Young-Joon

Subjects
DISEASES, PREVENTIVE medicine, GENOMES, GENETICS, CELL populations, PATHOLOGY, TRANSLATIONAL research, MEDICAL research, COMPREHENSION
Abstract

The article focuses on the Alliance for the Human Epigenome and Disease (AHEAD) project. The project is intended to provide high-resolution reference epigenome maps that is important in basic and applied research. It can provide understanding on diseases that will head to the discovery of new means in controlling diseases. The major challenges of AHEAD include the initial selection of the significant epigenomic markers, identification of proper pure cell populations, and handling and presentation of data. AHEAD would incorporate epigenetics research that would led in understanding normal and pathological processes. Furthermore, the study would provide important scientific opportunities to maximize translational research to the prevention and cure of human diseases.

Published
2008
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38. Suppression of Intestinal Neoplasia by Deletion of Dnmt3b.

Author

Haijiang Lin, Yamada, Yasuhiro, Nguyen, Suzanne, Linhart, Heinz, Jackson-Grusby, Laurie, Meissner, Alexander, Meletis, Konstantinos, Lo, Grace, and Jaenisch, Rudolf

Subjects
GENE silencing, METHYLATION, TUMORS, METHYLTRANSFERASES, ADENOMA
Abstract

Aberrant gene silencing accompanied by DNA methylation is associated with neoplastic progression in many tumors that also show global loss of DNA methylation. Using conditional inactivation of de novo methyltransferase Dnmt3b in ApcMin/+ mice, we demonstrate that the loss of Dnmt3b has no impact on microadenoma formation, which is considered the earliest stage of intestinal tumor formation. Nevertheless, we observed a significant decrease in the formation of macroscopic colonic adenomas. Interestingly, many large adenomas showed regions with Dnmt3b inactivation, indicating that Dnmt3b is required for initial outgrowth of macroscopic adenomas but is not required for their maintenance. These results support a role for Dnmt3b in the transition stage between microadenoma formation and macroscopic colonic tumor growth and further suggest that Dnmt3b, and by extension de novo methylation, is not required for maintaining tumor growth after this transition stage has occurred. [ABSTRACT FROM AUTHOR]

Published
2006
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39. Mechanisms of Stem Cell Regulation in Medulloblastoma

Author

Yoo, Ronnie and Jackson-Grusby, Laurie Lynne

Subjects
Biology, Oncology, Developmental biology, Cerebellar Stem Cells, Medulloblastoma, Patched, Stem Cells
Abstract

Medulloblastoma, the most common pediatric malignant brain tumor, is comprised of a heterogeneous group of tumors with distinct molecular subtypes and clinical outcomes. In particular, tumors with a cancer stem cell (CSC) population have been observed to be more resistant to conventional therapies, necessitating the elucidation of pathways important in this population. Work in our lab has shown that neurosphere culture-enriched cells from Ptch1LacZ/+;Trp53-/- mouse medulloblastomas exhibit properties of self-renewal, expression of neural stem cell (NSC) markers and potent tumor-initiation. The pathway dependencies and mechanisms of self-renewal in these medulloblastoma neurospheres (MBNS) have not yet been characterized.

Published
2013

40. Developmental Origins of Aggressive Medulloblastoma

Author

Lin, Chieyu and Jackson-Grusby, Laurie Lynne

Subjects
Biology, Cellular biology, Cancer biology, Cancer stem cells, Developmental Field Cancerization, Medulloblastoma
Abstract

Medulloblastomas represent a heterogeneous group of cerebellar tumors that constitute the most frequent primary pediatric solid malignancy. Molecular characterization of these tumors have led to the understanding that distinctsubtypes possess characteristic properties such as gene expression profile, histological classification, and degree of dissemination that are predictive of disease progression and prognosis. Fractionation of primary medulloblastomas has led to the appreciation of brain tumor stem cells (BTSC) that may be driving the more aggressive and malignant disease. However, the developmental origins of these cells as well as the influences of early mutations in tumor suppressors on development and tumorigenesisremain unclear. My work is geared towards understanding the impact of mutations in the key tumor suppressor genes Ptc1 and p53 on medulloblastoma formation. I first identified key differences in neural stem cell marker expression that distinguish between Ptc1 and Ptc1;p53 medulloblastomas, demonstrating that the Ptc1;p53 genotype may pre-dispose to a more malignant, stem-like tumor. Through the use of a somatic mosaic model, we describe a synergistic interaction between Ptc1 haploinsufficiency and p53 deficiency leading to developmental seeding of the cerebellar field by pre-malignant cells and term this phenomenon “developmental field cancerization.” Interestingly, we observed this premalignant colonization in the cerebellarstem cell compartment as well, resulting in an aberrant population of self-renewing cells. Upon loss-of-heterozygosity at the Ptc1 locus, the Ptc;p53 animals alone develop robust cerebellar tumorsthat possess a definable stem-like population of cells that can re-initiate metastatic secondary tumors. These findings demonstrate how early mutationsin the tumor suppressor genes, such as Ptc1 and p53, may lead to stem cell field cancerization and play an important role in determining future tumor character and prognosis.

Published
2013

41. RUSH and CRUSH: a rapid and conditional RNA interference method in mice.

Author

Brown JR, Zetsche B, and Jackson-Grusby L

Subjects
Animals, Cell Line, HEK293 Cells, Humans, Mice, Models, Animal, Reproducibility of Results, Embryonic Stem Cells metabolism, Gene Knockdown Techniques, Genetic Vectors, Mice, Transgenic genetics, RNA Interference
Abstract

RNA interference (RNAi) is a powerful approach to phenocopy mutations in many organisms. Gold standard conventional knock-out mouse technology is labor- and time-intensive; however, off-target effects may confound transgenic RNAi approaches. Here, we describe a rapid method for conditional and reversible gene silencing in RNAi transgenic mouse models and embryonic stem (ES) cells. RUSH and CRUSH RNAi vectors were designed for reversible or conditional knockdown, respectively, demonstrated using targeted replacement in an engineered ROSA26(lacZ) ES cell line and wildtype V6.5 ES cells. RUSH was validated by reversible knockdown of Dnmt1 in vitro. Conditional mouse model production using CRUSH was expedited by deriving ES cell lines from Cre transgenic mouse strains (nestin, cTnnT, and Isl1) and generating all-ES G0 transgenic founders by tetraploid complementation. A control CRUSH(GFP) RNAi mouse strain showed quantitative knockdown of GFP fluorescence as observed in compound CRUSH(GFP) , Ds-Red Cre-reporter transgenic mice, and confirmed by Western blotting. The capability to turn RUSH and CRUSH alleles off or on using Cre recombinase enables this method to rapidly address questions of tissue-specificity and cell autonomy of gene function in development., (Copyright © 2013 Wiley Periodicals, Inc.)

Published
2014
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42. Flp recombinase regulated lacZ expression at the ROSA26 locus.

Author

Possemato R, Eggan K, Moeller BJ, Jaenisch R, and Jackson-Grusby L

Subjects
Animals, Gene Expression Regulation, Integrases genetics, Mice, Mice, Transgenic genetics, Mice, Transgenic physiology, RNA, Untranslated, Viral Proteins genetics, DNA Nucleotidyltransferases genetics, Lac Operon genetics, Proteins genetics
Published
2002
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