Craig R. Bush scite author profile

Suppression of colon carcinogenesis by peroxisome proliferator-activated receptor (PPAR)-gamma is likely due to some effect of PPAR-gamma on normal colonic epithelial cells. However, our understanding of the effects of PPAR-gamma in such cells is limited. We analyzed the abundance, distribution, and function of PPAR-gamma in epithelial cells isolated from the murine proximal and distal colon. Marked differences in PPAR-gamma abundance and distribution were observed, suggesting tissue-specific responses. Analysis of PPAR-gamma effects on DNA synthesis, formation of preneoplastic lesions, and activation of MAPK signaling in proximal and distal colonic epithelial cells in vivo indicates that PPAR-gamma regulates both tissue-specific and common responses within the proximal and distal colon. Three major functional cohorts of PPAR-gamma target genes were identified by genomic profiling of isolated colonic epithelial cells: genes that are involved in metabolism, in signaling, and in cellular adhesion and motility. Two subsets of PPAR-gamma target genes were differentially expressed in the proximal and distal epithelium. Proximal target genes were primarily involved in metabolic activities, whereas signal transduction, adhesion, and motility targets were more pronounced in the distal colon. Remarkably, those target genes that are differentially expressed in the proximal colon were all induced on activation of PPAR-gamma, whereas all target genes that are preferentially expressed in the distal colon were repressed. Our data indicate that PPAR-gamma exerts both common and tissue-specific effects in the colon and challenge the general conclusions that PPAR-gamma is induced on differentiation of colonic epithelial cells and that this receptor stimulates differentiated function in epithelial cells throughout the colon.

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Identification of apoptotic genes mediating TGF-β/Smad3-induced cell death in intestinal epithelial cells using a genomic approach

Cao¹,

Chen²,

Zhang³

et al. 2007

American Journal of Physiology-Gastrointestinal and Liver Physi

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Transforming growth factor (TGF)-beta-dependent apoptosis is important in the elimination of damaged or abnormal cells from normal tissues in vivo. Previously, we have shown that TGF-beta inhibits the growth of rat intestinal epithelial (RIE)-1 cells. However, RIE-1 cells are relatively resistant to TGF-beta-induced apoptosis due to a low endogenous Smad3-to-Akt ratio. Overexpression of Smad3 sensitizes RIE-1 cells (RIE-1/Smad3) to TGF-beta-induced apoptosis by altering the Smad3-to-Akt ratio in favor of apoptosis. In this study, we utilized a genomic approach to identify potential downstream target genes that are regulated by TGF-beta/Smad3. Total RNA samples were analyzed using Affymetrix oligonucleotide microarrays. We found that TGF-beta regulated 518 probe sets corresponding to its target genes. Interestingly, among the known apoptotic genes included in the microarray analyses, only caspase-3 was induced, which was confirmed by real-time RT-PCR. Furthermore, TGF-beta activated caspase-3 through protein cleavage. Upstream of caspase-3, TGF-beta induced mitochondrial depolarization, cytochrome c release, and cleavage of caspase-9, which suggests that the intrinsic apoptotic pathway mediates TGF-beta-induced apoptosis in RIE-1/Smad3 cells.

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Functional Genomic Analysis Reveals Cross-talk between Peroxisome Proliferator-activated Receptor γ and Calcium Signaling in Human Colorectal Cancer Cells

Bush

Havens

Necela

et al. 2007

Journal of Biological Chemistry

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Activation of PPAR␥ in MOSER cells inhibits anchoragedependent and anchorage-independent growth and invasion through Matrigel-coated transwell membranes. We carried out a longitudinal two-class microarray analysis in which mRNA abundance was measured as a function of time in cells treated with a thiazolidinedione PPAR␥ agonist or vehicle. A statistical machine learning algorithm that employs an empirical Bayesian implementation of the multivariate HotellingT2 score was used to identify differentially regulated genes. HotellingT2 scores, MB statistics, and maximum median differences were used as figures of merit to interrogate genomic ontology of these targets. Three major cohorts of genes were regulated: those involved in metabolism, DNA replication, and migration/motility, reflecting the cellular phenotype that attends activation of PPAR␥. The bioinformatic analysis also inferred that PPAR␥ regulates calcium signaling. This response was unanticipated, because calcium signaling has not previously been associated with PPAR␥ activation. Ingenuity pathway analysis inferred that the nodal point in this cross-talk was Down syndrome critical region 1 (DSCR1). DSCR1 is an endogenous calcineurin inhibitor that blocks dephosphorylation and activation of members of the cytoplasmic component of nuclear factor of activated T cells transcription factors. Lentiviral short hairpin RNA-mediated knockdown of DSCR1 blocks PPAR␥ inhibition of proliferation and invasion, indicating that DSCR1 is required for suppression of transformed properties of early stage colorectal cancer cells by PPAR␥. These data reveal a novel, heretofore unappreciated link between PPAR␥ and calcium signaling and indicate that DSCR1, which has previously been thought to function by suppression of the angiogenic response in endothelial cells, may also play a direct role in transformation of epithelial cells.

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Genomic Analysis of Glucocorticoid-regulated Promoters in Murine T-lymphoma Cells

Chen

Finnerty

Gustafson

et al. 2003

Recent Progress in Hormone Research

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We have undertaken a high-throughput analysis to identify targets of glucocorticoid regulation in P1798 murine T-lymphoma cells. G1/S-arrested cultures were treated for 8 hours with 0.1 M dexamethasone (dex) in the presence and absence of 1 g/ml cycloheximide. Untreated cultures and cultures exposed to cycloheximide alone were prepared as controls. RNA was isolated and gene expression analyzed using Affymetrix MG-U74A oligonucleotide arrays (Gene Chips ® ). Three independent experiments were performed. The data were analyzed using a variety of statistical and analytical approaches in order to identify primary transcriptional targets of the glucocorticoid receptor. We identified 44 genes that increase by Ͼ 2-fold in both dex-treated and dex ϩ cycloheximide-treated cultures (relative to control and cycloheximide-treated cultures) in three replicate experiments. Statistical analysis of control data indicate that the probability that a given probeset would, as a result of random error, increase Ͼ 2-fold both in the presence and absence of cycloheximide in two independent experiments is approximately 7 ϫ 10 Ϫ9 . We have retrieved from the Celera mouse genomic sequence 8 kb of promoter sequence, spanning 4 kb either side of the 5Ј-end of the cDNA from eight of the induced genes. These sequences were analyzed for potential glucocorticoid receptor binding sites. Five of these genes contain the sequence ACAnnnTGTnCT within 4 kb of the presumptive transcriptional start site. Eight control genes were selected at random and analyzed for the sequence ACAnnnTGTnCT. Two control genes had such sequences within 4 kb of the transcriptional start site.

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Craig R. Bush

RS5444, a novel PPARγ agonist, regulates aspects of the differentiated phenotype in nontransformed intestinal epithelial cells

Differential expression, distribution, and function of PPAR-γ in the proximal and distal colon

Identification of apoptotic genes mediating TGF-β/Smad3-induced cell death in intestinal epithelial cells using a genomic approach

Functional Genomic Analysis Reveals Cross-talk between Peroxisome Proliferator-activated Receptor γ and Calcium Signaling in Human Colorectal Cancer Cells

Genomic Analysis of Glucocorticoid-regulated Promoters in Murine T-lymphoma Cells

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