Brenda Alston-Mills scite author profile

We previously showed that nonsteroidal anti-inflammatory drugs (NSAID) such as sulindac sulfide, which has chemopreventive activity, modulate the expression of several genes detected by microarray analysis. Activating transcription factor 3 (ATF3) was selected for further study because it is a transcription factor involved in cell proliferation, apoptosis, and invasion, and its expression is repressed in human colorectal tumors as compared with normal adjacent tissue. In this report, we show that ATF3 mRNA and protein expression are up-regulated in HCT-116 human colorectal cancer cells following treatment with NSAIDs, troglitazone, diallyl disulfide, and resveratrol. To ascertain the biological significance of ATF3, we overexpressed full-length ATF3 protein in the sense and antisense orientations. Overexpression of ATF3 in the sense orientation decreased focus formation in vitro and reduced the size of mouse tumor xenografts by 54% in vivo. Conversely, overexpression of antisense ATF3 was protumorigenic in vitro, however, not in vivo. ATF3 in the sense orientation did not modulate apoptosis, indicating another mechanism is involved. With microarray analysis, several genes relating to invasion and metastasis were identified by ATF3 overexpression and were confirmed by real-time reverse transcription-PCR, and several of these genes were modulated by sulindac sulfide, which inhibited invasion in these cells. Furthermore, overexpression of ATF3 inhibited invasion to a similar degree as sulindac sulfide treatment, whereas antisense ATF3 increased invasion. In conclusion, ATF3 represents a novel mechanism in which NSAIDs exert their anti-invasive activity, thereby linking ATF3 and its gene regulatory activity to the biological activity of these compounds. [Mol Cancer Ther 2005;4(5):693 -703]

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Major Minerals and Ionic Constituents of Human and Bovine Milks

Atkinson¹,

Alston-Mills²,

Lönnerdal³

et al. 1995

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Gene modulation by Cox-1 and Cox-2 specific inhibitors in human colorectal carcinoma cancer cells

Bottone

Martinez²,

Alston-Mills³

et al. 2003

Carcinogenesis

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Cox-1 and Cox-2 specific inhibitors exert chemo-preventative activity. However, the exact mechanisms for this activity remain unclear. Increasing evidence suggests that non-steroidal anti-inflammatory drugs regulate gene expression, which may be responsible, in part, for this activity. In this study, human colorectal carcinoma HCT-116 cells were treated with the Cox-1 specific inhibitor SC-560 and the Cox-2 specific inhibitor SC-58125 to evaluate their ability to induce apoptosis, inhibit cell proliferation, inhibit growth on soft agar and modulate gene expression. The Cox-1 specific inhibitor, SC-560 significantly induced apoptosis and inhibited the growth of HCT-116 cells on soft agar, an in vitro assay for tumorigenicity. SC-58125 moderately induced apoptosis and inhibited growth on soft agar at higher concentrations than were required for SC-560. Previously, we reported that the potent chemo-preventative drug sulindac sulfide altered the expression of eight genes including several transcription factors that may be linked to this drug's chemo-preventative activity. HCT-116 cells were treated with various concentrations of SC-560 or SC-58125 and changes in the expression of these eight genes were determined by real-time reverse transcription- polymerase chain reaction. SC-560 modulated mRNA expression of the eight genes studied. In contrast, SC-58125 required approximately 5-10-fold higher concentrations to achieve similar degrees of gene modulation in six of eight genes. Changes in protein expression by SC-560 also occurred for five of these genes with antibodies available (NAG-1, ATF3, C/EBPbeta, MAD2 and MSX1). In conclusion, this is the first report to suggest that like sulindac sulfide, the Cox-1 specific inhibitor SC-560 appears to elicit chemo-preventative activity by altering gene expression, while the chemo-preventative effects of SC-58125 are complex and probably work through these and other mechanisms, such as the inhibition of Cox-2.

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Transcriptional Regulation of Activating Transcription Factor 3 Involves the Early Growth Response-1 Gene

Bottone

Moon²,

Alston-Mills³

et al. 2005

J Pharmacol Exp Ther

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Previously, our laboratory identified activating transcription factor 3 (ATF3) as up-regulated by nonsteroidal anti-inflammatory drugs using microarray analysis of mRNA from human colorectal cancer cells treated with sulindac sulfide. ATF3 is a transcription factor involved in cell growth, apoptosis, and invasion and is induced by a variety of anticancer and dietary compounds. However, the regulation of ATF3 by anticancer agents is not known. The promoter of ATF3 contains several transcription factor binding sites. We identified three putative Egr-1 binding sites in the promoter of ATF3 and report for the first time that the molecular mechanism responsible for the transcriptional regulation of ATF3 by two divergent pharmaceutical compounds, sulindac sulfide and troglitazone, involved the early growth response gene-1 (Egr-1). For example, overexpression of Egr-1 protein induced ATF3 mRNA 3.5-fold and transcriptional activity of an ATF3 promoter construct more than 20-fold. ATF3 and Egr-1 mRNA and protein and ATF3 promoter activity were induced by these compounds, whereas induction of ATF3 by these compounds was blocked by Egr-1 small interfering RNA. Sulindac sulfide and troglitazone regulated ATF3 promoter activity, which was suppressed when the two Egr-1 sites were mutated. These compounds induced phosphorylation of extracellular signal-regulated kinase1/2 (Erk1/2), whereas a dominant-negative inhibitor of mitogenactivate protein kinase kinase (MEK) 1 blocked the induction of ATF3. The MEK1/2 inhibitor PD98059 (2Ј-amino-3Ј-methoxyflavone) blocked the induction of ATF3 and Egr-1 mRNA expression and ATF3 promoter activity by these compounds. Therefore, this is a novel first report demonstrating that the expression of ATF3 occurs via Egr-1 downstream of Erk1/2.

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Determination of membrane lipid differences in insulin resistant diabetes mellitus type 2 in whites and blacks

Allen

Boyd

et al. 2006

Nutrition

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