Rachel Pratt scite author profile

Rachel Pratt

5Publications

83Citation Statements Received

305Citation Statements Given

How they've been cited

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316

293

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Roswell Park Cancer Institute

Publications

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TRAIN (Transcription of Repeats Activates INterferon) in response to chromatin destabilization induced by small molecules in mammalian cells

Leonova

Safina

Nesher

et al. 2018

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Cellular responses to the loss of genomic stability are well-established, while how mammalian cells respond to chromatin destabilization is largely unknown. We previously found that DNA demethylation on p53-deficient background leads to transcription of repetitive heterochromatin elements, followed by an interferon response, a phenomenon we named TRAIN (Transcription of Repeats Activates INterferon). Here, we report that curaxin, an anticancer small molecule, destabilizing nucleosomes via disruption of histone/DNA interactions, also induces TRAIN. Furthermore, curaxin inhibits oncogene-induced transformation and tumor growth in mice in an interferon-dependent manner, suggesting that anticancer activity of curaxin, previously attributed to p53-activation and NF-kappaB-inhibition, may also involve induction of interferon response to epigenetic derepression of the cellular ‘repeatome’. Moreover, we observed that another type of drugs decondensing chromatin, HDAC inhibitor, also induces TRAIN. Thus, we proposed that TRAIN may be one of the mechanisms ensuring epigenetic integrity of mammalian cells via elimination of cells with desilenced chromatin.

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Effects of cooking methods on total isothiocyanate yield from cruciferous vegetables

Wang

Kwan

Pratt

et al. 2020

Food Science & Nutrition

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The cancer-preventive potential of cruciferous vegetables has drawn public and research interests, primarily due to their unique phytochemicals, dietary isothiocyanates (ITCs). Cruciferous vegetables consist of a diverse group of vegetables containing glucosinolates, the precursors of ITCs (Holst & Williamson, 2004). Glucosinolates are segregated from the endogenous enzyme myrosinase in intact plants. When vegetables are chopped or chewed, glucosinolates are hydrolyzed due to the released myrosinase (Higdon, Delage, Williams, & Dashwood, 2007). ITCs are one of the hydrolyzed products from glucosinolates and have long been known to be biologically active because of its chemical structure of-N=C=S group (Fenwick, Heaney, Mullin, & VanEtten, 1983). The anticancer property of dietary ITCs, which was not recognized until the early 1990s, has been supported by a rapid growth of preclinical evidence in various cancer models (Chung, Morse,

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1α,25(OH)2D3 differentially regulates miRNA expression in human bladder cancer cells

Luo

et al. 2015

The Journal of Steroid Biochemistry and Molecular Biology

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Bladder cancer is the fourth most commonly diagnosed cancer in men and eighth leading cause of cancer-related death in the US. Epidemiological and experimental studies strongly suggest a role for 1α,25(OH)2D3 in cancer prevention and treatment. The antitumor activities of 1α,25(OH)2D3 are mediated by the induction of cell cycle arrest, apoptosis, differentiation and the inhibition of angiogenesis and metastasis. MiRNAs play important regulatory roles in cancer development and progression. However, the role of 1α,25(OH)2D3 in the regulation of miRNA expression and the potential impact in bladder cancer has not been investigated. Therefore, we studied 1α,25(OH)2D3-regulated miRNA expression profiles in human bladder cancer cell line 253J and the highly tumorigenic and metastatic derivative line 253J-BV by miRNA qPCR panels. 253 J and 253J-BV cells express endogenous vitamin D receptor (VDR) which can be further induced by 1α,25(OH)2D3. VDR target gene 24-hydroxylase was induced by 1α,25(OH)2D3 in both cell lines, indicating functional 1α,25(OH)2D3 signaling. The miRNA qPCR panel assay results showed that 253J and 253J-BV cells have distinct miRNA expression profiles. Further, 1α,25(OH)2D3 differentially regulated miRNA expression profiles in 253J and 253 J-BV cells in a dynamic manner. Pathway analysis of the miRNA target genes revealed distinct patterns of contribution to the molecular functions and biological processes in the two cell lines. In conclusion, 1α,25(OH)2D3 differentially regulates the expression of miRNAs, which may contribute to distinct biological functions, in human bladder 253J and 253J-BV cells.

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1,25D3 differentially suppresses bladder cancer cell migration and invasion through the induction of miR-101-3p

Luo

Bunch

et al. 2017

Oncotarget

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Metastasis is the major cause of bladder cancer death. 1,25D3, the active metabolite of vitamin D, has shown anti-metastasis activity in several cancer model systems. However, the role of 1,25D3 in migration and invasion in bladder cancer is unknown. To investigate whether 1,25D3 affects migration and invasion, four human bladder cell lines with different reported invasiveness were selected: low-invasive T24 and 253J cells and highly invasive 253J-BV and TCCSUP cells. All of the four bladder cancer cells express endogenous and inducible vitamin D receptor (VDR) as examined by immunoblot analysis. 1,25D3 had no effect on the proliferation of bladder cancer cells as assessed by MTT assay. In contrast, 1,25D3 suppressed migration and invasion in the more invasive 253J-BV and TCCSUP cells, but not in the low-invasive 253J and T24 cells using “wound” healing, chemotactic migration and Matrigel-based invasion assays. 1,25D3 promoted the expression of miR-101-3p and miR-126-3p in 253J-BV cells as examined by qRT-PCR. miR-101-3p inhibitor partially abrogated and pre-miR-101-3p further suppressed the inhibition of 1,25D3 on migration and invasion in 253J-BV cells. Further, 1,25D3 enhanced VDR recruitment to the promoter region of miR-101-3p using ChIP-qPCR assay. 1,25D3 enhanced the promoter activity of miR-101-3p as evaluated by luciferase reporter assay. Taken together, 1,25D3 suppresses bladder cancer cell migration and invasion in two invasive/migration competent lines but not in two less invasive/motile lines, which is partially through the induction of miR-101-3p expression at the transcriptional level.

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An active and selective molecular mechanism mediating the uptake of sex steroids by prostate cancer cells

Parsons

Pratt

Tang

et al. 2018

Molecular and Cellular Endocrinology

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Rachel Pratt

TRAIN (Transcription of Repeats Activates INterferon) in response to chromatin destabilization induced by small molecules in mammalian cells

Effects of cooking methods on total isothiocyanate yield from cruciferous vegetables

1α,25(OH)2D3 differentially regulates miRNA expression in human bladder cancer cells

1,25D3 differentially suppresses bladder cancer cell migration and invasion through the induction of miR-101-3p

An active and selective molecular mechanism mediating the uptake of sex steroids by prostate cancer cells

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