Sharla M. O. Phipps scite author profile

Epigenetic control provides a mechanism for the reversible silencing of telomerase expression that occurs as a natural consequence of differentiation. Significant overlap between indirect telomerase regulation pathways and cell cycle checkpoint pathways exist, suggesting that these discrete genetic elements (namely, p21, p53, and hTERT) synergistically cooperate to inhibit tumorigenesis. Mutations in these pathways have been known to contribute to cancer formation. However, the incorporation of epigenetic regulatory mechanisms provides another line of defense against these negative occurrences. These proteins are also implicated in the process of senescence, caused in eukaryotic cell lines by telomere shortening. Although the debate continues, there is significant evidence to classify the process of cellular senescence as an in vitro model for human aging. In addition, the study of stem cells gives information about the down-regulation of hTERT in the aging process. Diseases such as Werner S syndrome, ATM (ataxia telangiectasia mutated kinase), DKC (dyskeratosis congenita), and atherosclerosis have been linked to aberrant telomerase expression and other aging-related tissue malfunctions could be related to the presence of senescent cells changing the cellular microenvironment. Therefore, restoring telomerase activity as a putative therapeutic strategy necessitates further study to elucidate the intricacies linking genetic and epigenetic modulations of hTERT.

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Aging Cell Culture

Phipps

Berletch

Andrews

et al. 2007

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Culturing and subcultivation of normal human diploid fibroblasts have advanced our understanding of the molecular events involved in aging. This progress is leading to the development of therapies that slow or ablate the adverse physiological and pathological changes associated with aging. It has been established that normal human diploid fibroblasts can proliferate in culture for only finite periods of time. Hayflick and Moorhead and others have described numerous types of cells, ranging from fetal to adult, that were incapable of indefinite proliferation. There are many ways to study aging in vitro, and this chapter summarizes some laboratory procedures.

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The low-toxicity 9-cis UAB30 novel retinoid down-regulates the DNA methyltransferases and has anti-telomerase activity in human breast cancer cells

Hansen

Wylie²,

Phipps³

et al. 2007

Int J Oncol

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Retinoic acids and their derivatives potentiate anticancer effects in breast cancer cells. The aberrant expression of telomerase is critical to the continued proliferation of most cancer cells. Thus, telomerase is an attractive target for chemoprevention and treatment of breast cancer. 9cUAB30 is a novel synthetic retinoid X receptor-selective retinoic acid (RA) that effectively reduces the tumorigenic phenotype in mouse breast carcinoma with lower toxic effects than natural retinoid treatments. We have assessed 9cUAB30 retinoic acid treatment of human breast cancer cells to determine the potential of this drug as an effective telomerase inhibitor and its application to cancer therapy. 9cUAB30 was found to decrease DNA methyltransferase and telomerase expression in MDA-MB-361, T-47D, and MCF-7 human breast cancer cells and to inhibit the proliferation of these cells. This lowtoxicity retinoid also reduced colony formation in soft agar assays in each of these cell types. Combination treatments of 9cUAB30 and all-trans RA proved to be synergistically more effective than either RA alone, further suggesting a possible general epigenetic mechanism that contributes to the antitelomerase activity of the retinoids. Therefore, the novel retinoid, 9cUAB30, is effective in inhibiting the growth of human breast cancer cells, its anti-cancer effects appear to be related to telomerase inhibition and the mechanism for this process could be mediated through epigenetic modifications.

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The Novel Retinoid, 9cUAB30, Inhibits Telomerase and Induces Apoptosis in HL60 Cells

Love

DeAngelis

Berletch

et al. 2008

Translational Oncology

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Telomerase, a ribonucleoprotein important to neoplastic immortality, is up-regulated in approximately 85% of cancers, including leukemias. In this study, 9cUAB30, a novel retinoic acid, resulted in differentiation of HL60 leukemia cells as indicated by morphologic changes characteristic of granulocytes. It also caused a down-regulation of hTERT gene expression and a decrease in telomerase activity. Telomerase inhibition was followed by loss of proliferative capacity, induction of apoptosis, and partial differentiation. These findings demonstrate the effectiveness of 9cUAB30 at inhibiting telomerase activity by down-regulating hTERT gene expression in human leukemic cells.

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A Method to Study the Expression of DNA Methyltransferases in Aging Systems In Vitro

Berletch

Phipps

Walthall

et al. 2007

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SummaryThe methylation of CpG dinucleotides located in key protein binding sites within gene regulatory regions often leads to gene silencing. A mechanism of aging is proposed whereby an accumulation of methylation at gene regulatory sites contributes to cellular senescence. DNA methyltransferases (DNMTs) are enzymes that catalyze the transfer of a methyl moiety from S-adenosyl-L-methionine (SAM) to the cytosine of a CpG dinucleotide and are responsible for establishing and maintaining methylation patterns in the genome. It is important to study not only transcription of the DNMTs, but also their protein expression because studies illustrate that it is possible for the enzymes to undergo posttranslational physical changes in response to stimulation even though gene transcription remains unchanged. Here, we discuss an in vitro method to study protein expression of DNMTs in aging systems.

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Sharla M. O. Phipps

Epigenetic control of telomerase and modes of telomere maintenance in aging and abnormal systems

Aging Cell Culture

The low-toxicity 9-cis UAB30 novel retinoid down-regulates the DNA methyltransferases and has anti-telomerase activity in human breast cancer cells

The Novel Retinoid, 9cUAB30, Inhibits Telomerase and Induces Apoptosis in HL60 Cells

A Method to Study the Expression of DNA Methyltransferases in Aging Systems In Vitro

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