Marike Herold scite author profile

In this study, we show that the novel synthetic curcumin analog, EF24, induces cell cycle arrest and apoptosis by means of a redox-dependent mechanism in MDA-MB-231 human breast cancer cells and DU-145 human prostate cancer cells. Cell cycle analysis demonstrated that EF24 causes a G2/M arrest in both cell lines, and that this cell cycle arrest is followed by the induction of apoptosis as evidenced by caspase-3 activation, phosphatidylserine externalization and an increased number of cells with a sub-G1 DNA fraction. In addition, we demonstrate that EF24 induces a depolarization of the mitochondrial membrane potential, suggesting that the compound may also induce apoptosis by altering mitochondrial function. EF24, like curcumin, serves as a Michael acceptor reacting with glutathione (GSH) and thioredoxin 1. Reaction of EF24 with these agents in vivo significantly reduced intracellular GSH as well as oxidized GSH in both the wild-type and Bcl-xL overexpressing HT29 human colon cancer cells. We therefore propose that the anticancer effect of a novel curcumin analog, EF24, is mediated in part by redox-mediated induction of apoptosis.

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Allylic CH Oxidation versus Epoxidation of 2-Cyclohexenols, Catalyzed by Chromium- and Manganese-Substituted Polyoxometalates and Salen Complexes

Adam

Herold

Hill

et al. 2002

Eur. J. Org. Chem.

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2-Cyclohexenol (1) is oxidized chemoselectively to 2-cyclohexenone (2a) by the α-Keggin chromium-substituted polyoxometalate (POM) Ia as the catalyst and iodosobenzene as the oxygen source. For the chromium(salen) catalyst IIa the same chemoselectivity in favor of allylic CH oxidation is observed. The manganese-substituted POM Ib and the manganese(salen) complex IIb, however, afford appreciable amounts of the epoxy alcohol 2b. For the stereolabeled 5-tert-butyl-2-cyclohexenols 5, the diastereoselectivity of the epoxidation was appreciable (syn:anti 82:18) in the case of

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Anticancer effects of monocarbonyl analogs of curcumin: oxidative stress, nuclear translocation and modulation of AP-1 and NF-κB

Adams

Herold

Ferstl

et al. 2015

Int J Cancer Ther Oncol

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Original Article AbstractPurpose: In order to elucidate anticancer effects of monocarbonyl analogs of curcumin (MACs), we have undertaken the present study to obtain information regarding drug targets by using a microarray approach, and to study the cellular localization of EF24 and the activity of two key transcription factors, AP-1 and NF-κB, involved in complex cellular responses of cell survival and death. Methods: Cytotoxic activity of various drugs was evaluated using a Neutral Red Dye assay. Cellular localization of biotinylated EF24 (active) and reduced EF24 (inactive) was determined using light and confocal microscopy. Measurement of transcription factor binding was carried out using Transfactor ELISA kits (BD Clontech, Palo Alto, CA). Gene microarray processing was performed at Expression Analysis, Inc (Durham, NC) using Affymetrix Human U133A Gene Chips. Results: In this study, we demonstrated that EF24 and UBS109 exhibit much more potent cytotoxic activity against pancreatic cancer than the current standard chemotherapeutic agent gemcitabine. EF24, rapidly localizes to the cell nucleus. The compound modulates the DNA binding activity of NF-κB and AP-1 in MDA-MB-231 human breast cancer cells and DU-145 human prostate cancer cells. Immunohistochemical studies utilizing biotinylated-EF24 and chemically-reduced EF24 show that the unsaturated compound and biotinylated EF24, but not reduced EF24, translocates to the nucleus within 30 minutes after the addition of drug. Through a gene microarray study, EF24 is shown to affect genes directly involved in cytoprotection, tumor growth, angiogenesis, metastasis and apoptosis. Conclusion: EF24 and UBS109 warrant further investigation for development of pancreatic cancer therapy. The dualistic modulations of gene expression may be a manifestation of the cell responses for survival against oxidative stress by EF24. However, the cytotoxic action of EF24 ultimately prevails to kill the cells.

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A Uniquely Accessible Route to the Diastereoselective Synthesis of Azetine Derivatives

Ambhaikar¹,

Herold²,

Liotta³

2004

HETEROCYCLES

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Marike Herold

Synthesis and biological evaluation of novel curcumin analogs as anti-cancer and anti-angiogenesis agents

EF24, a novel synthetic curcumin analog, induces apoptosis in cancer cells via a redox-dependent mechanism

Allylic CH Oxidation versus Epoxidation of 2-Cyclohexenols, Catalyzed by Chromium- and Manganese-Substituted Polyoxometalates and Salen Complexes

Anticancer effects of monocarbonyl analogs of curcumin: oxidative stress, nuclear translocation and modulation of AP-1 and NF-κB

A Uniquely Accessible Route to the Diastereoselective Synthesis of Azetine Derivatives

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