Vivian Morad scite author profile

A large number of natural products have been advocated as anticancer agents. Many of these compounds contain functional groups characterized by chemical reactivity. It is not clear whether distinct mechanisms of action can be attributed to such compounds. We used a chemical library screening approach to demonstrate that a substantial fraction (~20%) of cytotoxic synthetic compounds containing Michael acceptor groups inhibit proteasome substrate processing and induce a cellular response characteristic of proteasome inhibition. Biochemical and structural analyses showed binding to and inhibition of proteasome-associated cysteine deubiquitinases, in particular ubiquitin specific peptidase 14 (USP14). The results suggested that compounds bind to a crevice close to the USP14 active site with modest affinity, followed by covalent binding. A subset of compounds was identified where cell death induction was closely associated with proteasome inhibition and that showed significant antineoplastic activity in a zebrafish embryo model. These findings suggest that proteasome inhibition is a relatively common mode of action by cytotoxic compounds containing Michael acceptor groups and help to explain previous reports on the antineoplastic effects of natural products containing such functional groups.

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Multiple direct interactions of TBP with the MYC oncoprotein

Wei

Resetca

et al. 2019

Nat Struct Mol Biol

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Estradiol Affects Extracellular Leptin:Adiponectin Ratio in Human Breast Tissue in Vivo

Morad

Abrahamsson

Dabrosin

2014

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Estradiol, Tamoxifen, and Flaxseed Alter IL-1β and IL-1Ra Levels in Normal Human Breast Tissue in Vivo

Abrahamsson

Morad

Saarinen

et al. 2012

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Adipokines and Vascular Endothelial Growth Factor in Normal Human Breast Tissue in Vivo – Correlations and Attenuation by Dietary Flaxseed

Morad

Abrahamsson

Kjølhede

et al. 2016

J Mammary Gland Biol Neoplasia

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Exposure to sex steroids increases the risk of breast cancer but the exact mechanisms are yet to be elucidated. Events in the microenvironment are important for carcinogenesis. Diet containing phytoestrogens can affect the breast microenvironment and alter the risk of breast cancer. It has previously been shown that estrogen regulates extracellular levels of leptin, adiponectin, and VEGF in normal breast tissue in vivo. Whether these proteins correlate in breast tissue in vivo or if diet addition of flaxseed, a major source of phytoestrogens in Western diets, alters adipokine levels in breast tissue are unknown. We used microdialysis to sample proteins of normal human breast tissue and abdominal subcutaneous fat in situ in 34 pre-and postmenopausal women. In vitro, co-culture of breast cancer cells and primary human adipocytes was used. In vivo, in normal breast tissue, a significant positive correlation between VEGF and leptin was detected. No correlations were found in fat tissue. Co-culture of adipocytes and breast cancer cells per se increased the secretion of VEGF and leptin and enhanced the effects of estradiol compared to culture of either cell type alone. In vitro, inhibition of VEGF diminished the release of leptin while inhibition of leptin had no influence on VEGF secretion. The levels of leptin decreased and adiponectin increased after a dietary addition of 25 g of flaxseed/day for one menstrual cycle. We conclude that VEGF and leptin correlate significantly in normal human breast tissue in vivo and that dietary addition of flaxseed affect adipokine levels in the breast.

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Vivian Morad

Cytotoxic unsaturated electrophilic compounds commonly target the ubiquitin proteasome system

Multiple direct interactions of TBP with the MYC oncoprotein

Estradiol Affects Extracellular Leptin:Adiponectin Ratio in Human Breast Tissue in Vivo

Estradiol, Tamoxifen, and Flaxseed Alter IL-1β and IL-1Ra Levels in Normal Human Breast Tissue in Vivo

Adipokines and Vascular Endothelial Growth Factor in Normal Human Breast Tissue in Vivo – Correlations and Attenuation by Dietary Flaxseed

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