Valentina Zuco scite author profile

The novel atypical retinoid E-3-(4'-hydroxy-3'-adamantylbiphenyl-4-yl)acrylic acid (ST1926, 4) exhibited a potent antiproliferative activity on a large panel of human tumor cells. Despite almost complete loss of ability to activate RARs, the compound was an effective apoptosis inducer and surprisingly produced DNA damage, that likely contributes to the proapoptotic activity. Following oral administration, 4 was well tolerated and caused tumor growth inhibition in the ovarian carcinoma, A2780/DX, and in the human melanoma, MeWo, growing in nude mice, thus supporting the therapeutic interest of the novel agent.

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Induction of apoptosis and stress response in ovarian carcinoma cell lines treated with ST1926, an atypical retinoid

Zuco

Zanchi

Cassinelli

et al. 2003

Cell Death Differ

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To understand the molecular mechanisms mediating apoptosis induction by a novel atypical retinoid, ST1926, the cellular response to drug treatment was investigated in IGROV-1 ovarian carcinoma cells carrying wild-type p53 and a cisplatin-resistant p53 mutant subline (IGROV-1/Pt1). Despite a similar extent of drug-induced DNA strand breaks, the level of apoptosis was substantially higher in p53 wild-type cells. p53 activation and early upregulation of p53-target genes were consistent with p53-dependent apoptosis in IGROV-1 cells. Stress-activated protein kinases were activated in both cell lines in response to ST1926. This event and activation of AP-1 were more pronounced in IGROV-1/Pt1 cells, in which the modulation of DNA repair-associated genes suggests an increased ability to repair DNA damage. Inhibition of JNK or p38 stimulated ST1926-induced apoptosis only in IGROV-1 cells, whereas inhibition of ERKs enhanced apoptosis in both the cell lines. Such a pattern of cellular response and modulation of genes implicated in DNA damage response supports that the genotoxic stress is a critical event mediating drug-induced apoptosis. The results are consistent with apoptosis induction through p53-dependent andindependent pathways, regulated by MAP kinases, which likely play a protective role.

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Targeting the Akt Kinase to Modulate Survival, Invasiveness and Drug Resistance of Cancer Cells

Cassinelli

Zuco

Gatti

et al. 2013

CMC

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The deregulation of oncogenic signaling pathways which provide survival advantages to tumor cells is mediated by multiple cellular networks. Among them, the PI3K-Akt-mTOR axis, in particular the serine/threonine kinase Akt, is recognized as a key player. The kinase is hyperactivated due to a variety of mechanisms including loss of PTEN, mutations in the PI3K catalytic subunit, receptor tyrosine kinase and Ras activation. Indeed, inappropriate activation of the Akt kinase is a common event in human tumors and Akt appears to be a critical player in cell survival that may also account for the therapeutic resistance and the invasive phenotype of tumors. Inhibition of Akt signalling results in apoptosis and growth inhibition of tumour cells with elevated Akt activity. A functional role in drug resistance is supported by evidence that tumor cells with acquired resistance to antitumor agents may display increased Akt activation and that treatment with molecularly targeted agents can activate feed-back loops involving Akt. This serine/threonine kinase may therefore represent an amenable target for modulation of sensitivity to compounds with different molecular features due to its pleiotropic role in cell survival. Different types of Akt inhibitors [i.e., ATP mimetics and pleckstrin-homology (PH) domain binders] have been generated and some of them have reached the clinical setting. The present review focuses on the i) mechanisms implicating Akt in increased survival and invasive potential of tumor cells of different tumor types and ii) on the development of Akt inhibitors as modulators of drug resistance.

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The enhancement of antiproliferative and proapoptotic activity of HDAC inhibitors by curcumin is mediated by Hsp90 inhibition

Giommarelli

Zuco

Favini

et al. 2009

Cell. Mol. Life Sci.

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Curcumin, a natural polyphenol, has been described to exhibit effects on signaling pathways, leading to induction of apoptosis. In this study, we observed that curcumin inhibited Hsp90 activity causing depletion of client proteins implicated in survival pathways. Based on this observation, this study was designed to investigate the cellular effects of curcumin combination with the pan-HDAC inhibitors, vorinostat and panobinostat, which induce hyperacetylation of Hsp90, resulting in inhibition of its chaperone function. The results showed that, at subtoxic concentrations, curcumin markedly sensitized tumor cells to vorinostat- and panobinostat-induced growth inhibition and apoptosis. The sensitization was associated with persistent depletion of Hsp90 client proteins (EGFR, Raf-1, Akt, and survivin). In conclusion, our findings document a novel mechanism of action of curcumin and support the therapeutic potential of curcumin/HDAC inhibitors combination, because the synergistic interaction was observed at pharmacologically achievable concentrations, which were ineffective when each drug was used alone.

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miR-875-5p counteracts epithelial-to-mesenchymal transition and enhances radiation response in prostate cancer through repression of the EGFR-ZEB1 axis

et al. 2017

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Exosome-like Nanovectors for Drug Delivery in Cancer

Arrighetti

Corbo²,

Evangelopoulos

et al. 2019

CMC

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Cancer treatment still represents a formidable challenge, despite substantial advancements in available therapies being made over the past decade. One major issue is poor therapeutic efficacy due to a lack of specificity and low bioavailability. The progress of nanotechnology and the development of a variety of nanoplatforms have had a significant impact in improving the therapeutic outcome of chemotherapeutics. Nanoparticles can overcome various biological barriers and localize at tumor site, while simultaneously protecting a therapeutic cargo and increasing its circulation time. Despite this, due to their synthetic origin, nanoparticles are often detected by the immune system and preferentially sequestered by filtering organs. Exosomes have recently been investigated as suitable substitutes for the shortcomings of nanoparticles due to their biological compatibility and particularly small size (i.e., 30-150 nm). In addition, exosomes have been found to play important roles in cell communication, acting as natural carriers of biological cargoes throughout the body. This review aims to highlight the use of exosomes as drug delivery vehicles for cancer and showcases the various attempts used to exploit exosomes with a focus on the delivery of chemotherapeutics and nucleic acids.

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Valentina Zuco

Selective cytotoxicity of betulinic acid on tumor cell lines, but not on normal cells

Overcoming ABC transporter-mediated multidrug resistance: The dual role of tyrosine kinase inhibitors as multitargeting agents

A Novel Atypical Retinoid Endowed with Proapoptotic and Antitumor Activity

Induction of apoptosis and stress response in ovarian carcinoma cell lines treated with ST1926, an atypical retinoid

Targeting the Akt Kinase to Modulate Survival, Invasiveness and Drug Resistance of Cancer Cells

The enhancement of antiproliferative and proapoptotic activity of HDAC inhibitors by curcumin is mediated by Hsp90 inhibition

miR-875-5p counteracts epithelial-to-mesenchymal transition and enhances radiation response in prostate cancer through repression of the EGFR-ZEB1 axis

Exosome-like Nanovectors for Drug Delivery in Cancer

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