Stefano Leone scite author profile

The capability of 17beta-estradiol (E2) to induce the non-genomic activities of its receptors (ER alpha and ER beta) and to evoke different signaling pathways committed to the regulation of cell proliferation has been analyzed in different cell cancer lines containing transfected (HeLa) or endogenous (HepG2, DLD1) ER alpha or ER beta. In these cell lines, E2 induced different effects on cell growth/apoptosis in dependence of ER isoforms present. The E2-ER alpha complex rapidly activated multiple signal transduction pathways (i.e., ERK/MAPK, PI3K/AKT) committed to both cell cycle progression and apoptotic cascade prevention. On the other hand, the E2-ER beta complex induced the rapid and persistent phosphorylation of p38/MAPK which, in turn, was involved in caspase-3 activation and cleavage of poly(ADP-ribose)polymerase, driving cells into the apoptotic cycle. In addition, the E2-ER beta complex did not activate any of the E2-ER alpha-activated signal molecules involved in cell growth. Taken together, these results demonstrate the ability of ER beta isoform to activate specific signal transduction pathways starting from plasma membrane that may justify the effect of E2 in inducing cell proliferation or apoptosis in cancer cells. In particular this hormone promotes cell survival through ER alpha non-genomic signaling and cell death through ER beta non-genomic signaling.

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Oxidative Stress Induces Persistent Telomeric DNA Damage Responsible for Nuclear Morphology Change in Mammalian Cells

Coluzzi

et al. 2014

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One main function of telomeres is to maintain chromosome and genome stability. The rate of telomere shortening can be accelerated significantly by chemical and physical environmental agents. Reactive oxygen species are a source of oxidative stress and can produce modified bases (mainly 8-oxoG) and single strand breaks anywhere in the genome. The high incidence of guanine residues in telomeric DNA sequences makes the telomere a preferred target for oxidative damage. Our aim in this work is to evaluate whether chromosome instability induced by oxidative stress is related specifically to telomeric damage. We treated human primary fibroblasts (MRC-5) in vitro with hydrogen peroxide (100 and 200 µM) for 1 hr and collected data at several time points. To evaluate the persistence of oxidative stress-induced DNA damage up to 24 hrs after treatment, we analysed telomeric and genomic oxidative damage by qPCR and a modified comet assay, respectively. The results demonstrate that the genomic damage is completely repaired, while the telomeric oxidative damage persists. The analysis of telomere length reveals a significant telomere shortening 48 hrs after treatment, leading us to hypothesise that residual telomere damage could be responsible for the telomere shortening observed. Considering the influence of telomere length modulation on genomic stability, we quantified abnormal nuclear morphologies (Nucleoplasmic Bridges, Nuclear Buds and Micronuclei) and observed an increase of chromosome instability in the same time frame as telomere shortening. At subsequent times (72 and 96 hrs), we observed a restoration of telomere length and a reduction of chromosome instability, leaving us to conjecture a correlation between telomere shortening/dysfunction and chromosome instability. We can conclude that oxidative base damage leads to abnormal nuclear morphologies and that telomere dysfunction is an important contributor to this effect.

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α-Bisabolol, a nontoxic natural compound, strongly induces apoptosis in glioma cells

Cavalieri

Mariotto

Fabrizi

et al. 2004

Biochemical and Biophysical Research Communications

130

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Mechanisms of Naringenin‐induced Apoptotic Cascade in Cancer Cells: Involvement of Estrogen Receptor a and ß Signalling

et al. 2004

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SummaryThe flavanone naringenin (Nar), especially abundant in the Mediterranean diet, is reported to have anti-proliferative effects in many cancer cell lines. Antioxidant activities, kinase and glucose uptake inhibition have been proposed as molecular mechanisms for these effects. In addition, an anti-estrogenic activity has been observed but, at the present, it is poorly understood whether this latter activity could play a role in the Nar anti-tumoral effects. Here, we tested the ability of Nar to activate a specific, rapid signal transduction pathway committed to the generation of an apoptotic cascade in the presence of one of the two estrogen receptor (ER) isoforms (i.e., ERa or ERb). Cancer cells containing transfected (human cervix epitheloid carcinoma HeLa cells) or endogenous ERa (human hepatoma HepG2 cells) or ERb (human colon adenocarcinoma DLD-1 cells) were used. Our results show that Nar exerts an anti-proliferative effect only in the presence of ERa or ERb. Moreover, Nar stimulation induces the activation of p38/ MAPK leading to the pro-apoptotic caspase-3 activation and to the poly(ADP-ribose) polymerase cleavage in all cancer cell lines considered. Notably, Nar shows an anti-estrogenic effect only in ERa containing cells; whereas in ERb containing cells, Nar mimics the 17b-estradiol effects. These findings indicate new steps in the mechanism underlying ER-dependent anti-proliferative effects of Nar suggesting new potential chemopreventive actions of flavonoids on cancer growth. IUBMB Life, 56: 491-499, 2004

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S100B protects LAN‐5 neuroblastoma cells against Aβ amyloid‐induced neurotoxicity via RAGE engagement at low doses but increases Aβ amyloid neurotoxicity at high doses

Businaro

Leone

Fabrizi

et al. 2006

J of Neuroscience Research

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At the concentrations normally found in the brain extracellular space the glial-derived protein, S100B, protects neurons against neurotoxic agents by interacting with the receptor for advanced glycation end products (RAGE). It is known that at relatively high concentrations S100B is neurotoxic causing neuronal death via excessive stimulation of RAGE. S100B is detected within senile plaques in Alzheimer's disease, where its role is unknown. The present study was undertaken to evaluate a putative neuroprotective role of S100B against Abeta amyloid-induced neurotoxicity. We treated LAN-5 neuroblastoma cultures with toxic amounts of Abeta25-35 amyloid peptide. Our results show that at nanomolar concentrations S100B protects cells against Abeta-mediated cytotoxicity, as assessed by 3-(4,5-dimethyl-thiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) and terminal deoxynucleotidyl transferase-mediated dUTP-fluorescein isothiocyanate nick end-labeling (TUNEL) experiments, by countering the Abeta-mediated decrease in the expression of the anti-apoptotic factor Bcl-2. This effect depends on S100B binding to RAGE because S100B is unable to contrast Abeta-mediated neurotoxicity in neurons overexpressing a signaling-deficient RAGE mutant lacking the cytosolic and transducing domain. Our data suggest that at nanomolar doses S100B counteracts Abeta peptide neurotoxicity in a RAGE-mediated manner. However, at micromolar doses S100B is toxic to LAN-5 cells and its toxicity adds to that of the Abeta peptide, suggesting that additional molecular mechanisms may be involved in the neurotoxic process.

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Stefano Leone

Survival versus apoptotic 17β‐estradiol effect: Role of ERα and ERβ activated non‐genomic signaling

Oxidative Stress Induces Persistent Telomeric DNA Damage Responsible for Nuclear Morphology Change in Mammalian Cells

α-Bisabolol, a nontoxic natural compound, strongly induces apoptosis in glioma cells

Mechanisms of Naringenin‐induced Apoptotic Cascade in Cancer Cells: Involvement of Estrogen Receptor a and ß Signalling

S100B protects LAN‐5 neuroblastoma cells against Aβ amyloid‐induced neurotoxicity via RAGE engagement at low doses but increases Aβ amyloid neurotoxicity at high doses

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