Your search keyword '"Cipolletti, Manuela"' showing total 26 results

1. Selective impact of ALK and MELK inhibition on ERα stability and cell proliferation in cell lines representing distinct molecular phenotypes of breast cancer

Author

Bartoloni, Stefania, Pescatori, Sara, Bianchi, Fabrizio, Cipolletti, Manuela, and Acconcia, Filippo

Published

2024

2. PMM2 controls ERα levels and cell proliferation in ESR1 Y537S variant expressing breast cancer cells

Author

Cipolletti, Manuela and Acconcia, Filippo

Published

2024

3. Clinically relevant CHK1 inhibitors abrogate wild-type and Y537S mutant ERα expression and proliferation in luminal primary and metastatic breast cancer cells

Author

Pescatori, Sara, Leone, Stefano, Cipolletti, Manuela, Bartoloni, Stefania, di Masi, Alessandra, and Acconcia, Filippo

Published

2022

4. The extra-nuclear interactome of the estrogen receptors: implications for physiological functions

Author

Acconcia, Filippo, Fiocchetti, Marco, Busonero, Claudia, Fernandez, Virginia Solar, Montalesi, Emiliano, Cipolletti, Manuela, Pallottini, Valentina, and Marino, Maria

Published

2021

5. Put “gender glasses” on the effects of phenolic compounds on cardiovascular function and diseases

Author

Campesi, Ilaria, Marino, Maria, Cipolletti, Manuela, Romani, Annalisa, and Franconi, Flavia

Published

2018

6. Correction: Montalesi et al. Divergent Effects of Daidzein and Its Metabolites on Estrogen-Induced Survival of Breast Cancer Cells. Cancers 2020, 12 , 167.

Author

Montalesi, Emiliano, Cipolletti, Manuela, Cracco, Patrizio, Fiocchetti, Marco, and Marino, Maria

Subjects

*BREAST tumors, *ISOFLAVONES, *APOPTOSIS, *ESTROGEN, *CELL lines, *METABOLITES, *ESTROGEN receptors, *CELL survival, *PACLITAXEL

Published

2024

7. A functional genetic screen for metabolic proteins unveils GART and the de novo purine biosynthetic pathway as novel targets for the treatment of luminal A ERα expressing primary and metastatic invasive ductal carcinoma.

Author

Cipolletti, Manuela, Leone, Stefano, Bartoloni, Stefania, and Acconcia, Filippo

Subjects

DUCTAL carcinoma, GENETIC testing, METASTASIS, DRUG analysis, CELL proliferation, WARBURG Effect (Oncology), ESTROGEN

Abstract

Targeting tumor cell metabolism is a new frontier in cancer management. Thus, metabolic pathway inhibitors could be used as anti-estrogen receptor a (ERa) breast cancer (BC) drugs. Here, the interplay among metabolic enzyme(s), the ERa levels and cell proliferation was studied. siRNA-based screen directed against different metabolic proteins in MCF10a, MCF-7 and MCF-7 cells genetically resistant to endocrine therapy (ET) drugs and metabolomic analyses in numerous BC cell lines unveil that the inhibition of GART, a key enzyme in the purine de novo biosynthetic pathway, induces ERα degradation and prevent BC cell prolifertion. We report here that a reduced GART expression correlates with a longer relapse-free-survival (RFS) in women with ERα-positive BCs. ERα-expressing luminal A invasive ductal carcinomas (IDCs) are sensitive to GART inhibition and GART expression is increased in receptor-positive IDCs of high grade and stage and plays a role in the development of ET resistance. Accordingly, GART inhibition reduces ERα stability and cell proliferation in IDC luminal A cells where it deregulates 17β-estradiol (E2):ERα signaling to cell proliferation. Moreover, the GART inhibitor lometrexol (LMX) and drugs approved for clinical treatment of primary and metastatic BC (4OH-tamoxifen and the CDK4/CDK6 inhibitors) exert synergic antiproliferative effects in BC cells. In conclusion, GART inhibition by LMX or other inhibitors of the de novo purine biosynthetic pathway could be a novel effective strategy for the treatment of primary and metastatic BCs. [ABSTRACT FROM AUTHOR]

Published

2023

8. A combined fermentative-chemical approach for the scalable production of pure E. coli monophosphoryl lipid A

Author

Pieretti, Giuseppina, Cipolletti, Manuela, D’Alonzo, Daniele, Alfano, Alberto, Cimini, Donatella, Cammarota, Marcella, Palumbo, Giovanni, Giuliano, Mariateresa, De Rosa, Mario, Schiraldi, Chiara, Parrilli, Michelangelo, Bedini, Emiliano, and Corsaro, Maria Michela

Published

2014

9. A Novel Resveratrol-Induced Pathway Increases Neuron-Derived Cell Resilience against Oxidative Stress.

Author

Cracco, Patrizio, Montalesi, Emiliano, Parente, Martina, Cipolletti, Manuela, Iucci, Giovanna, Battocchio, Chiara, Venditti, Iole, Fiocchetti, Marco, and Marino, Maria

Subjects

OXIDATIVE stress, CELL death, GOLD nanoparticles, PSYCHOLOGICAL resilience, HYDROGEN peroxide, NEURODEGENERATION

Abstract

A promising therapeutic strategy to delay and/or prevent the onset of neurodegenerative diseases (NDs) could be to restore neuroprotective pathways physiologically triggered by neurons against stress injury. Recently, we identified the accumulation of neuroglobin (NGB) in neuronal cells, induced by the 17β-estradiol (E2)/estrogen receptor β (ERβ) axis, as a protective response that increases mitochondria functionality and prevents the activation of apoptosis, increasing neuron resilience against oxidative stress. Here, we would verify if resveratrol (Res), an ERβ ligand, could reactivate NGB accumulation and its protective effects against oxidative stress in neuronal-derived cells (i.e., SH-SY5Y cells). Our results demonstrate that ERβ/NGB is a novel pathway triggered by low Res concentrations that lead to rapid and persistent NGB accumulation in the cytosol and in mitochondria, where the protein contributes to reducing the apoptotic death induced by hydrogen peroxide (H2O2). Intriguingly, Res conjugation with gold nanoparticles increases the stilbene efficacy in enhancing neuron resilience against oxidative stress. As a whole, ERβ/NGB axis regulation is a novel mechanism triggered by low concentration of Res to regulate, specifically, the neuronal cell resilience against oxidative stress reducing the triggering of the apoptotic cascade. [ABSTRACT FROM AUTHOR]

Published

2023

10. The antiviral drug telaprevir induces cell death by reducing FOXA1 expression in estrogen receptor α (ERα)‐positive breast cancer cells.

Author

Bartoloni, Stefania, Leone, Stefano, Pescatori, Sara, Cipolletti, Manuela, and Acconcia, Filippo

Abstract

Previously, we found that telaprevir (Tel), the inhibitor of hepatitis C virus NS3/4A serine protease, reduces estrogen receptor α (ERα) content at the transcriptional level without binding to the receptor, prevents ERα transcriptional activity, and inhibits basal and 17β‐estradiol (E2)‐dependent cell proliferation in different breast cancer (BC) cell lines. Here, we further characterize the Tel action mechanisms on ERα levels and function, identify a possible molecular target of Tel in BC cells, and evaluate Tel as an antiproliferative agent for BC treatment. Tel‐dependent reduction in ERα levels and function depends on a Tel‐dependent decrease in FOXA1 levels and activity. The effect of Tel is transduced by the IGF1‐R/AKT/FOXA1 pathway, with the antiviral compound interacting with IGF1‐R. Tel prevents the proliferation of several BC cell lines, while it does not affect the proliferation of normal nontransformed cell lines, and its antiproliferative effect is correlated with the ratio of FOXA1/IGF1‐R expression. In conclusion, Tel interferes with the IGF1‐R/AKT/FOXA1 pathway and induces cell death in ERα‐expressing BC cells. Thus, we propose that this antiviral could be repurposed for the treatment of ERα‐expressing BC. [ABSTRACT FROM AUTHOR]

Published

2022

11. Real‐time measurement of E2: ERα transcriptional activity in living cells.

Author

Cipolletti, Manuela, Leone, Stefano, Bartoloni, Stefania, Busonero, Claudia, and Acconcia, Filippo

Subjects

*EPIDERMAL growth factor, *ESTROGEN receptors, *CYTOLOGY, *CELL membranes, *HELA cells, *CELLULAR control mechanisms

Abstract

Kinetic analyses of diverse physiological processes have the potential to unveil new aspects of the molecular regulation of cell biology at temporal levels. 17β‐estradiol (E2) regulates diverse physiological effects by binding to the estrogen receptor α (ERα), which primarily works as a transcription factor. Although many molecular details of the modulation of ERα transcriptional activity have been discovered including the impact of receptor plasma membrane localization and its relative E2‐evoked signaling, the knowledge of real‐time ERα transcriptional dynamics in living cells is lacking. Here, we report the generation of MCF‐7 and HeLa cells stably expressing a modified luciferase under the control of an E2‐sensitive promoter, which activity can be continuously monitored in living cells and show that E2 induces a linear increase in ERα transcriptional activity. Ligand‐independent (e.g., epidermal growth factor) receptor activation was also detected in a time‐dependent manner. Kinetic profiles of ERα transcriptional activity measured in the presence of both receptor antagonists and inhibitors of ERα plasma membrane localization reveal a biphasic dynamic of receptor behavior underlying novel aspects of receptor‐regulated transcriptional effects. Finally, analysis of the rate of the dose‐dependent E2 induction of ERα transcriptional activity demonstrates that low doses of E2 induce an effect identical to that determined by high concentrations of E2 as a function of the duration of hormone administration. Overall, we present the characterization of sensitive stable cell lines were to study the kinetic of E2 transcriptional signaling and to identify new aspects of ERα function in different physiological or pathophysiological conditions. [ABSTRACT FROM AUTHOR]

Published

2020

12. Neuroglobin As Key Mediator in the 17β-Estradiol-Induced Antioxidant Cell Response to Oxidative Stress.

Author

Solar Fernandez, Virginia, Cipolletti, Manuela, Ascenzi, Paolo, Marino, Maria, and Fiocchetti, Marco

Subjects

*OXIDATIVE stress, *CANCER cells, *FETAL hemoglobin, *TUMOR growth, *TRANSCRIPTION factors, *BREAST cancer

Abstract

Aims: Nuclear factor (erythroid-derived 2)-like-2 factor (NRF-2) is a transcription factor well known to provide an advantage for cancer growth and survival regulating the cellular redox pathway. In breast cancer cells, we recently identified the monomeric heme-globin neuroglobin (NGB) as part of a new mechanism induced by the steroid hormone 17β-estradiol (E2) against oxidative stress. While there is mounting evidence suggesting a critical role of NGB as a sensor of oxidative stress, scarce information is available about its involvement in NRF-2 pathway activation in breast cancer cells. Results: Although NGB is not involved in the rapid E2-induced NRF-2 stability, E2 loses the capacity to regulate the expression of NRF-2-dependent genes in NGB-depleted MCF-7 cells. These data strongly sustain a role of NGB as a compensatory protein in the E2-activated intracellular pathway devoted to the increase of cancer cells tolerance to reactive oxygen species (ROS) generation in stressing conditions acting as key regulator of NRF-2 pathway activity in a time-dependent manner. Innovation: In this study, we identified a new role of NGB in the cell response to oxidative stress. Conclusion: Altogether, reported results open new insights on the NGB effect in regulating intracellular pathways related to cell adaptive response to stress and, as consequence, to cell survival, beyond its direct effect as ROS scavenger, opening new prospective in cancer therapeutic intervention. [ABSTRACT FROM AUTHOR]

Published

2020

13. Potentiation of paclitaxel effect by resveratrol in human breast cancer cells by counteracting the 17β‐estradiol/estrogen receptor α/neuroglobin pathway.

Author

Cipolletti, Manuela, Montalesi, Emiliano, Nuzzo, Maria Teresa, Fiocchetti, Marco, Ascenzi, Paolo, and Marino, Maria

Subjects

*BREAST cancer treatment, *PACLITAXEL, *ESTROGEN receptors, *RESVERATROL, *PHOSPHORYLATION

Abstract

Neuroglobin (NGB), an antiapoptotic protein upregulated by 17β‐estradiol (E2), is part of E2/estrogen receptor α (ERα) pathway pointed to preserve cancer cell survival in presence of microenvironmental stressors including chemotherapeutic drugs. Here, the possibility that resveratrol (Res), an anticancer plant polyphenol, could increase the susceptibility of breast cancer cells to paclitaxel (Pacl) by affecting E2/ERα/NGB pathway has been evaluated. In MCF‐7 and T47D (ERα‐positive), but not in MDA‐MB 231 (ERα‐negative) nor in SK‐N‐BE (ERα and ERβ positive), Res decreases NGB levels interfering with E2/ERα‐induced NGB upregulation and with E2‐induced ERα and protein kinase B phosphorylation. Although Res treatment does not reduce cell viability by itself, this compound potentiates Pacl proapoptotic effects. Notably, the increase of NGB levels by NGB expression vector transfection prevents Pacl or Res/Pacl effects. Taken together, these findings indicate a new Res‐based mechanism that acts on tumor cells impairing the E2/ERα/NGB signaling pathways and increasing cancer cell susceptibility to chemotherapeutic agent. Res treatment does not reduce cancer cell viability by itself Res interferes with estradiol/estrogen receptor α‐induced NGB upregulation in breast cancer cells This new Res‐based mechanism potentiate cancer cell susceptibility to chemotherapeutic agent [ABSTRACT FROM AUTHOR]

Published

2019

14. Dissecting the 17β‐estradiol pathways necessary for neuroglobin anti‐apoptotic activity in breast cancer.

Author

Fiocchetti, Marco, Cipolletti, Manuela, Ascenzi, Paolo, and Marino, Maria

Subjects

*BREAST cancer, *ESTROGEN receptors, *CANCER chemotherapy, *IMMUNOHISTOCHEMISTRY, *APOPTOSIS

Abstract

Neuroglobin (NGB) is a relatively recent discovered monomeric heme‐protein, which behave in neurons as a sensor of injuring stimuli including oxidative stress, hypoxia, and neurotoxicity. In addition, the anti‐apoptotic activity of overexpressed NGB has been reported both in neurons and in cancer cell lines. We recently demonstrated that, NGB functions as a compensatory protein of the steroid hormone 17β‐estradiol (E2) protecting cancer cells against the apoptotic death induced by oxidative stress. However, the E2‐induced signaling pathways at the root of NGB over‐expression and mitochondrial re‐localization in breast cancer cells is still elusive. By using a kinase screening library, here, we report that: i) There is a strong positive correlation between NGB and ERα expression and activity in breast cancer cells; ii) The E2‐activated phosphatidyl‐inositol 3 kinase (PI3K)/protein kinase B (AKT) and protein kinase C (PKC) pathways are necessary to modulate the NGB protein levels; iii) The E2‐induced persistent activation of AKT drive NGB to mitochondria; iv) Reactive oxygen species (ROS)‐inducing compounds activating rapidly and transiently AKT does not affect the NGB mitochondrial level; and v) High level of NGB into mitochondria are necessary for the pro‐survival and anti‐apoptotic effect of this globin in cancer cells. As a whole, these results underline the E2 triggered pathways in E2‐responsive breast cancer cells that involve NGB as a compensatory protein devoted to cancer cell survival. [ABSTRACT FROM AUTHOR]

Published

2018

15. Compensatory role of Neuroglobin in nervous and non-nervous cancer cells in response to the nutrient deprivation.

Author

Fiocchetti, Marco, Cipolletti, Manuela, and Marino, Maria

Subjects

*NEURONS, *CANCER cell growth, *ENVIRONMENTAL engineering, *AUTOPHAGY, *NEUROBLASTOMA, *CELL survival

Abstract

Environmental factors or adverse growth conditions that may reduce cell function or viability are considered stress. The cell ability to sense and respond to environmental stresses determine its function and survival destiny. We recently defined Neuroglobin (NGB), a heme-protein, as a compensatory protein in the 17β-Estradiol (E2) anti-apoptotic activity and as a sensor of oxidative stress in both neurons and breast cancer cells. Here, the possibility that NGB levels could represent a pivotal regulator of integrated response of cancer cells to stress has been evaluated. Data obtained in neuroblastoma and in breast cancer cell lines evidence that nutrient deprivation significantly up-regulated NGB levels at different time points. However, the analysis of autophagy activation led to exclude any possible role of stress- or E2-induced NGB in the upstream regulation of general autophagy. However, the over-expression of Flag-NGB in ERα stable transfected HEK-293 cells completely affects nutrient deprivation-induced decrease in cell number. In addition, reported results indicate that modulation of the anti-apoptotic Bcl-2 level may play a key role in the protective NGB function against energetic stress. Overall, these data define a role of NGB as compensatory protein in the cell machinery activated in response to stress and as general stress adaptation marker of cancer cells susceptible to oxidative stress, oxygen and, as demonstrated here for the first time, even to nutrient willingness. Despite the lacking of any direct NGB role on autophagic flux activated by energetic stress, NGB upregulation appears functional in delaying stress-related cell death allowing an appropriate cell response and adaptation to the changing extracellular conditions. [ABSTRACT FROM AUTHOR]

Published

2017

16. Neuroglobin and friends.

Author

Fiocchetti, Marco, Cipolletti, Manuela, Brandi, Valentina, Polticelli, Fabio, and Ascenzi, Paolo

Abstract

In the year 2000, the third member of the globin family was discovered in human and mouse brain and named neuroglobin (Ngb). Neuroglobin overexpression significantly protects both heart and brain from hypoxic/ischemic and oxidative stress-related insults, whereas decreased Ngb levels lead to an exacerbation of tissue injuries. Moreover, Ngb overexpression protects neurons from mitochondrial dysfunctions and neurodegenerative disorders such as Alzheimer disease; however, it facilitates the survival of cancer cells. Neuroglobin, representing a switch point for cell death and survival, has been reported to recognize a number of proteins involved in several metabolic pathways including ionic homeostasis maintenance, energy metabolism, mitochondrial function, and cell signaling. Here, the recognition properties of Ngb are reviewed to highlight its roles in health and disease. [ABSTRACT FROM AUTHOR]

Published

2017

17. Neuroglobin overexpression induced by the 17 β-Estradiol-Estrogen receptor-α Pathway reduces the sensitivity of MCF-7 Breast cancer cell to paclitaxel.

Author

Fiocchetti, Marco, Cipolletti, Manuela, Leone, Stefano, Ascenzi, Paolo, and Marino, Maria

Subjects

*GENETIC overexpression, *GENE expression, *BREAST tumors, *ESTROGEN receptors, *CANCER cells, *PACLITAXEL

Abstract

Although paclitaxel (Taxol) is an active chemotherapeutic agent for the treatment of breast cancer, not all breast tumors are sensitive to this drug. In particular, there is a wide agreement on the low sensitivity of estrogen receptor (ER) α-positive breast cancer to paclitaxel treatment. However, the ERα-based insensitivity to paclitaxel is still elusive. Here, the effect of the E2/ERα-dependent upregulation of neuroglobin (NGB), an antiapoptotic globin, on the reduced sensitivity of breast cancer cells to paclitaxel-induced apoptosis has been evaluated in ERα-containing MCF-7 cells. The E2 pretreatment enhances the ERα activity and significantly impairs paclitaxel-induced apoptosis as evaluated by Annexin V assay and PARP-1 cleavage. NGB displays a pivotal role in the E2/ERα-induced antiapoptotic pathway to abrogate paclitaxel-induced cell death in stable NGB-silenced MCF-7 cell clones. Moreover, in the absence of the active ERα, paclitaxel significantly reduces the NGB cell content. In conclusion, these results highlight the involvement of ERα activation and of E2/ERα-dependent NGB upregulation in the insensitivity of MCF-7 to paclitaxel. These novel findings could have important implications in the development of targeted therapeutics for overcoming paclitaxel insensitivity in ERα-positive human breast cancer. © 2016 IUBMB Life, 68(8):645-651, 2016 [ABSTRACT FROM AUTHOR]

Published

2016

18. A Semisynthetic Approach to New Immunoadjuvant Candidates: Site-Selective Chemical Manipulation of Escherichia coli Monophosphoryl Lipid A.

Author

D'Alonzo, Daniele, Cipolletti, Manuela, Tarantino, Giulia, Ziaco, Marcello, Pieretti, Giuseppina, Iadonisi, Alfonso, Palumbo, Giovanni, Alfano, Alberto, Giuliano, Mariateresa, De Rosa, Mario, Schiraldi, Chiara, Cammarota, Marcella, Parrilli, Michelangelo, Bedini, Emiliano, and Corsaro, Maria M.

Subjects

*IMMUNOLOGICAL adjuvants, *ESCHERICHIA coli, *CHEMICAL manipulation, *FERMENTATION, *BIOCHEMICAL engineering

Abstract

A semisynthetic approach to novel lipid A derivatives from Escherichia coli ( E. coli) lipid A is reported. This methodology stands as an alternative to common approaches based exclusively on either total synthesis or extraction from bacterial sources. It relies upon the purification of the lipid A fraction from fed-batch fermentation of E. coli, followed by its structural modification through tailored, site-selective chemical reactions. In particular, modification of the lipid pattern and functionalization of the phosphate group as well as of the sole primary hydroxyl group were accomplished, highlighting the unusual reactivity of the molecule. Preliminary investigations of the immunostimulating activity of the new semisynthetic lipid A derivatives show that some of them stand out as promising, new immunoadjuvant candidates. [ABSTRACT FROM AUTHOR]

Published

2016

19. Neuroglobin in Breast Cancer Cells: Effect of Hypoxia and Oxidative Stress on Protein Level, Localization, and Anti-Apoptotic Function.

Author

Fiocchetti, Marco, Cipolletti, Manuela, Leone, Stefano, Naldini, Antonella, Carraro, Fabio, Giordano, Daniela, Verde, Cinzia, Ascenzi, Paolo, and Marino, Maria

Subjects

*GLOBIN, *BREAST cancer, *CANCER cells, *OXIDATIVE stress, *HYPOXEMIA, *GENETIC overexpression, *APOPTOSIS

Abstract

The over-expression of human neuroglobin (NGB), a heme-protein preferentially expressed in the brain, displays anti-apoptotic effects against hypoxic/ischemic and oxidative stresses enhancing neuron survival. As hypoxic and oxidative stress injury frequently occurs in fast proliferating neoplastic tissues, here, the effect of these stressors on the level, localization, and anti-apoptotic function of NGB in wild type and NGB-stable-silenced MCF-7 breast cancer cells has been assessed. The well-known endogenous NGB inducer 17β-estradiol (E2) has been used as positive control. The median pO2 present in tumor microenvironment of breast cancer patients (i.e., 2% O2) does not affect the NGB level in breast cancer cells, whereas hydrogen peroxide and lead(IV) acetate, which increase intracellular reactive oxygen species (ROS) level, enhance the NGB levels outside the mitochondria and still activate apoptosis. However, E2-induced NGB up-regulation in mitochondria completely reverse lead(IV) acetate-induced PARP cleavage. These results indicate that the NGB level could represent a marker of oxidative-stress in MCF-7 breast cancer cells; however, the NGB ability to respond to injuring stimuli by preventing apoptosis requires its re-allocation into the mitochondria. As a whole, present data might lead to a new direction in understanding NGB function in cancer opening new avenues for the therapeutic intervention. [ABSTRACT FROM AUTHOR]

Published

2016

20. The Peculiar Estrogenicity of Diethyl Phthalate: Modulation of Estrogen Receptor α Activities in the Proliferation of Breast Cancer Cells.

Author

Fiocchetti, Marco, Bastari, Giovanna, Cipolletti, Manuela, Leone, Stefano, Acconcia, Filippo, and Marino, Maria

Subjects

DIETHYL phthalate, CANCER cell proliferation, ESTROGEN receptors, CANCER cells, ENDOCRINE disruptors, PHTHALATE esters

Abstract

Phthalates comprise a group of synthetic chemicals present in the environment because of their wide use as plasticizers and as additives in products for personal care. Among others, diethyl phthalate (DEP) is largely used in products for infants, children, and adults, in which its exposure has been correlated with an increased risk of breast cancer. The adverse health outcomes deriving from phthalate exposure have been associated with their activity as endocrine disruptors (EDCs) of the steroid and thyroid hormone signaling by affecting developmental and reproductive health, and even carcinogenicity. However, the estrogen disruptor activities of DEP are still controversial, and the mechanism at the root of the estrogenic-disrupting action of DEP remains to be clarified. Here, we evaluated the DEP mechanism of action on the activation status of estrogen receptor α (ERα) by analyzing the receptor's phosphorylation as well as both nuclear and extra-nuclear pathways triggered by the receptor to modulate the proliferation of breast cancer cells. Although DEP does not bind to ERα, our results suggest that this phthalate ester exerts multiple parallel interactions with ERα signaling and emphasize the importance to determine an appropriate battery of in vitro methods that will include specific molecular mechanisms involved in the endocrine disruption. [ABSTRACT FROM AUTHOR]

Published

2021

21. Neuroglobin: A New Possible Marker of Estrogen-Responsive Breast Cancer.

Author

Solar Fernandez, Virginia, Fiocchetti, Marco, Cipolletti, Manuela, Segatto, Marco, Cercola, Paolo, Massari, Annalisa, Ghinassi, Sabrina, Cavaliere, Francesco, and Marino, Maria

Subjects

BREAST cancer, CANCER cells, ESTROGEN receptors, DUCTAL carcinoma, HORMONE therapy, TUMOR grading

Abstract

The expression of the α-subtype of Estrogen Receptor (ERα) characterizes most breast cancers (more than 75%), for which endocrine therapy is the mainstay for their treatment. However, a high percentage of ERα+ breast cancers are de novo or acquired resistance to endocrine therapy, and the definition of new targets for improving therapeutic interventions and the prediction of treatment response is demanding. Our previous data identified the ERα/AKT/neuroglobin (NGB) pathway as a common pro-survival process activated in different ERα breast cancer cell lines. However, no in vivo association between the globin and the malignity of breast cancer has yet been done. Here, we evaluated the levels and localization of NGB in ERα+ breast ductal carcinoma tissue of different grades derived from pre-and post-menopausal patients. The results indicate a strong association between NGB accumulation, ERα, AKT activation, and the G3 grade, while no association with the menopausal state has been evidenced. Analyses of the data set (e.g., GOBO) strengthen the idea that NGB accumulation could be linked to tumor cell aggressiveness (high grade) and resistance to treatment. These data support the view that NGB accumulation, mainly related to ER expression and tumor grade, represents a compensatory process, which allows cancer cells to survive in an unfavorable environment. [ABSTRACT FROM AUTHOR]

Published

2021

22. A New Anti-Estrogen Discovery Platform Identifies FDA-Approved Imidazole Anti-Fungal Drugs as Bioactive Compounds against ERα Expressing Breast Cancer Cells.

Author

Cipolletti, Manuela, Bartoloni, Stefania, Busonero, Claudia, Parente, Martina, Leone, Stefano, Acconcia, Filippo, and Ahmad, Aamir

Subjects

*BIOACTIVE compounds, *DOSAGE forms of drugs, *BREAST cancer, *CANCER cells, *ANTIFUNGAL agents, *ESTROGEN receptors

Abstract

17β-estradiol (E2) exerts its physiological effects through the estrogen receptor α (i.e., ERα). The E2:ERα signaling allows the regulation of cell proliferation. Indeed, E2 sustains the progression of ERα positive (ERα+) breast cancers (BCs). The presence of ERα at the BC diagnosis drives their therapeutic treatment with the endocrine therapy (ET), which restrains BC progression. Nonetheless, many patients develop metastatic BCs (MBC) for which a treatment is not available. Consequently, the actual challenge is to complement the drugs available to fight ERα+ primary and MBC. Here we exploited a novel anti-estrogen discovery platform to identify new Food and Drug Administration (FDA)-approved drugs inhibiting E2:ERα signaling to cell proliferation in cellular models of primary and MBC cells. We report that the anti-fungal drugs clotrimazole (Clo) and fenticonazole (Fenti) induce ERα degradation and prevent ERα transcriptional signaling and proliferation in cells modeling primary and metastatic BC. The anti-proliferative effects of Clo and Fenti occur also in 3D cancer models (i.e., tumor spheroids) and in a synergic manner with the CDK4/CDK6 inhibitors palbociclib and abemaciclib. Therefore, Clo and Fenti behave as "anti-estrogens"-like drugs. Remarkably, the present "anti-estrogen" discovery platform represents a valuable method to rapidly identify bioactive compounds with anti-estrogenic activity. [ABSTRACT FROM AUTHOR]

Published

2021

23. Ouabain and Digoxin Activate the Proteasome and the Degradation of the ERα in Cells Modeling Primary and Metastatic Breast Cancer.

Author

Busonero, Claudia, Leone, Stefano, Bianchi, Fabrizio, Maspero, Elena, Fiocchetti, Marco, Palumbo, Orazio, Cipolletti, Manuela, Bartoloni, Stefania, and Acconcia, Filippo

Subjects

CELL proliferation, BREAST tumors, CARDIAC glycosides, CELL cycle, CELLULAR signal transduction, DIGOXIN, METASTASIS, PROTEOLYTIC enzymes

Abstract

Simple Summary: Breast cancer (BC) treatment relies on the detection of the estrogen receptor α (ERα). ERα-expressing BC patients are treated with anti-estrogen drugs (i.e., tamoxifen and fulvestrant). Despite their proven efficacy, these drugs cause serious side effects in a significant fraction of the patients, including both tumor insurgence in secondary organs, and resistant phenotypes, which result in a relapsing disease with scarce treatment options. Thus, new drugs for treatment of primary and metastatic BC (MBC) are needed. Here, we report the characterization of two cardiac glycosides (CGs) (i.e., ouabain and digoxin), approved by the FDA for treatment of heart disease, as novel 'anti-estrogen'-like drugs. We found that these drugs induce ERα degradation, and prevent the proliferation of cellular models of primary and metastatic BC cells. Remarkably, we discovered that these CGs are activators of the proteasome, and therefore may be repurposed for treatment not only of BC, but also for other proteasome-based diseases. Estrogen receptor α expressing breast cancers (BC) are classically treated with endocrine therapy. Prolonged endocrine therapy often results in a metastatic disease (MBC), for which a standardized effective therapy is still lacking. Thus, new drugs are required for primary and metastatic BC treatment. Here, we report that the Food and Drug Administration (FDA)-approved drugs, ouabain and digoxin, induce ERα degradation and prevent proliferation in cells modeling primary and metastatic BC. Ouabain and digoxin activate the cellular proteasome, instigating ERα degradation, which causes the inhibition of 17β-estradiol signaling, induces the cell cycle blockade in the G2 phase, and triggers apoptosis. Remarkably, these effects are independent of the inhibition of the Na/K pump. The antiproliferative effects of ouabain and digoxin occur also in diverse cancer models (i.e., tumor spheroids and xenografts). Additionally, gene profiling analysis reveals that these drugs downregulate the expression of genes related to endocrine therapy resistance. Therefore, ouabain and digoxin behave as 'anti-estrogen'-like drugs, and are appealing candidates for the treatment of primary and metastatic BCs. [ABSTRACT FROM AUTHOR]

Published

2020

24. Direct Conjugation of Resveratrol on Hydrophilic Gold Nanoparticles: Structural and Cytotoxic Studies for Biomedical Applications.

Author

Venditti, Iole, Iucci, Giovanna, Fratoddi, Ilaria, Cipolletti, Manuela, Montalesi, Emiliano, Marino, Maria, Secchi, Valeria, and Battocchio, Chiara

Subjects

X-ray absorption near edge structure, SYNCHROTRON radiation, FOURIER transform infrared spectroscopy, GOLD nanoparticles, RESVERATROL, IRON oxide nanoparticles, DRUG solubility

Abstract

Strongly hydrophilic gold nanoparticles (AuNPs), functionalized with citrate and L-cysteine, were synthetized and used as Resveratrol (RSV) vehicle to improve its bioavailability. Two different conjugation procedures were investigated: the first by adding RSV during AuNPs synthesis (1) and the second by adding RSV after AuNPs synthesis (2). The two different conjugated systems, namely AuNPs@RSV1 and AuNPs@RSV2 respectively, showed good loading efficiency (η%): η1 = 80 ± 5% for AuNPs@RSV1 and η2 = 20 ± 3% for AuNPs@RSV2. Both conjugated systems were investigated by means of Dynamic Light Scattering (DLS), confirming hydrophilic behavior and nanodimension (<2RH> 1 = 45 ± 12 nm and <2RH> 2 = 170 ± 30 nm). Fourier Transform Infrared Spectroscopy (FT-IR), Synchrotron Radiation induced X-Ray Photoelectron Spectroscopy (SR-XPS) and Near Edge X-ray Absorption Fine Structure (NEXAFS) techniques were applied to deeply understand the hooking mode of RSV on AuNPs surface in the two differently conjugated systems. Moreover, the biocompatibility of AuNPs and AuNPs@RSV1 was evaluated in the concentration range 1.0–45.5 µg/mL by assessing their effect on breast cancer cell vitality. The obtained data confirmed that, at the concentration used, AuNPs do not induce cell death, whereas AuNPs@RSV1 maintains the same anticancer effects as the unconjugated RSV. [ABSTRACT FROM AUTHOR]

Published

2020

25. Divergent Effects of Daidzein and Its Metabolites on Estrogen-Induced Survival of Breast Cancer Cells.

Author

Montalesi, Emiliano, Cipolletti, Manuela, Cracco, Patrizio, Fiocchetti, Marco, and Marino, Maria

Subjects

*PROTEIN metabolism, *THERAPEUTIC use of isoflavones, *APOPTOSIS, *BIOAVAILABILITY, *BIOTRANSFORMATION (Metabolism), *BREAST tumors, *CELL lines, *CELL receptors, *ESTROGEN, *ESTROGEN receptors, *NERVE tissue proteins, *PACLITAXEL, *SOYBEAN, *SURVIVAL, *GUT microbiome, *BLOOD

Abstract

Although soy consumption is associated with breast cancer prevention, the low bioavailability and the extensive metabolism of soy-active components limit their clinical application. Here, the impact of daidzein (D) and its metabolites on estrogen-dependent anti-apoptotic pathway has been evaluated in breast cancer cells. In estrogen receptor α-positive breast cancer cells treated with D and its metabolites, single or in mixture, ERα activation and Neuroglobin (NGB) levels, an anti-apoptotic estrogen/ERα-inducible protein, were evaluated. Moreover, the apoptotic cascade activation, as well as the cell number after stimulation was assessed in the absence/presence of paclitaxel to determine the compound effects on cell susceptibility to a chemotherapeutic agent. Among the metabolites, only D-4′-sulfate maintains the anti-estrogenic effect of D, reducing the NGB levels and rendering breast cancer cells more prone to the paclitaxel treatment, whereas other metabolites showed estrogen mimetic effects, or even estrogen independent effects. Intriguingly, the co-stimulation of D and gut metabolites strongly reduced D effects. The results highlight the important and complex influence of metabolic transformation on isoflavones physiological effects and demonstrate the need to take biotransformation into account when assessing the potential health benefits of consumption of soy isoflavones in cancer. [ABSTRACT FROM AUTHOR]

Published

2020

26. Beyond the Antioxidant Activity of Dietary Polyphenols in Cancer: the Modulation of Estrogen Receptors (ERs) Signaling.

Author

Cipolletti, Manuela, Solar Fernandez, Virginia, Montalesi, Emiliano, Marino, Maria, and Fiocchetti, Marco

Subjects

*POLYPHENOLS, *ANTIOXIDANTS, *ESTROGEN receptors, *BIOAVAILABILITY, *METABOLISM

Abstract

The potential "health benefits" of dietary polyphenols have been ascribed to their direct antioxidant activity and their impact on the regulation of cell and tissue redox balance. However, because of the relative poor bioavailability of many of these compounds, their effects could not be easily explained by the antioxidant action, which may occur only at high circulating and tissue concentrations. Therefore, many efforts have been put forward to clarify the molecular mechanisms underlining the biological effect of polyphenols in physiological and pathological conditions. Polyphenols' bioavailability, metabolism, and their effects on enzyme, membrane, and/or nuclear receptors and intracellular transduction mechanisms may define the overall impact of these compounds on cancer risk and progression, which is still debated and not yet clarified. Polyphenols are able to bind to estrogen receptor α (ERα) and β (ERβ), and therefore induce biological effects in human cells through mimicking or inhibiting the action of endogenous estrogens, even at low concentrations. In this work, the role and effects of food-contained polyphenols in hormone-related cancers will be reviewed, mainly focusing on the different polyphenols' mechanisms of action with particular attention on their estrogen receptor-based effects, and on the consequences of such processes on tumor progression and development. [ABSTRACT FROM AUTHOR]

Published

2018