Your search keyword '"Benedetta Zanetti"' showing total 2 results

1. Novel cellular systems unveil mucosal melanoma initiating cells and a role for PI3K/Akt/mTOR pathway in mucosal melanoma fitness

Author

Matilde Monti, Luisa Benerini Gatta, Mattia Bugatti, Irene Pezzali, Sara Picinoli, Marcello Manfredi, Antonio Lavazza, Virginia Vita Vanella, Veronica De Giorgis, Lucia Zanatta, Francesco Missale, Silvia Lonardi, Benedetta Zanetti, Giovanni Bozzoni, Moris Cadei, Andrea Abate, Barbara Vergani, Piera Balzarini, Simonetta Battocchio, Carla Facco, Mario Turri-Zanoni, Paolo Castelnuovo, Piero Nicolai, Ester Fonsatti, Biagio Eugenio Leone, Emilio Marengo, Sandra Sigala, Roberto Ronca, Michela Perego, Davide Lombardi, and William Vermi

Subjects

Mucosal melanomas, Cell lines, Melanoma stem cells, MITF, PI3K/AKT/mTOR, Medicine

Abstract

Abstract Background Mucosal Melanomas (MM) are highly aggressive neoplasms arising from mucosal melanocytes. Current treatments offer a limited survival benefit for patients with advanced MM; moreover, the lack of pre-clinical cellular systems has significantly limited the understanding of their immunobiology. Methods Five novel cell lines were obtained from patient-derived biopsies of MM arising in the sino-nasal mucosa and designated as SN-MM1-5. The morphology, ultrastructure and melanocytic identity of SN-MM cell lines were validated by transmission electron microscopy and immunohistochemistry. Moreover, in vivo tumorigenicity of SN-MM1-5 was tested by subcutaneous injection in NOD/SCID mice. Molecular characterization of SN-MM cell lines was performed by a mass-spectrometry proteomic approach, and their sensitivity to PI3K chemical inhibitor LY294002 was validated by Akt activation, measured by pAkt(Ser473) and pAkt(Thr308) in immunoblots, and MTS assay. Results This study reports the validation and functional characterization of five newly generated SN-MM cell lines. Compared to the normal counterpart, the proteomic profile of SN-MM is consistent with transformed melanocytes showing a heterogeneous degree of melanocytic differentiation and activation of cancer-related pathways. All SN-MM cell lines resulted tumorigenic in vivo and display recurrent structural variants according to aCGH analysis. Of relevance, the microscopic analysis of the corresponding xenotransplants allowed the identification of clusters of MITF-/CDH1-/CDH2 + /ZEB1 + /CD271 + cells, supporting the existence of melanoma-initiating cells also in MM, as confirmed in clinical samples. In vitro, SN-MM cell lines were sensitive to cisplatin, but not to temozolomide. Moreover, the proteomic analysis of SN-MM cell lines revealed that RICTOR, a subunit of mTORC2 complex, is the most significantly activated upstream regulator, suggesting a relevant role for the PI3K-Akt-mTOR pathway in these neoplasms. Consistently, phosphorylation of NDRG1 and Akt activation was observed in SN-MM, the latter being constitutive and sustained by PTEN loss in SN-MM2 and SN-MM3. The cell viability impairment induced by LY294002 confirmed a functional role for the PI3K-Akt-mTOR pathway in SN-MM cell lines. Conclusions Overall, these novel and unique cellular systems represent relevant experimental tools for a better understanding of the biology of these neoplasms and, as an extension, to MM from other sites.

Published

2024

2. Hyper-Activation of STAT3 Sustains Progression of Non-Papillary Basal-Type Bladder Cancer via FOSL1 Regulome

Author

Debora Bresciani, Elisabetta Grillo, Francesco Missale, Benedetta Zanetti, Claudio Simeone, Sara Licini, Luca Cristinelli, Sandra Belotti, Luisa Benerini Gatta, Stefano Calza, Szeman Ruby Chan, Mattia Bugatti, William Vermi, Roberto Ronca, Emanuele Giurisato, Regina Tardanico, Laura Melocchi, and Silvia Lonardi

Subjects

0301 basic medicine, Cancer Research, Basal-type, Regulome, MYC, Biology, FOSL1, lcsh:RC254-282, Article, STAT3, 03 medical and health sciences, 0302 clinical medicine, Gene expression, Gene silencing, Transcription factor, Manchester Cancer Research Centre, ResearchInstitutes_Networks_Beacons/mcrc, Bladder cancer, fungi, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, JAK, basal-type, bladder cancer, 030104 developmental biology, Oncology, 030220 oncology & carcinogenesis, Cancer cell, Cancer research, STAT protein, biology.protein

Abstract

Urothelial bladder cancer (UBC) are classified into luminal and basal subtypes showing distinct molecular features and clinical behaviour. Recent in silico data have proposed the activation on the Signal Transducer and Activator of Transcription 3 (STAT3) as relevant transcription factor in UBC. To answer this question, we have combined the retrospective analysis of clinical samples, functional assays on cell lines, interrogation of public UBC datasets and a murine model of basal-type UBC. Immunohistochemistry on a retrospective UBC cohort uncovered that STAT3 Y705 phosphorylation (pSTAT3) is significantly increased in infiltrating basal-type UBC compared to luminal UBC. In vitro, STAT3 silencing in UBC cell lines significantly reduced tumor cell viability and invasion. Gene expression profile of UBC cell lines combined with the analysis of the Cancer Genome Atlas (TCGA) and GSE32894 UBC datasets showed that increased expression of a set of STAT3 targets predicts basal-type, propensity to local progression and worse prognosis. MYC and FOSL1 represent relevant STAT3 downstream targets, as validated by their co-localization in pSTAT3+ UBC cancer cells. These findings were largely reproduced in the BBN-induced murine model of basal-type UBC. Of note, FOSL1 protein resulted strongly expressed in the non-papillary UBC pathway and FOSL1-regulated transcripts were significantly enriched in the transition from NMIBC to MIBC, as indicated by the interrogation of the GSE32894 dataset. The blockade of the STAT3 pathway might represent a novel treatment option for these neoplasms. Monitoring pSTAT3 and the downstream targets, particularly FOSL1, could provide meaningful levels of UBC stratification.

Published

2019