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4. CCL3 predicts exceptional response to TGFβ inhibition in basal-like pancreatic cancer enriched in LIF-producing macrophages.

Author

Pietrobono S, Bertolini M, De Vita V, Sabbadini F, Fazzini F, Frusteri C, Scarlato E, Mangiameli D, Quinzii A, Casalino S, Zecchetto C, Merz V, and Melisi D

Abstract

The TGFβ receptor inhibitor galunisertib showed promising efficacy in patients with pancreatic ductal adenocarcinoma (PDAC) in the phase 2 H9H-MC-JBAJ study. Identifying biomarkers for this treatment remains essential. Baseline plasma levels of chemokine CCL3 were integrated with clinical outcomes in PDAC patients treated with galunisertib plus gemcitabine (n = 104) or placebo plus gemcitabine (n = 52). High CCL3 was a poor prognostic factor in the placebo group (mOS 3.6 vs. 10.1 months; p < 0.01) but a positive predictor for galunisertib (mOS 9.2 vs. 3.6 months; p < 0.01). Mechanistically, tumor-derived CCL3 activates Tgfβ signaling in macrophages, inducing their M2 phenotype and Lif secretion, sustaining a mesenchymal/basal-like ecotype. TGFβ inhibition redirects macrophage polarization to M1, reducing Lif and shifting PDAC cells to a more epithelial/classical phenotype, improving gemcitabine sensitivity. This study supports exploring TGFβ-targeting agents in PDAC with a mesenchymal/basal-like ecotype driven by high CCL3 levels., (© 2024. The Author(s).)

Published
2024
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5. Tumor-derived GLI1 promotes remodeling of the immune tumor microenvironment in melanoma.

Author

Giammona A, De Vellis C, Crivaro E, Maresca L, Amoriello R, Ricci F, Anichini G, Pietrobono S, Pease DR, Fernandez-Zapico ME, Ballerini C, and Stecca B

Subjects
Animals, Mice, Humans, Melanoma, Experimental immunology, Melanoma, Experimental pathology, Melanoma, Experimental metabolism, Cell Line, Tumor, Dendritic Cells immunology, Dendritic Cells metabolism, Mice, Inbred C57BL, Tumor Microenvironment, Zinc Finger Protein GLI1 metabolism, Zinc Finger Protein GLI1 genetics, Myeloid-Derived Suppressor Cells metabolism, Myeloid-Derived Suppressor Cells immunology, Melanoma pathology, Melanoma metabolism, Melanoma immunology, Melanoma genetics
Abstract

Background: Melanoma progression is based on a close interaction between cancer cells and immune cells in the tumor microenvironment (TME). Thus, a better understanding of the mechanisms controlling TME dynamics and composition will help improve the management of this dismal disease. Work from our and other groups has reported the requirement of an active Hedgehog-GLI (HH-GLI) signaling for melanoma growth and stemness. However, the role of the downstream GLI1 transcription factor in melanoma TME remains largely unexplored., Methods: The immune-modulatory activity of GLI1 was evaluated in a syngeneic B16F10 melanoma mouse model assessing immune populations by flow cytometry. Murine polymorphonuclear myeloid-derived suppressor cells (PMN-MDSCs) were differentiated from bone marrow cells and their immunosuppressive ability was assessed by inhibition of T cells. Conditioned media (CM) from GLI1-overexpressing mouse melanoma cells was used to culture PMN-MDSCs, and the effects of CM were evaluated by Transwell invasion assay and T cell inhibition. Cytokine array analysis, qPCR and chromatin immunoprecipitation were performed to explore the regulation of CX3CL1 expression by GLI1. Human monocyte-derived dendritic cells (moDCs) were cultured in CM from GLI1-silenced patient-derived melanoma cells to assess their activation and recruitment. Blocking antibodies anti-CX3CL1, anti-CCL7 and anti-CXCL8 were used for in vitro functional assays., Results: Melanoma cell-intrinsic activation of GLI1 promotes changes in the infiltration of immune cells, leading to accumulation of immunosuppressive PMN-MDSCs and regulatory T cells, and to decreased infiltration of dendric cells (DCs), CD8 + and CD4 + T cells in the TME. In addition, we show that ectopic expression of GLI1 in melanoma cells enables PMN-MDSC expansion and recruitment, and increases their ability to inhibit T cells. The chemokine CX3CL1, a direct transcriptional target of GLI1, contributes to PMN-MDSC expansion and recruitment. Finally, silencing of GLI1 in patient-derived melanoma cells promotes the activation of human monocyte-derived dendritic cells (moDCs), increasing cytoskeleton remodeling and invasion ability. This phenotype is partially prevented by blocking the chemokine CCL7, but not CXCL8., Conclusion: Our findings highlight the relevance of tumor-derived GLI1 in promoting an immune-suppressive TME, which allows melanoma cells to evade the immune system, and pave the way for the design of new combination treatments targeting GLI1., (© 2024. The Author(s).)

Published
2024
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6. Injectable Thermogelling Nanostructured Ink as Simultaneous Optical and Magnetic Resonance Imaging Contrast Agent for Image-Guided Surgery.

Author

Cressoni C, Malandra S, Milan E, Boschi F, Nicolato E, Negri A, Veccia A, Bontempi P, Mangiameli D, Pietrobono S, Melisi D, Marzola P, Antonelli A, and Speghini A

Subjects
Animals, Humans, Surgery, Computer-Assisted methods, Nanostructures chemistry, Hydrogels chemistry, Ink, Mice, Indocyanine Green chemistry, Indocyanine Green administration & dosage, Biocompatible Materials chemistry, Optical Imaging methods, Contrast Media chemistry, Magnetic Resonance Imaging methods
Abstract

The development of efficient and biocompatible contrast agents is particularly urgent for modern clinical surgery. Nanostructured materials raised great interest as contrast agents for different imaging techniques, for which essential features are high contrasts, and in the case of precise clinical surgery, minimization of the signal spatial dispersion when embedded in biological tissues. This study deals with the development of a multimodal contrast agent based on an injectable hydrogel nanocomposite containing a lanthanide-activated layered double hydroxide coupled to a biocompatible dye (indocyanine green), emitting in the first biological window. This novel nanostructured thermogelling hydrogel behaves as an efficient tissue marker for optical and magnetic resonance imaging because the particular formulation strongly limits its spatial diffusion in biological tissue by exploiting a simple injection. The synergistic combination of these properties permits to employ the hydrogel ink simultaneously for both optical and magnetic resonance imaging, easy monitoring of the biological target, and, at the same time, increasing the spatial resolution during a clinical surgery. The biocompatibility and excellent performance as contrast agents are very promising for possible use in image-guided surgery, which is currently one of the most challenging topics in clinical research.

Published
2024
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7. Integration of liposomal irinotecan in the first-line treatment of metastatic pancreatic cancer: try to do not think about the white bear.

Author

Melisi D, Casalino S, Pietrobono S, Quinzii A, Zecchetto C, and Merz V

Abstract

The approval of novel therapeutic agents remains widely reliant on evidence derived from large phase III randomized controlled trials. Liposomal irinotecan (ONIVYDE ® ) stands out as the only drug that has demonstrated improved survival both as a first-line therapy in combination with oxaliplatin and 5-fluorouracil/leucovorin (5FU/LV) (NALIRIFOX) compared to the standard gemcitabine plus nab-paclitaxel in the NAPOLI3 trial, and as a second-line treatment in combination with 5FU/LV compared to the standard 5FU/LV in the NAPOLI1 trial. However, just as the white bear of the Dostoevsky's paradox, the judgment of these results is invariably distracted by the intrusive thought of how different they might be if compared to similar regimens containing standard-free irinotecan as FOLFIRINOX or FOLFIRI, respectively. Here, we present and thoroughly discuss the evidence encompassing the pharmacologic, preclinical, and clinical development of liposomal irinotecan that can dispel any intrusive thoughts and foster a rational and well-considered judgment of this agent and its potential integration into the therapeutic strategies for pancreatic ductal adenocarcinoma., Competing Interests: DM received honoraria as an advisory board member or consultant from Servier, Incyte, Tahio, iOnctura, Eli Lilly, Evotec, Shire, Baxter; received institutional support for research projects from Shire, Celgene, Incyte, iOnctura, Roche. All other authors have declared no conflicts of interest., (© The Author(s), 2024.)

Published
2024
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8. Autotaxin Secretion Is a Stromal Mechanism of Adaptive Resistance to TGFβ Inhibition in Pancreatic Ductal Adenocarcinoma.

Author

Pietrobono S, Sabbadini F, Bertolini M, Mangiameli D, De Vita V, Fazzini F, Lunardi G, Casalino S, Scarlato E, Merz V, Zecchetto C, Quinzii A, Di Conza G, Lahn M, and Melisi D

Subjects
Humans, Animals, Mice, Gemcitabine, Transforming Growth Factor beta, Signal Transduction, Carcinoma, Pancreatic Ductal pathology, Pancreatic Neoplasms pathology
Abstract

The TGFβ receptor inhibitor galunisertib demonstrated efficacy in patients with pancreatic ductal adenocarcinoma (PDAC) in the randomized phase II H9H-MC-JBAJ study, which compared galunisertib plus the chemotherapeutic agent gemcitabine with gemcitabine alone. However, additional stromal paracrine signals might confer adaptive resistance that limits the efficacy of this therapeutic strategy. Here, we found that autotaxin, a secreted enzyme that promotes inflammation and fibrosis by generating lysophosphatidic acid (LPA), mediates adaptive resistance to TGFβ receptor inhibition. Blocking TGFβ signaling prompted the skewing of cancer-associated fibroblasts (CAF) toward an inflammatory (iCAF) phenotype. iCAFs were responsible for a significant secretion of autotaxin. Paracrine autotaxin increased LPA-NFκB signaling in tumor cells that triggered treatment resistance. The autotaxin inhibitor IOA-289 suppressed NFκB activation in PDAC cells and overcame resistance to galunisertib and gemcitabine. In immunocompetent orthotopic murine models, IOA-289 synergized with galunisertib in restoring sensitivity to gemcitabine. Most importantly, treatment with galunisertib significantly increased plasma levels of autotaxin in patients enrolled in the H9H-MC-JBAJ study, and median progression-free survival was significantly longer in patients without an increase of autotaxin upon treatment with galunisertib compared with those with increased autotaxin. These results establish that autotaxin secretion by CAFs is increased by TGFβ inhibition and that circulating autotaxin levels predict response to the combination treatment approach of gemcitabine plus galunisertib., Significance: TGFβ inhibition skews cancer-associated fibroblasts toward an inflammatory phenotype that secretes autotaxin to drive adaptive resistance in PDAC, revealing autotaxin as a therapeutic target and biomarker of galunisertib response., (©2023 The Authors; Published by the American Association for Cancer Research.)

Published
2024
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9. Perioperative NALIRIFOX in patients with resectable pancreatic ductal adenocarcinoma: The open-label, multicenter, phase II nITRO trial.

Author

Melisi D, Zecchetto C, Merz V, Malleo G, Landoni L, Quinzii A, Casalino S, Fazzini F, Gaule M, Pesoni C, Casetti L, Esposito A, Marchegiani G, Piazzola C, D'Onofrio M, de Robertis R, Gabbrielli A, Bernardoni L, Crino SF, Pietrobono S, Luchini C, Aliberti C, Martignoni G, Milleri S, Butturini G, Scarpa A, Salvia R, and Bassi C

Subjects
Humans, Antineoplastic Combined Chemotherapy Protocols adverse effects, Fluorouracil, Irinotecan adverse effects, Leucovorin, Neoadjuvant Therapy adverse effects, Pancreatic Neoplasms drug therapy, Pancreatic Neoplasms surgery, Pancreatic Neoplasms pathology, Adenocarcinoma pathology
Abstract

Background: Upfront surgery followed by postoperative treatment is a commonly adopted treatment for resectable pancreatic ductal adenocarcinoma (rPDAC). However, the risk of positive surgical margins, the poor recovery that often impairs postoperative treatments, and the risk of recurrence might limit the outcome of this strategy. This study evaluated the safety and the activity of liposomal irinotecan 50 mg/m 2 + 5-fluorouracil 2400 mg/m 2 + leucovorin 400 mg/m 2 + oxaliplatin 60 mg/m 2 (NALIRIFOX) in the perioperative treatment of patients with rPDAC., Methods: Eligible patients had a rPDAC with < 180° interface with major veins' wall. Patients received 3 cycles before and 3 cycles after resection with NALIRIFOX, days 1 and 15 of a 28-day cycle. The primary endpoint was the proportion of patients undergoing an R0 resection., Results: 107 patients began preoperative treatment. Nine patients discontinued the treatment because of related or unrelated adverse events. Disease-control rate was 92.9%. 87 patients underwent surgical exploration, 11 had intraoperative evidence of metastatic disease, and 1 died for surgical complications. R0 resection rate was 65.3%. 49 patients completed the three postoperative cycles. The most common grade ≥ 3 adverse events were diarrhea and neutropenia. Median overall survival (OS) of ITT patients was 32.3 months (95% CI 27.8-44.3). Median disease-free and OS from surgery of resected patients were 19.3 (95% CI 12.6-34.1) and 40.3 months (95% CI 29-NA), respectively., Conclusion: Perioperative NALIRIFOX was manageable and active, and deserves further investigation in randomized trials comparing it with standard upfront surgery followed by adjuvant therapy., Competing Interests: Declaration of Competing Interest DM received honoraria as an advisory board member or consultant from Servier, Incyte, iOnctura, Eli Lilly, Evotec, Baxter; received institutional support for research project from Shire, Celgene, Incyte, iOnctura, Roche. GM received honoraria as consultant from Oncosil, and institutional support for research project from Fibrogen. MDO received honoraria as an advisory board member or consultant from Bracco Diagnostics, Siemens Healthcare Diagnostic, Hitachi, Novartis. RdR received honoraria as an advisory board member or consultant from Bracco Diagnostics and Fujifilm. AS received honoraria as an advisory board member or consultant from Incyte, MSD, Amgen, GlaxoSmithkline. All other authors have declared no conflicts of interest., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published
2024
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10. YAP Activation Is Associated with a Worse Prognosis of Poorly Cohesive Gastric Cancer.

Author

Bencivenga M, Torroni L, Dal Cero M, Quinzii A, Zecchetto C, Merz V, Casalino S, Taus F, Pietrobono S, Mangiameli D, Filippini F, Alloggio M, Castelli C, Iglesias M, Pera M, and Melisi D

Abstract

Poorly cohesive (PC) gastric cancer (GC) is extremely aggressive in progression, and there is an urgent need to identify the molecular pathways involved. We hypothesized the essential role of the RhoA-YAP axis in these mechanisms. The present observational multicenter retrospective study included 133 patients with PC GC treated at two dedicated European surgical centers between 2004 and 2014. YAP nuclear localization was measured by immunohistochemical (IHC) analysis of tissue biopsies. The complete absence of nuclear reactivity was coded as negative expression; we considered "any positive" as low nuclear expression (>0% but <10% of cells) and high nuclear expression (≥10% of cells). Women represented about half of the present series (52%), and the median age was 64 years (p25-p75 range: 53-75). Neoadjuvant and adjuvant treatments were administered to 10% and 54% of the cases, respectively. Extended systemic lymphadenectomy (D2) was the most common (54%). In nearly all cases, the number of retrieved nodes was ≥15, i.e., adequate for tumor staging (94%). An R0 resection was achieved in 80% of the cases. Most patients were pathological T stage 3 and 4 (pT3/pT4 = 79.0%) and pathological N stage 2, 3a, and 3b (pN2/pN3a/pN3b = 47.0%) at the pathological examination. Twenty patients (15%) presented distant metastases. Five-year overall survival (OS) was significantly higher ( p = 0.029) in patients with negative YAP (46%, 95% CI 31.1-60.0%) than in the other patients (27%, 17.5-38.1%). Moreover, when controlling for sex, age, pT, pN, and percentage of signet ring cells in the multivariable analysis, YAP expression was a significant predictor of OS (HR 2.03, 95% CI: 1.18-3.51, p = 0.011). Our results provide new insights into the role of the YAP signaling cascade, as its activation was associated with a worse prognosis in PC GC.

Published
2023
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12. Targeting FGFR Pathway Is Not an Effective Therapeutic Strategy in Patients with Unselected Metastatic Esophagogastric Cancer Resistant to Trastuzumab.

Author

Zecchetto C, Quinzii A, Casalino S, Gaule M, Pesoni C, Merz V, Pietrobono S, Mangiameli D, Pasquato M, Milleri S, Giacopuzzi S, Bencivenga M, Tomezzoli A, de Manzoni G, and Melisi D

Abstract

Trastuzumab plus chemotherapy is the standard of care for the first-line treatment of patients with HER2+ advanced esophagogastric (EG) cancer. Nevertheless, patients frequently develop resistance. In preclinical models, we identified the overexpression of Fibroblast Growth Factor Receptor (FGFR) 3 as a mechanism potentially involved in trastuzumab-acquired resistance. FGFR inhibition could be a potential mechanism as a second-line treatment. In this Simon's two-stage phase 2, single arm study, patients with advanced EG cancer refractory to trastuzumab-containing therapies received pemigatinib, an inhibitor of FGFR. The primary end point was the 12-week progression-free survival rate. Translational analyses were performed on tissue and plasma samples. Eight patients were enrolled in the first stage. Although the 6-week disease control rate was 25%, only one patient achieved a stable disease after 12 weeks of treatment. The trial was discontinued before the second stage. Two out of six evaluable tumor samples expressed FGFR3. No FGFRs amplification was detected. HER2 amplification was lost in three out of eight patients. Three patients had an high Tumor Mutational Burden, and two of them are significantly long-term survivors. These results do not support the therapeutic efficacy of targeting FGFR in unselected patients with advanced EG cancer, who are refractory to trastuzumab-containing therapies.

Published
2023
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13. p38 MAPK-dependent phosphorylation of transcription factor SOX2 promotes an adaptive response to BRAF inhibitors in melanoma cells.

Author

Pietrobono S, De Paolo R, Mangiameli D, Marranci A, Battisti I, Franchin C, Arrigoni G, Melisi D, Poliseno L, and Stecca B

Subjects
Adenosine Triphosphate metabolism, Animals, Cell Line, Tumor, Drug Resistance, Neoplasm, Humans, MAP Kinase Signaling System, Phosphorylation, Protein Kinase Inhibitors pharmacology, Protein Kinase Inhibitors therapeutic use, SOXB1 Transcription Factors genetics, SOXB1 Transcription Factors metabolism, Zebrafish metabolism, p38 Mitogen-Activated Protein Kinases genetics, p38 Mitogen-Activated Protein Kinases metabolism, Melanoma drug therapy, Melanoma genetics, Melanoma metabolism, Proto-Oncogene Proteins B-raf metabolism
Abstract

Despite recent advances in the development of BRAF kinase inhibitors (BRAFi) for BRAF-mutant melanomas, development of resistance remains a major clinical problem. In addition to genetic alterations associated with intrinsic resistance, several adaptive response mechanisms are known to be rapidly activated to allow cell survival in response to treatment, limiting efficacy. A better understanding of the mechanisms driving resistance is urgently needed to improve the success of BRAF-targeted therapies and to make therapeutic intervention more durable. In this study, we identify the mitogen-activated protein kinase (MAPK) p38 as a novel mediator of the adaptive response of melanoma cells to BRAF-targeted therapy. Our findings demonstrate that BRAFi leads to an early increase in p38 activation, which promotes phosphorylation of the transcription factor SOX2 at Ser251, enhancing SOX2 stability, nuclear localization, and transcriptional activity. Furthermore, functional studies show that SOX2 depletion increases sensitivity of melanoma cells to BRAFi, whereas overexpression of a phosphomimetic SOX2-S251E mutant is sufficient to drive resistance and desensitize melanoma cells to BRAFi in vitro and in a zebrafish xenograft model. We also found that SOX2 phosphorylation at Ser251 confers resistance to BRAFi by binding to the promoter and increasing transcriptional activation of the ATP-binding cassette drug efflux transporter ABCG2. In summary, we unveil a p38/SOX2-mediated mechanism of adaptive response to BRAFi, which provides prosurvival signals to melanoma cells against the cytotoxic effects of BRAFi prior to acquiring resistance., Competing Interests: Conflict of interest The authors declare that they have no conflicts of interest with the contents of this article., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2022
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15. Predictive Biomarkers for a Personalized Approach in Resectable Pancreatic Cancer.

Author

Merz V, Mangiameli D, Zecchetto C, Quinzii A, Pietrobono S, Messina C, Casalino S, Gaule M, Pesoni C, Vitale P, Trentin C, Frisinghelli M, Caffo O, and Melisi D

Abstract

The mainstay treatment for patients with immediate resectable pancreatic cancer remains upfront surgery, which represents the only potentially curative strategy. Nevertheless, the majority of patients surgically resected for pancreatic cancer experiences disease relapse, even when a combination adjuvant therapy is offered. Therefore, aiming at improving disease free survival and overall survival of these patients, there is an increasing interest in evaluating the activity and efficacy of neoadjuvant and perioperative treatments. In this view, it is of utmost importance to find biomarkers able to select patients who may benefit from a preoperative therapy rather than upfront surgical resection. Defined genomic alterations and a dynamic inflammatory microenvironment are the major culprits for disease recurrence and resistance to chemotherapeutic treatments in pancreatic cancer patients. Signal transduction pathways or tumor immune microenvironment could predict early recurrence and response to chemotherapy. In the last decade, distinct molecular subtypes of pancreatic cancer have been described, laying the bases to a tailored therapeutic approach, started firstly in the treatment of advanced disease. Patients with homologous repair deficiency, in particular with mutant germline BRCA genes, represent the first subgroup demonstrating to benefit from specific therapies. A fraction of patients with pancreatic cancer could take advantage of genome sequencing with the aim of identifying possible targetable mutations. These genomic driven strategies could be even more relevant in a potentially curative setting. In this review, we outline putative predictive markers that could help in the next future in tailoring the best therapeutic strategy for pancreatic cancer patients with a potentially curable disease., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Merz, Mangiameli, Zecchetto, Quinzii, Pietrobono, Messina, Casalino, Gaule, Pesoni, Vitale, Trentin, Frisinghelli, Caffo and Melisi.)

Published
2022
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16. Exceptional Clinical Response to Alectinib in Pancreatic Acinar Cell Carcinoma With a Novel ALK-KANK4 Gene Fusion.

Author

Gaule M, Pesoni C, Quinzii A, Zecchetto C, Casalino S, Merz V, Contarelli S, Pietrobono S, Vissio E, Molinaro L, Manzin E, Volpatto R, Vellani G, and Melisi D

Subjects
Anaplastic Lymphoma Kinase genetics, Ankyrin Repeat genetics, Carcinoma, Acinar Cell genetics, Gene Fusion, Humans, Male, Middle Aged, Pancreatic Neoplasms genetics, Treatment Outcome, Carbazoles therapeutic use, Carcinoma, Acinar Cell drug therapy, Pancreatic Neoplasms drug therapy, Piperidines therapeutic use
Abstract

Competing Interests: Valeria MerzConsulting or Advisory Role: Amgen Davide MelisiConsulting or Advisory Role: Baxter, Lilly, Evotec, Incyte, iOncturaResearch Funding: Shire, Celgene, Incyte, iOnctura, RocheNo other potential conflicts of interest were reported.

Published
2022
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17. MAPK15 Controls Hedgehog Signaling in Medulloblastoma Cells by Regulating Primary Ciliogenesis.

Author

Pietrobono S, Franci L, Imperatore F, Zanini C, Stecca B, and Chiariello M

Abstract

In medulloblastomas, genetic alterations resulting in over-activation and/or deregulation of proteins involved in Hedgehog (HH) signaling lead to cellular transformation, which can be prevented by inhibition of primary ciliogenesis. Here, we investigated the role of MAPK15 in HH signaling and, in turn, in HH-mediated cellular transformation. We first demonstrated, in NIH3T3 mouse fibroblasts, the ability of this kinase of controlling primary ciliogenesis and canonical HH signaling. Next, we took advantage of transformed human medulloblastoma cells belonging to the SHH-driven subtype, i.e., DAOY and ONS-76 cells, to ascertain the role for MAPK15 in HH-mediated cellular transformation. Specifically, medullo-spheres derived from these cells, an established in vitro model for evaluating progression and malignancy of putative tumor-initiating medulloblastoma cells, were used to demonstrate that MAPK15 regulates self-renewal of these cancer stem cell-like cells. Interestingly, by using the HH-related oncogenes SMO-M2 and GLI2-DN, we provided evidences that disruption of MAPK15 signaling inhibits oncogenic HH overactivation in a specific cilia-dependent fashion. Ultimately, we show that pharmacological inhibition of MAPK15 prevents cell proliferation of SHH-driven medulloblastoma cells, overall suggesting that oncogenic HH signaling can be counteracted by targeting the ciliary gene MAPK15, which could therefore be considered a promising target for innovative "smart" therapies in medulloblastomas.

Published
2021
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18. The Role of Glycosylation in Melanoma Progression.

Author

De Vellis C, Pietrobono S, and Stecca B

Subjects
Animals, Cell Transformation, Neoplastic metabolism, Glycosylation, Humans, Melanoma metabolism, Polysaccharides metabolism
Abstract

Malignant melanoma is the most aggressive form of skin cancer, which originates from the malignant transformation of melanocytes, the melanin-producing cells of the skin. Melanoma progression is typically described as a stepwise process in which metastasis formation ensues late during disease. A large body of evidence has shown that the accumulation of genetic and epigenetic alterations drives melanoma progression through the different steps. Mortality in melanoma is associated with metastatic disease. Accordingly, early-stage melanoma can be cured in the majority of cases by surgical excision, while late-stage melanoma is a highly lethal disease. Glycosylation is a post-translational modification that involves the transfer of glycosyl moieties to specific amino acid residues of proteins to form glycosidic bonds through the activity of glycosyltransferases. Aberrant glycosylation is considered a hallmark of cancer as it occurs in the majority of tumor types, including melanoma. The most widely occurring glycosylation changes in melanoma are represented by sialylation, fucosylation, and N- and I-glycan branching. In this review, we discuss the role of glycosylation in melanoma and provide insights on the mechanisms by which aberrant glycosylation promotes melanoma progression through activation of invasion and metastasis, immune evasion and cell proliferation.

Published
2021
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19. The Multifaceted Role of TGF-β in Gastrointestinal Tumors.

Author

Sabbadini F, Bertolini M, De Matteis S, Mangiameli D, Contarelli S, Pietrobono S, and Melisi D

Abstract

Transforming growth factor-beta (TGF-β) is a secreted cytokine that signals via serine/threonine kinase receptors and SMAD effectors. Although TGF-β acts as a tumor suppressor during the early stages of tumorigenesis, it supports tumor progression in advanced stages. Indeed, TGF-β can modulate the tumor microenvironment by modifying the extracellular matrix and by sustaining a paracrine interaction between neighboring cells. Due to its critical role in cancer development and progression, a wide range of molecules targeting the TGF-β signaling pathway are currently under active clinical development in different diseases. Here, we focused on the role of TGF-β in modulating different pathological processes with a particular emphasis on gastrointestinal tumors.

Published
2021
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20. Targeting non-canonical activation of GLI1 by the SOX2-BRD4 transcriptional complex improves the efficacy of HEDGEHOG pathway inhibition in melanoma.

Author

Pietrobono S, Gaudio E, Gagliardi S, Zitani M, Carrassa L, Migliorini F, Petricci E, Manetti F, Makukhin N, Bond AG, Paradise BD, Ciulli A, Fernandez-Zapico ME, Bertoni F, and Stecca B

Subjects
Animals, Antineoplastic Combined Chemotherapy Protocols pharmacology, Cell Line, Tumor, Cell Proliferation drug effects, Dipeptides administration & dosage, Drug Synergism, Female, Guanidines administration & dosage, Hedgehog Proteins metabolism, Heterocyclic Compounds, 3-Ring administration & dosage, Humans, Melanoma metabolism, Melanoma pathology, Mice, Mice, Nude, Molecular Targeted Therapy, Signal Transduction drug effects, Smoothened Receptor antagonists & inhibitors, Spheroids, Cellular, Xenograft Model Antitumor Assays, Cell Cycle Proteins antagonists & inhibitors, Dipeptides pharmacology, Guanidines pharmacology, Hedgehog Proteins antagonists & inhibitors, Heterocyclic Compounds, 3-Ring pharmacology, Melanoma drug therapy, SOXB1 Transcription Factors metabolism, Transcription Factors antagonists & inhibitors, Zinc Finger Protein GLI1 metabolism
Abstract

Despite the development of new targeted and immune therapies, the prognosis of metastatic melanoma remains bleak. Therefore, it is critical to better understand the mechanisms controlling advanced melanoma to develop more effective treatment regimens. Hedgehog/GLI (HH/GLI) signaling inhibitors targeting the central pathway transducer Smoothened (SMO) have shown to be clinical efficacious in skin cancer; however, several mechanisms of non-canonical HH/GLI pathway activation limit their efficacy. Here, we identify a novel SOX2-BRD4 transcriptional complex driving the expression of GLI1, the final effector of the HH/GLI pathway, providing a novel mechanism of non-canonical SMO-independent activation of HH/GLI signaling in melanoma. Consistently, we find a positive correlation between the expression of GLI1 and SOX2 in human melanoma samples and cell lines. Further, we show that combined targeting of canonical HH/GLI pathway with the SMO inhibitor MRT-92 and of the SOX2-BRD4 complex using a potent Proteolysis Targeted Chimeras (PROTACs)-derived BRD4 degrader (MZ1), yields a synergistic anti-proliferative effect in melanoma cells independently of their BRAF, NRAS, and NF1 mutational status, with complete abrogation of GLI1 expression. Combination of MRT-92 and MZ1 strongly potentiates the antitumor effect of either drug as single agents in an orthotopic melanoma model. Together, our data provide evidence of a novel mechanism of non-canonical activation of GLI1 by the SOX2-BRD4 transcriptional complex, and describe the efficacy of a new combinatorial treatment for a subset of melanomas with an active SOX2-BRD4-GLI1 axis.

Published
2021
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21. Aberrant Sialylation in Cancer: Biomarker and Potential Target for Therapeutic Intervention?

Author

Pietrobono S and Stecca B

Abstract

Sialylation is an integral part of cellular function, governing many biological processes including cellular recognition, adhesion, molecular trafficking, signal transduction and endocytosis. Sialylation is controlled by the levels and the activities of sialyltransferases on glycoproteins and lipids. Altered gene expression of these enzymes in cancer yields to cancer-specific alterations of glycoprotein sialylation. Mounting evidence indicate that hypersialylation is closely associated with cancer progression and metastatic spread, and can be of prognostic significance in human cancer. Aberrant sialylation is not only a result of cancer, but also a driver of malignant phenotype, directly impacting key processes such as tumor cell dissociation and invasion, cell-cell and cell-matrix interactions, angiogenesis, resistance to apoptosis, and evasion of immune destruction. In this review we provide insights on the impact of sialylation in tumor progression, and outline the possible application of sialyltransferases as cancer biomarkers. We also summarize the most promising findings on the development of sialyltransferase inhibitors as potential anti-cancer treatments.

Published
2021
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23. ST3GAL1 is a target of the SOX2-GLI1 transcriptional complex and promotes melanoma metastasis through AXL.

Author

Pietrobono S, Anichini G, Sala C, Manetti F, Almada LL, Pepe S, Carr RM, Paradise BD, Sarkaria JN, Davila JI, Tofani L, Battisti I, Arrigoni G, Ying L, Zhang C, Li H, Meves A, Fernandez-Zapico ME, and Stecca B

Subjects
Animals, Gene Expression Regulation, Neoplastic, Glycosylation, Humans, Melanoma genetics, Melanoma metabolism, Mice, Nude, Multiprotein Complexes genetics, Multiprotein Complexes metabolism, Proto-Oncogene Proteins genetics, Receptor Protein-Tyrosine Kinases genetics, SOXB1 Transcription Factors genetics, Sialyltransferases genetics, Skin Neoplasms genetics, Skin Neoplasms metabolism, Transcription, Genetic, Xenograft Model Antitumor Assays, Zinc Finger Protein GLI1 genetics, beta-Galactoside alpha-2,3-Sialyltransferase, Axl Receptor Tyrosine Kinase, Melanoma, Cutaneous Malignant, Melanoma pathology, Proto-Oncogene Proteins metabolism, Receptor Protein-Tyrosine Kinases metabolism, SOXB1 Transcription Factors metabolism, Sialyltransferases metabolism, Skin Neoplasms pathology, Zinc Finger Protein GLI1 metabolism
Abstract

Understanding the molecular events controlling melanoma progression is of paramount importance for the development of alternative treatment options for this devastating disease. Here we report a mechanism regulated by the oncogenic SOX2-GLI1 transcriptional complex driving melanoma invasion through the induction of the sialyltransferase ST3GAL1. Using in vitro and in vivo studies, we demonstrate that ST3GAL1 drives melanoma metastasis. Silencing of this enzyme suppresses melanoma invasion and significantly reduces the ability of aggressive melanoma cells to enter the blood stream, colonize distal organs, seed and survive in the metastatic environment. Analysis of glycosylated proteins reveals that the receptor tyrosine kinase AXL is a major effector of ST3GAL1 pro-invasive function. ST3GAL1 induces AXL dimerization and activation that, in turn, promotes melanoma invasion. Our data support a key role of the ST3GAL1-AXL axis as driver of melanoma metastasis, and highlight the therapeutic potential of targeting this axis to treat metastatic melanoma.

Published
2020
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24. Non-canonical Hedgehog Signaling Pathway in Cancer: Activation of GLI Transcription Factors Beyond Smoothened.

Author

Pietrobono S, Gagliardi S, and Stecca B

Abstract

The Hedgehog-GLI (HH-GLI) pathway is a highly conserved signaling that plays a critical role in controlling cell specification, cell-cell interaction and tissue patterning during embryonic development. Canonical activation of HH-GLI signaling occurs through binding of HH ligands to the twelve-pass transmembrane receptor Patched 1 (PTCH1), which derepresses the seven-pass transmembrane G protein-coupled receptor Smoothened (SMO). Thus, active SMO initiates a complex intracellular cascade that leads to the activation of the three GLI transcription factors, the final effectors of the HH-GLI pathway. Aberrant activation of this signaling has been implicated in a wide variety of tumors, such as those of the brain, skin, breast, gastrointestinal, lung, pancreas, prostate and ovary. In several of these cases, activation of HH-GLI signaling is mediated by overproduction of HH ligands (e.g., prostate cancer), loss-of-function mutations in PTCH1 or gain-of-function mutations in SMO , which occur in the majority of basal cell carcinoma (BCC), SHH-subtype medulloblastoma and rhabdomyosarcoma. Besides the classical canonical ligand-PTCH1-SMO route, mounting evidence points toward additional, non-canonical ways of GLI activation in cancer. By non-canonical we refer to all those mechanisms of activation of the GLI transcription factors occurring independently of SMO. Often, in a given cancer type canonical and non-canonical activation of HH-GLI signaling co-exist, and in some cancer types, more than one mechanism of non-canonical activation may occur. Tumors harboring non-canonical HH-GLI signaling are less sensitive to SMO inhibition, posing a threat for therapeutic efficacy of these antagonists. Here we will review the most recent findings on the involvement of alternative signaling pathways in inducing GLI activity in cancer and stem cells. We will also discuss the rationale of targeting these oncogenic pathways in combination with HH-GLI inhibitors as a promising anti-cancer therapies.

Published
2019
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25. Targeting the Oncoprotein Smoothened by Small Molecules: Focus on Novel Acylguanidine Derivatives as Potent Smoothened Inhibitors.

Author

Pietrobono S and Stecca B

Abstract

Hedgehog-GLI (HH) signaling was originally identified as a critical morphogenetic pathway in embryonic development. Since its discovery, a multitude of studies have reported that HH signaling also plays key roles in a variety of cancer types and in maintaining tumor-initiating cells. Smoothened (SMO) is the main transducer of HH signaling, and in the last few years, it has emerged as a promising therapeutic target for anticancer therapy. Although vismodegib and sonidegib have demonstrated effectiveness for the treatment of basal cell carcinoma (BCC), their clinical use has been hampered by severe side effects, low selectivity against cancer stem cells, and the onset of mutation-driven drug resistance. Moreover, SMO antagonists are not effective in cancers where HH activation is due to mutations of pathway components downstream of SMO, or in the case of noncanonical, SMO-independent activation of the GLI transcription factors, the final mediators of HH signaling. Here, we review the current and rapidly expanding field of SMO small-molecule inhibitors in experimental and clinical settings, focusing on a class of acylguanidine derivatives. We also discuss various aspects of SMO, including mechanisms of resistance to SMO antagonists., Competing Interests: The authors declare no conflict of interest.

Published
2018
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26. SOX2 as a novel contributor of oxidative metabolism in melanoma cells.

Author

Andreucci E, Pietrobono S, Peppicelli S, Ruzzolini J, Bianchini F, Biagioni A, Stecca B, and Calorini L

Subjects
Cell Line, Tumor, Extracellular Space metabolism, Gene Expression Regulation, Neoplastic, Humans, Hypoxia-Inducible Factor 1, alpha Subunit metabolism, Oxidation-Reduction, Oxidative Phosphorylation, Phenotype, SOXB1 Transcription Factors genetics, Melanoma pathology, SOXB1 Transcription Factors metabolism
Abstract

Background: Deregulated metabolism is a hallmark of cancer and recent evidence underlines that targeting tumor energetics may improve therapy response and patient outcome. Despite the general attitude of cancer cells to exploit the glycolytic pathway even in the presence of oxygen (aerobic glycolysis or "Warburg effect"), tumor metabolism is extremely plastic, and such ability to switch from glycolysis to oxidative phosphorylation (OxPhos) allows cancer cells to survive under hostile microenvironments. Recently, OxPhos has been related with malignant progression, chemo-resistance and metastasis. OxPhos is induced under extracellular acidosis, a well-known characteristic of most solid tumors, included melanoma., Methods: To evaluate whether SOX2 modulation is correlated with metabolic changes under standard or acidic conditions, SOX2 was silenced and overexpressed in several melanoma cell lines. To demonstrate that SOX2 directly represses HIF1A expression we used chromatin immunoprecipitation (ChIP) and luciferase assay., Results: In A375-M6 melanoma cells, extracellular acidosis increases SOX2 expression, that sustains the oxidative cancer metabolism exploited under acidic conditions. By studying non-acidic SSM2c and 501-Mel melanoma cells (high- and very low-SOX2 expressing cells, respectively), we confirmed the metabolic role of SOX2, attributing SOX2-driven OxPhos reprogramming to HIF1α pathway disruption., Conclusions: SOX2 contributes to the acquisition of an aggressive oxidative tumor phenotype, endowed with enhanced drug resistance and metastatic ability.

Published
2018
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27. Soft Tissue Sarcoma Cancer Stem Cells: An Overview.

Author

Genadry KC, Pietrobono S, Rota R, and Linardic CM

Abstract

Soft tissue sarcomas (STSs) are an uncommon group of solid tumors that can arise throughout the human lifespan. Despite their commonality as non-bony cancers that develop from mesenchymal cell precursors, they are heterogeneous in their genetic profiles, histology, and clinical features. This has made it difficult to identify a single target or therapy specific to STSs. And while there is no one cell of origin ascribed to all STSs, the cancer stem cell (CSC) principle-that a subpopulation of tumor cells possesses stem cell-like properties underlying tumor initiation, therapeutic resistance, disease recurrence, and metastasis-predicts that ultimately it should be possible to identify a feature common to all STSs that could function as a therapeutic Achilles' heel. Here we review the published evidence for CSCs in each of the most common STSs, then focus on the methods used to study CSCs, the developmental signaling pathways usurped by CSCs, and the epigenetic alterations critical for CSC identity that may be useful for further study of STS biology. We conclude with discussion of some challenges to the field and future directions.

Published
2018
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28. Targeted inhibition of Hedgehog-GLI signaling by novel acylguanidine derivatives inhibits melanoma cell growth by inducing replication stress and mitotic catastrophe.

Author

Pietrobono S, Santini R, Gagliardi S, Dapporto F, Colecchia D, Chiariello M, Leone C, Valoti M, Manetti F, Petricci E, Taddei M, and Stecca B

Subjects
Animals, Apoptosis drug effects, Cell Cycle Checkpoints drug effects, Cell Line, Tumor, Cell Proliferation drug effects, Cell Self Renewal, Cell Survival drug effects, DNA Damage, Female, Humans, Inhibitory Concentration 50, Mice, Nude, Neoplastic Stem Cells drug effects, Neoplastic Stem Cells metabolism, Neoplastic Stem Cells pathology, Smoothened Receptor metabolism, Xenograft Model Antitumor Assays, DNA Replication drug effects, Guanidines pharmacology, Hedgehog Proteins metabolism, Melanoma pathology, Mitosis drug effects, Signal Transduction, Stress, Physiological, Zinc Finger Protein GLI1 metabolism
Abstract

Aberrant activation of the Hedgehog (HH) signaling is a critical driver in tumorigenesis. The Smoothened (SMO) receptor is one of the major upstream transducers of the HH pathway and a target for the development of anticancer agents. The SMO inhibitor Vismodegib (GDC-0449/Erivedge) has been approved for treatment of basal cell carcinoma. However, the emergence of resistance during Vismodegib treatment and the occurrence of numerous side effects limit its use. Our group has recently discovered and developed novel and potent SMO inhibitors based on acylguanidine or acylthiourea scaffolds. Here, we show that the two acylguanidine analogs, compound (1) and its novel fluoride derivative (2), strongly reduce growth and self-renewal of melanoma cells, inhibiting the level of the HH signaling target GLI1 in a dose-dependent manner. Both compounds induce apoptosis and DNA damage through the ATR/CHK1 axis. Mechanistically, they prevent G2 to M cell cycle transition, and induce signs of mitotic aberrations ultimately leading to mitotic catastrophe. In a melanoma xenograft mouse model, systemic treatment with 1 produced a remarkable inhibition of tumor growth without body weight loss in mice. Our data highlight a novel route for cell death induction by SMO inhibitors and support their use in therapeutic approaches for melanoma and, possibly, other types of cancer with active HH signaling.

Published
2018
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29. Down-Regulation of SOX2 Underlies the Inhibitory Effects of the Triphenylmethane Gentian Violet on Melanoma Cell Self-Renewal and Survival.

Author

Pietrobono S, Morandi A, Gagliardi S, Gerlini G, Borgognoni L, Chiarugi P, Arbiser JL, and Stecca B

Subjects
Apoptosis drug effects, Cell Line, Tumor, Cell Self Renewal drug effects, Cell Survival drug effects, Down-Regulation drug effects, G2 Phase Cell Cycle Checkpoints drug effects, Humans, Melanoma genetics, Melanoma pathology, Mitochondria metabolism, Neoplastic Stem Cells metabolism, Phosphorylation drug effects, STAT3 Transcription Factor metabolism, Skin Neoplasms genetics, Skin Neoplasms pathology, Gentian Violet pharmacology, Melanoma drug therapy, SOXB1 Transcription Factors genetics, Skin Neoplasms drug therapy
Abstract

Human melanomas contain a population of tumor-initiating cells that are able to maintain the growth of the tumor. We previously showed that the embryonic transcription factor SOX2 is essential for self-renewal and tumorigenicity of human melanoma-initiating cells. However, targeting a transcription factor is still challenging. Gentian violet (GV) is a cationic triphenylmethane dye with potent antifungal and antibacterial activity. Recently, a combination therapy of imiquimod and GV has shown an inhibitory effect against melanoma metastases. Whether and how GV affects melanoma cells remains unknown. Here we show that GV represses melanoma stem cell self-renewal through inhibition of SOX2. Mechanistically, GV hinders EGFR activation and inhibits the signal transducer and activator of transcription-3 [(STAT3)/SOX2] axis. Importantly, we show that GV treatment decreases STAT3 phosphorylation at residue tyrosine 705, thus preventing the translocation of STAT3 into the nucleus and its binding to SOX2 promoter. In addition, GV affects melanoma cell growth by promoting mitochondrial apoptosis and G2 cell cycle arrest. This study shows that in melanoma, GV affects both the stem cell and the tumor bulk compartments, suggesting the potential use of GV in treating human melanoma alone or in combination with targeted therapy and/or immunotherapy., (Copyright © 2016 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2016
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30. Splice variants of activation induced deaminase (AID) do not affect the efficiency of class switch recombination in murine CH12F3 cells.

Author

Sala C, Mattiuz G, Pietrobono S, Chicca A, and Conticello SG

Subjects
Animals, Cell Line, Tumor, Cytidine Deaminase genetics, Mice, Mutation, Protein Isoforms genetics, Cytidine Deaminase metabolism, Immunoglobulin Class Switching genetics, Protein Isoforms metabolism, Recombination, Genetic
Abstract

Activation Induced Deaminase (AID) triggers the antigen-driven antibody diversification processes through its ability to edit DNA. AID dependent DNA damage is also the cause of genetic alterations often found in mature B cell tumors. A number of splice variants of AID have been identified, for which a role in the modulation of its activity has been hypothesized. We have thus tested two of these splice variants, which we find catalytically inactive, for their ability to modulate the activity of endogenous AID in CH12F3 cells, a murine lymphoma cell line in which Class Switch Recombination (CSR) can be induced. In contrast to full-length AID, neither these splice variants or a catalytically impaired AID mutant affect the efficiency of Class Switch Recombination. Thus, while a role for these splice variants at the RNA level remains possible, it is unlikely that they exert any regulatory effect on the function of AID.

Published
2015
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