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1. Tumor microenvironment-induced FOXM1 regulates ovarian cancer stemness

Author

Battistini, C, Kenny, H, Zambuto, M, Nieddu, V, Melocchi, V, Decio, A, Lo Riso, P, Villa, C, Gatto, A, Ghioni, M, Porta, F, Testa, G, Giavazzi, R, Colombo, N, Bianchi, F, Lengyel, E, Cavallaro, U, Battistini C., Kenny H. A., Zambuto M., Nieddu V., Melocchi V., Decio A., Lo Riso P., Villa C. E., Gatto A., Ghioni M., Porta F. M., Testa G., Giavazzi R., Colombo N., Bianchi F., Lengyel E., Cavallaro U., Battistini, C, Kenny, H, Zambuto, M, Nieddu, V, Melocchi, V, Decio, A, Lo Riso, P, Villa, C, Gatto, A, Ghioni, M, Porta, F, Testa, G, Giavazzi, R, Colombo, N, Bianchi, F, Lengyel, E, Cavallaro, U, Battistini C., Kenny H. A., Zambuto M., Nieddu V., Melocchi V., Decio A., Lo Riso P., Villa C. E., Gatto A., Ghioni M., Porta F. M., Testa G., Giavazzi R., Colombo N., Bianchi F., Lengyel E., and Cavallaro U.

Abstract

In ovarian tumors, the omental microenvironment profoundly influences the behavior of cancer cells and sustains the acquisition of stem-like traits, with major impacts on tumor aggressiveness and relapse. Here, we leverage a patient-derived platform of organotypic cultures to study the crosstalk between the tumor microenvironment and ovarian cancer stem cells. We discovered that the pro-tumorigenic transcription factor FOXM1 is specifically induced by the microenvironment in ovarian cancer stem cells, through activation of FAK/YAP signaling. The microenvironment-induced FOXM1 sustains stemness, and its inactivation reduces cancer stem cells survival in the omental niche and enhances their response to the PARP inhibitor Olaparib. By unveiling the novel role of FOXM1 in ovarian cancer stemness, our findings highlight patient-derived organotypic co-cultures as a powerful tool to capture clinically relevant mechanisms of the microenvironment/cancer stem cells crosstalk, contributing to the identification of tumor vulnerabilities.

Published
2024

3. Single cell-derived spheroids capture the self-renewing subpopulations of metastatic ovarian cancer

Author

Velletri, T, Villa, C, Cilli, D, Barzaghi, B, Lo Riso, P, Lupia, M, Luongo, R, Lopez-Tobon, A, De Simone, M, Bonnal, R, Marelli, L, Piccolo, S, Colombo, N, Pagani, M, Cavallaro, U, Minucci, S, Testa, G, Velletri T., Villa C. E., Cilli D., Barzaghi B., Lo Riso P., Lupia M., Luongo R., Lopez-Tobon A., De Simone M., Bonnal R. J. P., Marelli L., Piccolo S., Colombo N., Pagani M., Cavallaro U., Minucci S., Testa G., Velletri, T, Villa, C, Cilli, D, Barzaghi, B, Lo Riso, P, Lupia, M, Luongo, R, Lopez-Tobon, A, De Simone, M, Bonnal, R, Marelli, L, Piccolo, S, Colombo, N, Pagani, M, Cavallaro, U, Minucci, S, Testa, G, Velletri T., Villa C. E., Cilli D., Barzaghi B., Lo Riso P., Lupia M., Luongo R., Lopez-Tobon A., De Simone M., Bonnal R. J. P., Marelli L., Piccolo S., Colombo N., Pagani M., Cavallaro U., Minucci S., and Testa G.

Abstract

High Grade Serous Ovarian cancer (HGSOC) is a major unmet need in oncology, due to its precocious dissemination and the lack of meaningful human models for the investigation of disease pathogenesis in a patient-specific manner. To overcome this roadblock, we present a new method to isolate and grow single cells directly from patients’ metastatic ascites, establishing the conditions for propagating them as 3D cultures that we refer to as single cell-derived metastatic ovarian cancer spheroids (sMOCS). By single cell RNA sequencing (scRNAseq) we define the cellular composition of metastatic ascites and trace its propagation in 2D and 3D culture paradigms, finding that sMOCS retain and amplify key subpopulations from the original patients’ samples and recapitulate features of the original metastasis that do not emerge from classical 2D culture, including retention of individual patients’ specificities. By enabling the enrichment of uniquely informative cell subpopulations from HGSOC metastasis and the clonal interrogation of their diversity at the functional and molecular level, this method provides a powerful instrument for precision oncology in ovarian cancer.

Published
2022

4. Integrated molecular profiling of patient-derived ovarian cancer models identifies clinically relevant signatures and tumor vulnerabilities

Author

Lupia, M, Melocchi, V, Bizzaro, F, Lo Riso, P, Dama, E, Baronio, M, Ranghiero, A, Barberis, M, Bernard, L, Bertalot, G, Giavazzi, R, Testa, G, Bianchi, F, Cavallaro, U, Lupia M., Melocchi V., Bizzaro F., Lo Riso P., Dama E., Baronio M., Ranghiero A., Barberis M., Bernard L., Bertalot G., Giavazzi R., Testa G., Bianchi F., Cavallaro U., Lupia, M, Melocchi, V, Bizzaro, F, Lo Riso, P, Dama, E, Baronio, M, Ranghiero, A, Barberis, M, Bernard, L, Bertalot, G, Giavazzi, R, Testa, G, Bianchi, F, Cavallaro, U, Lupia M., Melocchi V., Bizzaro F., Lo Riso P., Dama E., Baronio M., Ranghiero A., Barberis M., Bernard L., Bertalot G., Giavazzi R., Testa G., Bianchi F., and Cavallaro U.

Abstract

High-grade serous ovarian carcinoma (HGSOC) is a highly aggressive and intractable neoplasm, mainly because of its rapid dissemination into the abdominal cavity, a process that is favored by tumor-associated peritoneal ascites. The precise molecular alterations involved in HGSOC onset and progression remain largely unknown due to the high biological and genetic heterogeneity of this tumor. We established a set of different tumor samples (termed the As11-set) derived from a single HGSOC patient, consisting of peritoneal ascites, primary tumor cells, ovarian cancer stem cells (OCSC) and serially propagated tumor xenografts. The As11-set was subjected to an integrated RNA-seq and DNA-seq analysis which unveiled molecular alterations that marked the different types of samples. Our profiling strategy yielded a panel of signatures relevant in HGSOC and in OCSC biology. When such signatures were used to interrogate the TCGA dataset from HGSOC patients, they exhibited prognostic and predictive power. The molecular alterations also identified potential vulnerabilities associated with OCSC, which were then tested functionally in stemness-related assays. As a proof of concept, we defined PI3K signaling as a novel druggable target in OCSC.

Published
2022

5. Matrix Gla Protein drives stemness and tumor initiation in ovarian cancer

Author

Nieddu, V, Melocchi, V, Battistini, C, Franciosa, G, Lupia, M, Stellato, C, Bertalot, G, Olsen, J, Colombo, N, Bianchi, F, Cavallaro, U, Nieddu, V, Melocchi, V, Battistini, C, Franciosa, G, Lupia, M, Stellato, C, Bertalot, G, Olsen, J, Colombo, N, Bianchi, F, and Cavallaro, U

Abstract

Ovarian cancer (OC) displays the highest mortality among gynecological tumors, mainly due to early peritoneal dissemination, the high frequency of tumor relapse following primary debulking, and the development of chemoresistance. All these events are thought to be initiated and sustained by a subpopulation of neoplastic cells, termed ovarian cancer stem cells (OCSC), that are endowed with self-renewing and tumor-initiating properties. This implies that interfering with OCSC function should offer novel therapeutic perspectives to defeat OC progression. To this aim, a better understanding of the molecular and functional makeup of OCSC in clinically relevant model systems is essential. We have profiled the transcriptome of OCSC vs. their bulk cell counterpart from a panel of patient-derived OC cell cultures. This revealed that Matrix Gla Protein (MGP), classically known as a calcification-preventing factor in cartilage and blood vessels, is markedly enriched in OCSC. Functional assays showed that MGP confers several stemness-associated traits to OC cells, including a transcriptional reprogramming. Patient-derived organotypic cultures pointed to the peritoneal microenvironment as a major inducer of MGP expression in OC cells. Furthermore, MGP was found to be necessary and sufficient for tumor initiation in OC mouse models, by shortening tumor latency and increasing dramatically the frequency of tumor-initiating cells. Mechanistically, MGP-driven OC stemness was mediated by the stimulation of Hedgehog signaling, in particular through the induction of the Hedgehog effector GLI1, thus highlighting a novel MGP/Hedgehog pathway axis in OCSC. Finally, MGP expression was found to correlate with poor prognosis in OC patients, and was increased in tumor tissue after chemotherapy, supporting the clinical relevance of our findings. Thus, MGP is a novel driver in OCSC pathophysiology, with a major role in stemness and in tumor initiation.

Published
2023

7. L1CAM promotes ovarian cancer stemness and tumor initiation via FGFR1/SRC/STAT3 signaling

Author

Giordano, M, Decio, A, Battistini, C, Baronio, M, Bianchi, F, Villa, A, Bertalot, G, Freddi, S, Lupia, M, Jodice, M, Ubezio, P, Colombo, N, Giavazzi, R, Cavallaro, U, Giordano M., Decio A., Battistini C., Baronio M., Bianchi F., Villa A., Bertalot G., Freddi S., Lupia M., Jodice M. G., Ubezio P., Colombo N., Giavazzi R., Cavallaro U., Giordano, M, Decio, A, Battistini, C, Baronio, M, Bianchi, F, Villa, A, Bertalot, G, Freddi, S, Lupia, M, Jodice, M, Ubezio, P, Colombo, N, Giavazzi, R, Cavallaro, U, Giordano M., Decio A., Battistini C., Baronio M., Bianchi F., Villa A., Bertalot G., Freddi S., Lupia M., Jodice M. G., Ubezio P., Colombo N., Giavazzi R., and Cavallaro U.

Abstract

Background: Cancer stem cells (CSC) have been implicated in tumor progression. In ovarian carcinoma (OC), CSC drive tumor formation, dissemination and recurrence, as well as drug resistance, thus contributing to the high death-to-incidence ratio of this disease. However, the molecular basis of such a pathogenic role of ovarian CSC (OCSC) has been elucidated only to a limited extent. In this context, the functional contribution of the L1 cell adhesion molecule (L1CAM) to OC stemness remains elusive. Methods: The expression of L1CAM was investigated in patient-derived OCSC. The genetic manipulation of L1CAM in OC cells provided gain and loss-of-function models that were then employed in cell biological assays as well as in vivo tumorigenesis experiments to assess the role of L1CAM in OC cell stemness and in OCSC-driven tumor initiation. We applied antibody-mediated neutralization to investigate L1CAM druggability. Biochemical approaches were then combined with functional in vitro assays to study the molecular mechanisms underlying the functional role of L1CAM in OCSC. Results: We report that L1CAM is upregulated in patient-derived OCSC. Functional studies showed that L1CAM promotes several stemness-related properties in OC cells, including sphere formation, tumor initiation and chemoresistance. These activities were repressed by an L1CAM-neutralizing antibody, pointing to L1CAM as a druggable target. Mechanistically, L1CAM interacted with and activated fibroblast growth factor receptor-1 (FGFR1), which in turn induced the SRC-mediated activation of STAT3. The inhibition of STAT3 prevented L1CAM-dependent OC stemness and tumor initiation. Conclusions: Our study implicate L1CAM in the tumorigenic function of OCSC and point to the L1CAM/FGFR1/SRC/STAT3 signaling pathway as a novel driver of OC stemness. We also provide evidence that targeting this pathway can contribute to OC eradication.

Published
2021

8. A cell-of-origin epigenetic tracer reveals clinically distinct subtypes of high-grade serous ovarian cancer

Author

Lo Riso, P, Villa, C, Gasparoni, G, Vingiani, A, Luongo, R, Manfredi, A, Jungmann, A, Bertolotti, A, Borgo, F, Garbi, A, Lupia, M, Laise, P, Das, V, Pruneri, G, Viale, G, Colombo, N, Manzo, T, Nezi, L, Cavallaro, U, Cacchiarelli, D, Walter, J, Testa, G, Lo Riso P., Villa C. E., Gasparoni G., Vingiani A., Luongo R., Manfredi A., Jungmann A., Bertolotti A., Borgo F., Garbi A., Lupia M., Laise P., Das V., Pruneri G., Viale G., Colombo N., Manzo T., Nezi L., Cavallaro U., Cacchiarelli D., Walter J., Testa G., Lo Riso, P, Villa, C, Gasparoni, G, Vingiani, A, Luongo, R, Manfredi, A, Jungmann, A, Bertolotti, A, Borgo, F, Garbi, A, Lupia, M, Laise, P, Das, V, Pruneri, G, Viale, G, Colombo, N, Manzo, T, Nezi, L, Cavallaro, U, Cacchiarelli, D, Walter, J, Testa, G, Lo Riso P., Villa C. E., Gasparoni G., Vingiani A., Luongo R., Manfredi A., Jungmann A., Bertolotti A., Borgo F., Garbi A., Lupia M., Laise P., Das V., Pruneri G., Viale G., Colombo N., Manzo T., Nezi L., Cavallaro U., Cacchiarelli D., Walter J., and Testa G.

Abstract

Background: High-grade serous ovarian cancer (HGSOC) is a major unmet need in oncology. The remaining uncertainty on its originating tissue has hampered the discovery of molecular oncogenic pathways and the development of effective therapies. Methods: We used an approach based on the retention in tumors of a DNA methylation trace (OriPrint) that distinguishes the two putative tissues of origin of HGSOC, the fimbrial (FI) and ovarian surface epithelia (OSE), to stratify HGSOC by several clustering methods, both linear and non-linear. The identified tumor subtypes (FI-like and OSE-like HGSOC) were investigated at the RNAseq level to stratify an in-house cohort of macrodissected HGSOC FFPE samples to derive overall and disease-free survival and identify specific transcriptional alterations of the two tumor subtypes, both by classical differential expression and weighted correlation network analysis. We translated our strategy to published datasets and verified the co-occurrence of previously described molecular classification of HGSOC. We performed cytokine analysis coupled to immune phenotyping to verify alterations in the immune compartment associated with HGSOC. We identified genes that are both differentially expressed and methylated in the two tumor subtypes, concentrating on PAX8 as a bona fide marker of FI-like HGSOC. Results: We show that: - OriPrint is a robust DNA methylation tracer that exposes the tissue of origin of HGSOC. - The tissue of origin of HGSOC is the main determinant of DNA methylation variance in HGSOC. - The tissue of origin is a prognostic factor for HGSOC patients. - FI-like and OSE-like HGSOC are endowed with specific transcriptional alterations that impact patients’ prognosis. - OSE-like tumors present a more invasive and immunomodulatory phenotype, compatible with its worse prognostic impact. - Among genes that are differentially expressed and regulated in FI-like and OSE-like HGSOC, PAX8 is a bona fide marker of FI-like tumors. Conclusio

Published
2020

9. Establishment and characterization of a new panel of uterine leiomyosarcoma patient-derived xenograft models

Author

Meroni, M, Craparotta, I, Mannarino, L, Barbera, M, Bello, E, Cavallaro, U, Bertalot, G, Lorenzo Renne, S, D’Incalci, M, Frapolli, R, Marina Meroni, Ilaria Craparotta, Laura Mannarino, Maria Chiara Barbera, Ezia Bello, Ugo Cavallaro, Giovanni Bertalot, Salvatore Lorenzo Renne, Maurizio D’Incalci, Roberta Frapolli, Meroni, M, Craparotta, I, Mannarino, L, Barbera, M, Bello, E, Cavallaro, U, Bertalot, G, Lorenzo Renne, S, D’Incalci, M, Frapolli, R, Marina Meroni, Ilaria Craparotta, Laura Mannarino, Maria Chiara Barbera, Ezia Bello, Ugo Cavallaro, Giovanni Bertalot, Salvatore Lorenzo Renne, Maurizio D’Incalci, and Roberta Frapolli

Published
2022

12. Platinum sensitivity and DNA repair in a recently established panel of patient-derived ovarian carcinoma xenografts

Author

Guffanti, F, Fratelli, M, Ganzinelli, M, Bolis, M, Ricci, F, Bizzaro, F, Chilà, R, Sina, F, Fruscio, R, Lupia, M, Cavallaro, U, Cappelletti, M, Generali, D, Giavazzi, R, Damia, G, Guffanti, Federica, Fratelli, Maddalena, Ganzinelli, Monica, Bolis, Marco, Ricci, Francesca, Bizzaro, Francesca, Chilà, Rosaria, Sina, Federica Paola, Fruscio, Robert, Lupia, Michela, Cavallaro, Ugo, Cappelletti, Maria Rosa, Generali, Daniele, Giavazzi, Raffaella, Damia, Giovanna, Guffanti, F, Fratelli, M, Ganzinelli, M, Bolis, M, Ricci, F, Bizzaro, F, Chilà, R, Sina, F, Fruscio, R, Lupia, M, Cavallaro, U, Cappelletti, M, Generali, D, Giavazzi, R, Damia, G, Guffanti, Federica, Fratelli, Maddalena, Ganzinelli, Monica, Bolis, Marco, Ricci, Francesca, Bizzaro, Francesca, Chilà, Rosaria, Sina, Federica Paola, Fruscio, Robert, Lupia, Michela, Cavallaro, Ugo, Cappelletti, Maria Rosa, Generali, Daniele, Giavazzi, Raffaella, and Damia, Giovanna

Abstract

A xenobank of patient-derived (PDX) ovarian tumor samples has been established consisting of tumors with different sensitivity to cisplatin (DDP), from very responsive to resistant. As the DNA repair pathway is an important driver in tumor response to DDP, we analyzed the mRNA expression of 20 genes involved in the nucleotide excision repair, fanconi anemia, homologous recombination, base excision repair, mismatch repair and translesion repair pathways and the methylation patterns of some of these genes. We also investigated the correlation with the response to platinum-based therapy. The mRNA levels of the selected genes were evaluated by Real Time-PCR (RT-PCR) with ad hoc validated primers and gene promoter methylation by pyrosequencing. All the DNA repair genes were variably expressed in all 42 PDX samples analyzed, with no particular histotype-specific pattern of expression. In high-grade serous/endometrioid PDXs, the CDK12 mRNA expression levels positively correlated with the expression of TP53BP1, PALB2, XPF and POLB. High-grade serous/ endometrioid PDXs with TP53 mutations had significantly higher levels of POLQ, FANCD2, RAD51 and POLB than high-grade TP53 wild type PDXs. The mRNA levels of CDK12, PALB2 and XPF inversely associated with the in vivo DDP antitumor activity; higher CDK12 mRNA levels were associated with a higher recurrence rate in ovarian patients with low residual tumor. These data support the important role of CDK12 in the response to a platinum based therapy in ovarian patients.

Published
2018

13. CD73 Regulates Stemness and Epithelial-Mesenchymal Transition in Ovarian Cancer-Initiating Cells

Author

Lupia, M, Angiolini, F, Bertalot, G, Freddi, S, Sachsenmeier, K, Chisci, E, Kutryb-Zajac, B, Confalonieri, S, Smolenski, R, Giovannoni, R, Colombo, N, Bianchi, F, Cavallaro, U, Lupia, Michela, Angiolini, Francesca, Bertalot, Giovanni, Freddi, Stefano, Sachsenmeier, Kris F, Chisci, Elisa, Kutryb-Zajac, Barbara, Confalonieri, Stefano, Smolenski, Ryszard T, Giovannoni, Roberto, Colombo, Nicoletta, Bianchi, Fabrizio, Cavallaro, Ugo, Lupia, M, Angiolini, F, Bertalot, G, Freddi, S, Sachsenmeier, K, Chisci, E, Kutryb-Zajac, B, Confalonieri, S, Smolenski, R, Giovannoni, R, Colombo, N, Bianchi, F, Cavallaro, U, Lupia, Michela, Angiolini, Francesca, Bertalot, Giovanni, Freddi, Stefano, Sachsenmeier, Kris F, Chisci, Elisa, Kutryb-Zajac, Barbara, Confalonieri, Stefano, Smolenski, Ryszard T, Giovannoni, Roberto, Colombo, Nicoletta, Bianchi, Fabrizio, and Cavallaro, Ugo

Abstract

Cancer-initiating cells (CICs) have been implicated in tumor development and aggressiveness. In ovarian carcinoma (OC), CICs drive tumor formation, dissemination, and recurrence, as well as drug resistance, thus accounting for the high death-to-incidence ratio of this neoplasm. However, the molecular mechanisms that underlie such a pathogenic role of ovarian CICs (OCICs) remain elusive. Here, we have capitalized on primary cells either from OC or from its tissues of origin to obtain the transcriptomic profile associated with OCICs. Among the genes differentially expressed in OCICs, we focused on CD73, which encodes the membrane-associated 5′-ectonucleotidase. The genetic inactivation of CD73 in OC cells revealed that this molecule is causally involved in sphere formation and tumor initiation, thus emerging as a driver of OCIC function. Furthermore, functional inhibition of CD73 via either a chemical compound or a neutralizing antibody reduced sphere formation and tumorigenesis, highlighting the druggability of CD73 in the context of OCIC-directed therapies. The biological function of CD73 in OCICs required its enzymatic activity and involved adenosine signaling. Mechanistically, CD73 promotes the expression of stemness and epithelial-mesenchymal transition-associated genes, implying a regulation of OCIC function at the transcriptional level. CD73, therefore, is involved in OCIC biology and may represent a therapeutic target for innovative treatments aimed at OC eradication. Cavallaro et al. characterized the transcriptome of OCIC-enriched primary cultures and found CD73 as an upregulated gene. CD73 was then shown to regulate the expression of stemness and EMT-associated genes. The expression and function of CD73 in OCICs is required for tumor initiation, and CD73-targeted drugs decrease the rate of tumor take and inhibit cancer growth.

Published
2018

15. The interplay between NCAM and FGFR signalling underlies ovarian cancer progression

Author

Colombo, N, Cavallaro, U, COLOMBO, NICOLETTA, Cavallaro, U., Colombo, N, Cavallaro, U, COLOMBO, NICOLETTA, and Cavallaro, U.

Abstract

Epithelial ovarian carcinoma (EOC) is an aggressive neoplasm, which has often disseminated to peritoneal cavity at the time of diagnosis. In order to better understand the molecular mechanisms behind EOC progression, we investigated the expression and functional role of neural cell adhesion molecule (NCAM) in this tumour type.

Published
2011

16. The adhesion molecule NCAM promotes ovarian cancer progression via FGFR signalling

Author

Zecchini, S, Bombardelli, L, Decio, A, Bianchi, M, Mazzarol, G, Sanguineti, F, Aletti, G, Maddaluno, L, Berezin, V, Bock, E, Casadio, C, Viale, G, Colombo, N, Giavazzi, R, Cavallaro, U, COLOMBO, NICOLETTA, Cavallaro, U., Zecchini, S, Bombardelli, L, Decio, A, Bianchi, M, Mazzarol, G, Sanguineti, F, Aletti, G, Maddaluno, L, Berezin, V, Bock, E, Casadio, C, Viale, G, Colombo, N, Giavazzi, R, Cavallaro, U, COLOMBO, NICOLETTA, and Cavallaro, U.

Abstract

Epithelial ovarian carcinoma (EOC) is an aggressive neoplasm, which mainly disseminates to organs of the peritoneal cavity, an event mediated by molecular mechanisms that remain elusive. Here, we investigated the expression and functional role of neural cell adhesion molecule (NCAM), a cell surface glycoprotein involved in brain development and plasticity, in EOC. NCAM is absent from normal ovarian epithelium but becomes highly expressed in a subset of human EOC, in which NCAM expression is associated with high tumour grade, suggesting a causal role in cancer aggressiveness. We demonstrate that NCAM stimulates EOC cell migration and invasion in vitro and promotes metastatic dissemination in mice. This pro-malignant function of NCAM is mediated by its interaction with fibroblast growth factor receptor (FGFR). Indeed, not only FGFR signalling is required for NCAM-induced EOC cell motility, but targeting the NCAM/FGFR interplay with a monoclonal antibody abolishes the metastatic dissemination of EOC in mice. Our results point to NCAM-mediated stimulation of FGFR as a novel mechanism underlying EOC malignancy and indicate that this interplay may represent a valuable therapeutic target. © 2011 EMBO Molecular Medicine.

Published
2011

17. The binding of NCAM to FGFR1 induces a specific cellular response mediated by receptor trafficking

Author

Francavilla, C, Cattaneo, P, Berezin, V, Bock, E, Ami, D, De Marco, A, Christofori, G, Cavallaro, U, Cavallaro, U., CATTANEO, PAOLA LUISA, AMI, DILETTA, Francavilla, C, Cattaneo, P, Berezin, V, Bock, E, Ami, D, De Marco, A, Christofori, G, Cavallaro, U, Cavallaro, U., CATTANEO, PAOLA LUISA, and AMI, DILETTA

Abstract

Neural cell adhesion molecule (NCAM) associates with fibroblast growth factor (FGF) receptor-1 (FGFR1). However, the biological significance of this interaction remains largely elusive. In this study, we show that NCAM induces a specific, FGFR1-mediated cellular response that is remarkably different from that elicited by FGF-2. In contrast to FGF-induced degradation of endocytic FGFR1, NCAM promotes the stabilization of the receptor, which is recycled to the cell surface in a Rab11-and Src-dependent manner. In turn, FGFR1 recycling is required for NCAM-induced sustained activation of various effectors. Furthermore, NCAM, but not FGF-2, promotes cell migration, and this response depends on FGFR1 recycling and sustained Src activation. Our results implicate NCAM as a nonconventional ligand for FGFR1 that exerts a peculiar control on the intracellular trafficking of the receptor, resulting in a specific cellular response. Besides introducing a further level of complexity in the regulation of FGFR1 function, our findings highlight the link of FGFR recycling with sustained signaling and cell migration and the critical role of these events in dictating the cellular response evoked by receptor activation. © 2009 Francavilla et al.

Published
2009

18. The differential role of L1 in ovarian carcinoma and normal ovarian surface epithelium

Author

Zecchini, S, Bianchi, M, Colombo, N, Fasani, R, Goisis, G, Casadio, C, Viale, G, Liu, J, Herlyn, M, Godwin, A, Nuciforo, P, Cavallaro, U, Godwin, AK, Nuciforo, PG, Cavallaro, U., COLOMBO, NICOLETTA, Zecchini, S, Bianchi, M, Colombo, N, Fasani, R, Goisis, G, Casadio, C, Viale, G, Liu, J, Herlyn, M, Godwin, A, Nuciforo, P, Cavallaro, U, Godwin, AK, Nuciforo, PG, Cavallaro, U., and COLOMBO, NICOLETTA

Abstract

Epithelial ovarian carcinoma (EOC) arises from the ovarian surface epithelium (OSE), a monolayer of poorly differentiated epithelial cells that lines the ovary. The molecular mechanisms underlying EOC invasion into the surrounding stroma and dissemination to the peritoneum and to retroperitoneal lymph nodes are still unclear. Here, we analyzed the expression and the functional role of the cell adhesion molecule L1 during EOC development. In patient-derived samples, L1 was expressed both in OSE and in a subset of EOC, in the latter being mostly restricted to the invasive areas of the tumors. The expression of L1 correlated significantly with poor outcome and with unfavorable clinicopathologic features of the disease. The peculiar expression pattern of L1 in normal OSE and invasive EOC raised the possibility that this adhesion molecule serves a different function in nontransformed versus neoplastic ovarian epithelial cells. Indeed, we showed that in OSE cells L1 supports cell-cell adhesion and enhances apoptosis, whereas it has no effect on cell proliferation and invasion. In contrast, L1 inhibits cell-cell adhesion and apoptosis in ovarian carcinoma cells, where it promotes malignancy-related properties, such as cell proliferation, Erk1/2-dependent and phosphoinositide 3-kinase-dependent invasion, and transendothelial migration. Interestingly, a crosstalk with the fibroblast growth factor receptor signaling is implicated in the promalignant function of L1 in tumor cells. Our findings point to L1 as an EOC biomarker correlating with poor prognosis, and highlight a switch in L1 function associated to the neoplastic transformation of ovarian epithelial cells, thus implicating L1 as a potential therapeutic target.

Published
2008

19. The interplay between NCAM and FGFR signalling underlies ovarian cancer progression

Author

COLOMBO, NICOLETTA, Cavallaro, U., Colombo, N, and Cavallaro, U

Subjects
endocrine system diseases, Ovarian Carcinoma, NCAM, female genital diseases and pregnancy complications, Visions
Abstract

Epithelial ovarian carcinoma (EOC) is an aggressive neoplasm, which has often disseminated to peritoneal cavity at the time of diagnosis. In order to better understand the molecular mechanisms behind EOC progression, we investigated the expression and functional role of neural cell adhesion molecule (NCAM) in this tumour type.

Published
2011

23. The urokinase receptor: Structure, regulation and inhibitor-mediated internalization

Author

Blasi, F., primary, Conese, M., additional, Møller, L.B., additional, Pedersen, N., additional, Cavallaro, U., additional, Cubellis, M.V., additional, Fazioli, F., additional, Hemandez-Marrero, L., additional, Limongi, P., additional, Munoz-Canoves, P., additional, Resnati, M., additional, Riittinen, L., additional, Sidenius, N., additional, Soravia, E., additional, Soria, M.R., additional, Stoppelli, M.P., additional, Talarico, D., additional, Teesalu, T., additional, and Valcamonica, S., additional

Published
1994
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30. Spindle cells isolated from Kaposi's sarcoma-like lesions of BKV/tat-transgenic mice co-express markers of different cell types

Author

Cavallaro, U., Gasparini, G., Soria, M.R., and Maier, J.A.M.

Subjects
Kaposi's sarcoma -- Physiological aspects, Spindle (Cell division) -- Physiological aspects
Abstract

Cavallaro, W.; Gasparini, G.; Soria, M.R.; Maier, J.A.M."Spindle Cells Isolated from Kaposi's sarcoma-Like Lesions of BKV/tat-Transgenic Mice Co-Express Markers of Different Cell Types." AIDS, September 1996;10(11):1211-1219. OBJECTIVE: To characterize murine [...]

Published
1996

32. A cell-of-origin epigenetic tracer reveals clinically distinct subtypes of high-grade serous ovarian cancer

Author

Nicoletta Colombo, Andrea Vingiani, Jörn Walter, Giuseppe Testa, Giancarlo Pruneri, Gilles Gasparoni, Carlo Emanuele Villa, Ugo Cavallaro, Pasquale Laise, Anna Manfredi, Michela Lupia, Alessia Bertolotti, Annalisa Garbi, Teresa Manzo, Annemarie Jungmann, Giuseppe Viale, Francesca Borgo, Davide Cacchiarelli, Pietro Lo Riso, Raffaele Luongo, Luigi Nezi, Vivek Das, Lo Riso, P, Villa, C, Gasparoni, G, Vingiani, A, Luongo, R, Manfredi, A, Jungmann, A, Bertolotti, A, Borgo, F, Garbi, A, Lupia, M, Laise, P, Das, V, Pruneri, G, Viale, G, Colombo, N, Manzo, T, Nezi, L, Cavallaro, U, Cacchiarelli, D, Walter, J, Testa, G, Lo Riso, P., Villa, C. E., Gasparoni, G., Vingiani, A., Luongo, R., Manfredi, A., Jungmann, A., Bertolotti, A., Borgo, F., Garbi, A., Lupia, M., Laise, P., Das, V., Pruneri, G., Viale, G., Colombo, N., Manzo, T., Nezi, L., Cavallaro, U., Cacchiarelli, D., Walter, J., and Testa, G.

Subjects
lcsh:QH426-470, Cell of origin, lcsh:Medicine, Biology, Epigenesis, Genetic, Immunomodulation, high-grade serous ovarian cancer, Genetics, Humans, cell-of-origin epigenetic, Epigenetics, Molecular Biology, Genetics (clinical), Retrospective Studies, Ovarian Neoplasms, Gene Expression Profiling, Research, lcsh:R, Weighted correlation network analysis, Methylation, DNA Methylation, Prognosis, Phenotype, Human genetics, Cystadenocarcinoma, Serous, lcsh:Genetics, DNA methylation, Cancer research, Molecular Medicine, Female, Neoplasm Grading, PAX8, Transcriptome
Abstract

Background High-grade serous ovarian cancer (HGSOC) is a major unmet need in oncology. The remaining uncertainty on its originating tissue has hampered the discovery of molecular oncogenic pathways and the development of effective therapies. Methods We used an approach based on the retention in tumors of a DNA methylation trace (OriPrint) that distinguishes the two putative tissues of origin of HGSOC, the fimbrial (FI) and ovarian surface epithelia (OSE), to stratify HGSOC by several clustering methods, both linear and non-linear. The identified tumor subtypes (FI-like and OSE-like HGSOC) were investigated at the RNAseq level to stratify an in-house cohort of macrodissected HGSOC FFPE samples to derive overall and disease-free survival and identify specific transcriptional alterations of the two tumor subtypes, both by classical differential expression and weighted correlation network analysis. We translated our strategy to published datasets and verified the co-occurrence of previously described molecular classification of HGSOC. We performed cytokine analysis coupled to immune phenotyping to verify alterations in the immune compartment associated with HGSOC. We identified genes that are both differentially expressed and methylated in the two tumor subtypes, concentrating on PAX8 as a bona fide marker of FI-like HGSOC. Results We show that: - OriPrint is a robust DNA methylation tracer that exposes the tissue of origin of HGSOC. - The tissue of origin of HGSOC is the main determinant of DNA methylation variance in HGSOC. - The tissue of origin is a prognostic factor for HGSOC patients. - FI-like and OSE-like HGSOC are endowed with specific transcriptional alterations that impact patients’ prognosis. - OSE-like tumors present a more invasive and immunomodulatory phenotype, compatible with its worse prognostic impact. - Among genes that are differentially expressed and regulated in FI-like and OSE-like HGSOC, PAX8 is a bona fide marker of FI-like tumors. Conclusions Through an integrated approach, our work demonstrates that both FI and OSE are possible origins for human HGSOC, whose derived subtypes are both molecularly and clinically distinct. These results will help define a new roadmap towards rational, subtype-specific therapeutic inroads and improved patients’ care.

Published
2020

34. Single cell-derived spheroids capture the self-renewing subpopulations of metastatic ovarian cancer

Author

Tania Velletri, Marco De Simone, Luca Marelli, Raffaele Luongo, Stefano Piccolo, Nicoletta Colombo, Michela Lupia, Carlo Emanuele Villa, Ugo Cavallaro, Pietro Lo Riso, Raoul J. P. Bonnal, Alejandro López-Tobón, Massimiliano Pagani, Domenica Cilli, Bianca Barzaghi, Giuseppe Testa, Saverio Minucci, Velletri, T, Villa, C, Cilli, D, Barzaghi, B, Lo Riso, P, Lupia, M, Luongo, R, Lopez-Tobon, A, De Simone, M, Bonnal, R, Marelli, L, Piccolo, S, Colombo, N, Pagani, M, Cavallaro, U, Minucci, S, and Testa, G

Subjects
Biochemistry & Molecular Biology, Cell, Biology, Metastasis, Unmet needs, Cell Line, Molecular level, Cell Line, Tumor, Spheroids, Cellular, ORGANOIDS, medicine, Serous ovarian cancer, Female, Humans, Precision Medicine, Ascites, Ovarian Neoplasms, Molecular Biology, Science & Technology, Tumor, Spheroid, EXPANSION, Cell Biology, FIT, medicine.disease, EPITHELIAL-MESENCHYMAL TRANSITION, medicine.anatomical_structure, High Grade Serous Ovarian cancer, Cancer research, Cellular, Spheroids, Ovarian cancer, Life Sciences & Biomedicine, STEM-CELLS, BEHAVIOR, Metastatic ovarian cancer
Abstract

High Grade Serous Ovarian cancer (HGSOC) is a major unmet need in oncology, due to its precocious dissemination and the lack of meaningful human models for the investigation of disease pathogenesis in a patient-specific manner. To overcome this roadblock, we present a new method to isolate and grow single cells directly from patients' metastatic ascites, establishing the conditions for propagating them as 3D cultures that we refer to as single cell-derived metastatic ovarian cancer spheroids (sMOCS). By single cell RNA sequencing (scRNAseq) we define the cellular composition of metastatic ascites and trace its propagation in 2D and 3D culture paradigms, finding that sMOCS retain and amplify key subpopulations from the original patients' samples and recapitulate features of the original metastasis that do not emerge from classical 2D culture, including retention of individual patients' specificities. By enabling the enrichment of uniquely informative cell subpopulations from HGSOC metastasis and the clonal interrogation of their diversity at the functional and molecular level, this method provides a powerful instrument for precision oncology in ovarian cancer. ispartof: CELL DEATH AND DIFFERENTIATION vol:29 issue:3 pages:614-626 ispartof: location:England status: published

Published
2022

35. Integrated molecular profiling of patient-derived ovarian cancer models identifies clinically relevant signatures and tumor vulnerabilities

Author

Michela Lupia, Valentina Melocchi, Francesca Bizzaro, Pietro Lo Riso, Elisa Dama, Micol Baronio, Alberto Ranghiero, Massimo Barberis, Loris Bernard, Giovanni Bertalot, Raffaella Giavazzi, Giuseppe Testa, Fabrizio Bianchi, Ugo Cavallaro, Lupia, M, Melocchi, V, Bizzaro, F, Lo Riso, P, Dama, E, Baronio, M, Ranghiero, A, Barberis, M, Bernard, L, Bertalot, G, Giavazzi, R, Testa, G, Bianchi, F, and Cavallaro, U

Subjects
Ovarian Neoplasms, Cancer Research, cancer stem cell, Ascites, Carcinoma, Ovarian Epithelial, Prognosis, Cystadenocarcinoma, Serous, genomic, Phosphatidylinositol 3-Kinases, ascite, ovarian cancer, Oncology, Humans, Female, xenograft, prognosi
Abstract

High-grade serous ovarian carcinoma (HGSOC) is a highly aggressive and intractable neoplasm, mainly because of its rapid dissemination into the abdominal cavity, a process that is favored by tumor-associated peritoneal ascites. The precise molecular alterations involved in HGSOC onset and progression remain largely unknown due to the high biological and genetic heterogeneity of this tumor. We established a set of different tumor samples (termed the As11-set) derived from a single HGSOC patient, consisting of peritoneal ascites, primary tumor cells, ovarian cancer stem cells (OCSC) and serially propagated tumor xenografts. The As11-set was subjected to an integrated RNA-seq and DNA-seq analysis which unveiled molecular alterations that marked the different types of samples. Our profiling strategy yielded a panel of signatures relevant in HGSOC and in OCSC biology. When such signatures were used to interrogate the TCGA dataset from HGSOC patients, they exhibited prognostic and predictive power. The molecular alterations also identified potential vulnerabilities associated with OCSC, which were then tested functionally in stemness-related assays. As a proof of concept, we defined PI3K signaling as a novel druggable target in OCSC.

Published
2021

36. L1CAM promotes ovarian cancer stemness and tumor initiation via FGFR1/SRC/STAT3 signaling

Author

Nicoletta Colombo, Raffaella Giavazzi, Chiara Battistini, Stefano Freddi, Ugo Cavallaro, Alessandra Decio, Paolo Ubezio, Michela Lupia, Giovanni Bertalot, Alessandra Villa, Fabrizio Bianchi, Marco Giordano, Micol Baronio, Maria Giovanna Jodice, Giordano, M, Decio, A, Battistini, C, Baronio, M, Bianchi, F, Villa, A, Bertalot, G, Freddi, S, Lupia, M, Jodice, M, Ubezio, P, Colombo, N, Giavazzi, R, and Cavallaro, U

Subjects
STAT3 Transcription Factor, Cancer Research, Cell, Context (language use), Neural Cell Adhesion Molecule L1, Tumor initiation, medicine.disease_cause, Stat3 Signaling Pathway, STAT3, Mice, Cancer stem cell, Mice, Inbred NOD, Ovarian cancer, Cell Line, Tumor, L1CAM, Ovarian cancer, Cancer stem cells, FGFR1, STAT3, Tumor initiation, Chemoresistance, medicine, Animals, Humans, Receptor, Fibroblast Growth Factor, Type 1, RC254-282, Ovarian Neoplasms, Chemistry, Cancer stem cells, Research, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, medicine.disease, medicine.anatomical_structure, HEK293 Cells, FGFR1, Oncology, Tumor progression, L1CAM, Cancer research, Neoplastic Stem Cells, Heterografts, Female, Carcinogenesis, Chemoresistance, Signal Transduction
Abstract

Background Cancer stem cells (CSC) have been implicated in tumor progression. In ovarian carcinoma (OC), CSC drive tumor formation, dissemination and recurrence, as well as drug resistance, thus contributing to the high death-to-incidence ratio of this disease. However, the molecular basis of such a pathogenic role of ovarian CSC (OCSC) has been elucidated only to a limited extent. In this context, the functional contribution of the L1 cell adhesion molecule (L1CAM) to OC stemness remains elusive. Methods The expression of L1CAM was investigated in patient-derived OCSC. The genetic manipulation of L1CAM in OC cells provided gain and loss-of-function models that were then employed in cell biological assays as well as in vivo tumorigenesis experiments to assess the role of L1CAM in OC cell stemness and in OCSC-driven tumor initiation. We applied antibody-mediated neutralization to investigate L1CAM druggability. Biochemical approaches were then combined with functional in vitro assays to study the molecular mechanisms underlying the functional role of L1CAM in OCSC. Results We report that L1CAM is upregulated in patient-derived OCSC. Functional studies showed that L1CAM promotes several stemness-related properties in OC cells, including sphere formation, tumor initiation and chemoresistance. These activities were repressed by an L1CAM-neutralizing antibody, pointing to L1CAM as a druggable target. Mechanistically, L1CAM interacted with and activated fibroblast growth factor receptor-1 (FGFR1), which in turn induced the SRC-mediated activation of STAT3. The inhibition of STAT3 prevented L1CAM-dependent OC stemness and tumor initiation. Conclusions Our study implicate L1CAM in the tumorigenic function of OCSC and point to the L1CAM/FGFR1/SRC/STAT3 signaling pathway as a novel driver of OC stemness. We also provide evidence that targeting this pathway can contribute to OC eradication.

Published
2021

37. Platinum sensitivity and DNA repair in a recently established panel of patient-derived ovarian carcinoma xenografts

Author

Francesca Bizzaro, Maddalena Fratelli, Rosaria Chilà, Robert Fruscio, Federica Sina, Marco Bolis, Michela Lupia, Federica Guffanti, Monica Ganzinelli, Ugo Cavallaro, Daniele Generali, Francesca Ricci, Raffaella Giavazzi, Giovanna Damia, Maria Rosa Cappelletti, Guffanti, F, Fratelli, M, Ganzinelli, M, Bolis, M, Ricci, F, Bizzaro, F, Chilà, R, Sina, F, Fruscio, R, Lupia, M, Cavallaro, U, Cappelletti, M, Generali, D, Giavazzi, R, Damia, G, Guffanti, Federica, Fratelli, Maddalena, Ganzinelli, Monica, Bolis, Marco, Ricci, Francesca, Bizzaro, Francesca, Chilà, Rosaria, Sina, Federica Paola, Fruscio, Robert, Lupia, Michela, Cavallaro, Ugo, Cappelletti, Maria Rosa, Generali, Daniele, Giavazzi, Raffaella, and Damia, Giovanna

Subjects
0301 basic medicine, endocrine system diseases, DNA repair, RAD51, cisplatin, Biology, 03 medical and health sciences, Ovarian tumor, 0302 clinical medicine, Ovarian cancer, medicine, patients-derived xenografts, Cisplatin, Patients-derived xenograft, drug resistance, DNA Repair Pathway, Base excision repair, 030104 developmental biology, ovarian cancer, Oncology, 030220 oncology & carcinogenesis, Drug resistance, Cancer research, DNA mismatch repair, medicine.drug, Nucleotide excision repair, Research Paper
Abstract

A xenobank of patient-derived (PDX) ovarian tumor samples has been established consisting of tumors with different sensitivity to cisplatin (DDP), from very responsive to resistant. As the DNA repair pathway is an important driver in tumor response to DDP, we analyzed the mRNA expression of 20 genes involved in the nucleotide excision repair, fanconi anemia, homologous recombination, base excision repair, mismatch repair and translesion repair pathways and the methylation patterns of some of these genes. We also investigated the correlation with the response to platinum-based therapy. The mRNA levels of the selected genes were evaluated by Real Time-PCR (RT-PCR) with ad hoc validated primers and gene promoter methylation by pyrosequencing. All the DNA repair genes were variably expressed in all 42 PDX samples analyzed, with no particular histotype-specific pattern of expression. In high-grade serous/endometrioid PDXs, the CDK12 mRNA expression levels positively correlated with the expression of TP53BP1, PALB2, XPF and POLB. High-grade serous/ endometrioid PDXs with TP53 mutations had significantly higher levels of POLQ, FANCD2, RAD51 and POLB than high-grade TP53 wild type PDXs. The mRNA levels of CDK12, PALB2 and XPF inversely associated with the in vivo DDP antitumor activity; higher CDK12 mRNA levels were associated with a higher recurrence rate in ovarian patients with low residual tumor. These data support the important role of CDK12 in the response to a platinum based therapy in ovarian patients.

Published
2018

38. CD73 Regulates Stemness and Epithelial-Mesenchymal Transition in Ovarian Cancer-Initiating Cells

Author

Francesca Angiolini, Stefano Freddi, Ugo Cavallaro, Nicoletta Colombo, Roberto Giovannoni, Ryszard T. Smolenski, Giovanni Bertalot, Michela Lupia, Fabrizio Bianchi, Elisa Chisci, Kris Sachsenmeier, Barbara Kutryb-Zajac, Stefano Confalonieri, Lupia, M, Angiolini, F, Bertalot, G, Freddi, S, Sachsenmeier, K, Chisci, E, Kutryb-Zajac, B, Confalonieri, S, Smolenski, R, Giovannoni, R, Colombo, N, Bianchi, F, and Cavallaro, U

Subjects
cancer stem cells, 0301 basic medicine, MED/40 - GINECOLOGIA E OSTETRICIA, Tumor initiation, medicine.disease_cause, Biochemistry, Epithelium, Transcriptome, 0302 clinical medicine, Ovarian carcinoma, lcsh:QH301-705.5, 5'-Nucleotidase, Ovarian Neoplasms, lcsh:R5-920, MED/04 - PATOLOGIA GENERALE, EMT, Gene Expression Regulation, Neoplastic, ovarian cancer, adenosine, 030220 oncology & carcinogenesis, Neoplastic Stem Cells, Female, lcsh:Medicine (General), cancer-initiating cells, cancer stem cell, Epithelial-Mesenchymal Transition, cancer-initiating cell, Context (language use), Biology, GPI-Linked Proteins, Article, 03 medical and health sciences, CD73, Cancer stem cell, Cell Line, Tumor, Spheroids, Cellular, Genetics, medicine, Humans, Epithelial–mesenchymal transition, Fallopian Tubes, Cell Proliferation, Cell Biology, medicine.disease, 030104 developmental biology, lcsh:Biology (General), Cancer research, Ovarian cancer, Carcinogenesis, Developmental Biology
Abstract

Summary Cancer-initiating cells (CICs) have been implicated in tumor development and aggressiveness. In ovarian carcinoma (OC), CICs drive tumor formation, dissemination, and recurrence, as well as drug resistance, thus accounting for the high death-to-incidence ratio of this neoplasm. However, the molecular mechanisms that underlie such a pathogenic role of ovarian CICs (OCICs) remain elusive. Here, we have capitalized on primary cells either from OC or from its tissues of origin to obtain the transcriptomic profile associated with OCICs. Among the genes differentially expressed in OCICs, we focused on CD73, which encodes the membrane-associated 5′-ectonucleotidase. The genetic inactivation of CD73 in OC cells revealed that this molecule is causally involved in sphere formation and tumor initiation, thus emerging as a driver of OCIC function. Furthermore, functional inhibition of CD73 via either a chemical compound or a neutralizing antibody reduced sphere formation and tumorigenesis, highlighting the druggability of CD73 in the context of OCIC-directed therapies. The biological function of CD73 in OCICs required its enzymatic activity and involved adenosine signaling. Mechanistically, CD73 promotes the expression of stemness and epithelial-mesenchymal transition-associated genes, implying a regulation of OCIC function at the transcriptional level. CD73, therefore, is involved in OCIC biology and may represent a therapeutic target for innovative treatments aimed at OC eradication., Graphical Abstract, Highlights • CD73 is enriched in ovarian cancer-initiating cells (OCICs) • CD73 orchestrates OCIC stemness and EMT • OC initiation and growth require CD73 activity • OCIC-associated CD73 is a therapeutic target useful for OC eradication, Cavallaro et al. characterized the transcriptome of OCIC-enriched primary cultures and found CD73 as an upregulated gene. CD73 was then shown to regulate the expression of stemness and EMT-associated genes. The expression and function of CD73 in OCICs is required for tumor initiation, and CD73-targeted drugs decrease the rate of tumor take and inhibit cancer growth.

Published
2018
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39. PML promotes metastasis of triple-negative breast cancer through transcriptional regulation of HIF1A target genes

Author

Giacomo A. Delledonne, Linda Pattini, Roberto Cuttano, Claudio Doglioni, Letizia Campanini, Ugo Cavallaro, Nadia Coltella, Manfredi Ponente, Alessandra Villa, Rosa Bernardi, Roberta Valsecchi, Andrea Piunti, Ponente, M, Campanini, L, Cuttano, R, Piunti, A, Delledonne, Ga, Coltella, N, Valsecchi, R, Villa, A, Cavallaro, U, Pattini, L, Doglioni, C, and Bernardi, R

Subjects
0301 basic medicine, Triple Negative Breast Neoplasms, Mice, SCID, Promyelocytic Leukemia Protein, Metastasis, 03 medical and health sciences, Promyelocytic leukemia protein, chemistry.chemical_compound, Mice, Breast cancer, Cell Movement, Mice, Inbred NOD, Cell Line, Tumor, medicine, Animals, Humans, Neoplasm Invasiveness, Arsenic trioxide, Neoplasm Metastasis, Triple-negative breast cancer, biology, business.industry, Cell migration, General Medicine, medicine.disease, Hypoxia-Inducible Factor 1, alpha Subunit, 3. Good health, Gene Expression Regulation, Neoplastic, Leukemia, 030104 developmental biology, HIF1A, HEK293 Cells, chemistry, Cancer research, biology.protein, MCF-7 Cells, NIH 3T3 Cells, business, Neoplasm Transplantation, Research Article
Abstract

Elucidating the molecular basis of tumor metastasis is pivotal for eradicating cancer-related mortality. Triple-negative breast cancer (TNBC) encompasses a class of aggressive tumors characterized by high rates of recurrence and metastasis, as well as poor overall survival. Here, we find that the promyelocytic leukemia protein PML exerts a prometastatic function in TNBC that can be targeted by arsenic trioxide. We found that, in TNBC patients, constitutive HIF1A activity induces high expression of PML, along with a number of HIF1A target genes that promote metastasis at multiple levels. Intriguingly, PML controls the expression of these genes by binding to their regulatory regions along with HIF1A. This mechanism is specific to TNBC cells and does not occur in other subtypes of breast cancer where PML and prometastatic HIF1A target genes are underexpressed. As a consequence, PML promotes cell migration, invasion, and metastasis in TNBC cell and mouse models. Notably, pharmacological inhibition of PML with arsenic trioxide, a PML-degrading agent used to treat promyelocytic leukemia patients, delays tumor growth, impairs TNBC metastasis, and cooperates with chemotherapy by preventing metastatic dissemination. In conclusion, we report identification of a prometastatic pathway in TNBC and suggest clinical development toward the use of arsenic trioxide for TNBC patients.

Published
2017

40. The adhesion molecule NCAM promotes ovarian cancer progression via FGFR signalling

Author

Vladimir Berezin, Elisabeth Bock, Giuseppe Viale, Luigi Maddaluno, Raffaella Giavazzi, Lorenzo Bombardelli, Marco Bianchi, Giovanni Aletti, Chiara Casadio, Silvia Zecchini, Ugo Cavallaro, Giovanni Mazzarol, Alessandra Decio, Nicoletta Colombo, Fabio Sanguineti, Zecchini, S, Bombardelli, L, Decio, A, Bianchi, M, Mazzarol, G, Sanguineti, F, Aletti, G, Maddaluno, L, Berezin, V, Bock, E, Casadio, C, Viale, G, Colombo, N, Giavazzi, R, and Cavallaro, U

Subjects
endocrine system diseases, MED/40 - GINECOLOGIA E OSTETRICIA, Cell, Biology, Fibroblast growth factor, Mice, neural cell adhesion molecule, Cell Movement, Ovarian carcinoma, medicine, Animals, Humans, Neoplasm Invasiveness, Receptor, Fibroblast Growth Factor, Type 1, signalling, Neoplasm Metastasis, Neural Cell Adhesion Molecules, Neoplasm Invasivene, Ovarian Neoplasms, Animal, Ovarian Neoplasm, Carcinoma, Cell migration, medicine.disease, Immunohistochemistry, female genital diseases and pregnancy complications, Cell biology, ovarian carcinoma, Disease Models, Animal, medicine.anatomical_structure, nervous system, Fibroblast growth factor receptor, fibroblast growth factor receptor, tumour progression, Molecular Medicine, Female, Neural cell adhesion molecule, Signal transduction, Ovarian cancer, Human, Research Article, Signal Transduction
Abstract

Epithelial ovarian carcinoma (EOC) is an aggressive neoplasm, which mainly disseminates to organs of the peritoneal cavity, an event mediated by molecular mechanisms that remain elusive. Here, we investigated the expression and functional role of neural cell adhesion molecule (NCAM), a cell surface glycoprotein involved in brain development and plasticity, in EOC. NCAM is absent from normal ovarian epithelium but becomes highly expressed in a subset of human EOC, in which NCAM expression is associated with high tumour grade, suggesting a causal role in cancer aggressiveness. We demonstrate that NCAM stimulates EOC cell migration and invasion in vitro and promotes metastatic dissemination in mice. This pro-malignant function of NCAM is mediated by its interaction with fibroblast growth factor receptor (FGFR). Indeed, not only FGFR signalling is required for NCAM-induced EOC cell motility, but targeting the NCAM/FGFR interplay with a monoclonal antibody abolishes the metastatic dissemination of EOC in mice. Our results point to NCAM-mediated stimulation of FGFR as a novel mechanism underlying EOC malignancy and indicate that this interplay may represent a valuable therapeutic target. © 2011 EMBO Molecular Medicine.

Published
2011
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41. The binding of NCAM to FGFR1 induces a specific cellular response mediated by receptor trafficking

Author

Diletta Ami, Paola Cattaneo, Ario de Marco, Ugo Cavallaro, Chiara Francavilla, Vladimir Berezin, Elisabeth Bock, Gerhard Christofori, Francavilla, C, Cattaneo, P, Berezin, V, Bock, E, Ami, D, De Marco, A, Christofori, G, and Cavallaro, U

Subjects
Endocytic cycle, Ligand, Neural Cell Adhesion Molecule, Biology, HeLa Cell, Cell Line, Mice, 03 medical and health sciences, 0302 clinical medicine, Cell Movement, Receptor, Fibroblast Growth Factor, Type 1, Receptor, 030304 developmental biology, 0303 health sciences, Animal, Fibroblast growth factor receptor 1, Cell Membrane, Cell migration, Cell Biology, Cell biology, Protein Transport, stomatognathic diseases, nervous system, Fibroblast growth factor receptor, Fibroblast Growth Factor 2, RNA Interference, Neural cell adhesion molecule, Signal transduction, 030217 neurology & neurosurgery, Human, Signal Transduction, Proto-oncogene tyrosine-protein kinase Src
Abstract

Neural cell adhesion molecule (NCAM) associates with fibroblast growth factor (FGF) receptor-1 (FGFR1). However, the biological significance of this interaction remains largely elusive. In this study, we show that NCAM induces a specific, FGFR1-mediated cellular response that is remarkably different from that elicited by FGF-2. In contrast to FGF-induced degradation of endocytic FGFR1, NCAM promotes the stabilization of the receptor, which is recycled to the cell surface in a Rab11-and Src-dependent manner. In turn, FGFR1 recycling is required for NCAM-induced sustained activation of various effectors. Furthermore, NCAM, but not FGF-2, promotes cell migration, and this response depends on FGFR1 recycling and sustained Src activation. Our results implicate NCAM as a nonconventional ligand for FGFR1 that exerts a peculiar control on the intracellular trafficking of the receptor, resulting in a specific cellular response. Besides introducing a further level of complexity in the regulation of FGFR1 function, our findings highlight the link of FGFR recycling with sustained signaling and cell migration and the critical role of these events in dictating the cellular response evoked by receptor activation. © 2009 Francavilla et al.

Published
2009

42. The differential role of L1 in ovarian carcinoma and normal ovarian surface epithelium

Author

Marco Bianchi, Silvia Zecchini, Giovanni Goisis, Ugo Cavallaro, Chiara Casadio, Nicoletta Colombo, Meenhard Herlyn, Roberta Fasani, Paolo Nuciforo, Giuseppe Viale, Jinsong Liu, Andrew K. Godwin, Zecchini, S, Bianchi, M, Colombo, N, Fasani, R, Goisis, G, Casadio, C, Viale, G, Liu, J, Herlyn, M, Godwin, A, Nuciforo, P, and Cavallaro, U

Subjects
Cancer Research, Pathology, medicine.medical_specialty, endocrine system diseases, Apoptosis, Neural Cell Adhesion Molecule L1, L1 cell adhesion molecule, ovarian surface epithelium, ovarian carcinoma, fibroblast growth factor receptor, cancer progression, Cell Communication, Cell Growth Processes, Biology, Transfection, Stroma, Cell Movement, Ovarian carcinoma, Cell Line, Tumor, medicine, Cell Adhesion, Humans, Neoplastic transformation, Neoplasm Invasiveness, RNA, Small Interfering, Ovarian Neoplasms, Cell growth, Ovary, Endothelial Cells, Epithelial Cells, Receptor Cross-Talk, Receptors, Fibroblast Growth Factor, female genital diseases and pregnancy complications, Epithelium, Extracellular Matrix, medicine.anatomical_structure, Cell Transformation, Neoplastic, Oncology, Fibroblast growth factor receptor, Cancer research, Female, Signal transduction, Signal Transduction
Abstract

Epithelial ovarian carcinoma (EOC) arises from the ovarian surface epithelium (OSE), a monolayer of poorly differentiated epithelial cells that lines the ovary. The molecular mechanisms underlying EOC invasion into the surrounding stroma and dissemination to the peritoneum and to retroperitoneal lymph nodes are still unclear. Here, we analyzed the expression and the functional role of the cell adhesion molecule L1 during EOC development. In patient-derived samples, L1 was expressed both in OSE and in a subset of EOC, in the latter being mostly restricted to the invasive areas of the tumors. The expression of L1 correlated significantly with poor outcome and with unfavorable clinicopathologic features of the disease. The peculiar expression pattern of L1 in normal OSE and invasive EOC raised the possibility that this adhesion molecule serves a different function in nontransformed versus neoplastic ovarian epithelial cells. Indeed, we showed that in OSE cells L1 supports cell-cell adhesion and enhances apoptosis, whereas it has no effect on cell proliferation and invasion. In contrast, L1 inhibits cell-cell adhesion and apoptosis in ovarian carcinoma cells, where it promotes malignancy-related properties, such as cell proliferation, Erk1/2-dependent and phosphoinositide 3-kinase–dependent invasion, and transendothelial migration. Interestingly, a crosstalk with the fibroblast growth factor receptor signaling is implicated in the promalignant function of L1 in tumor cells. Our findings point to L1 as an EOC biomarker correlating with poor prognosis, and highlight a switch in L1 function associated to the neoplastic transformation of ovarian epithelial cells, thus implicating L1 as a potential therapeutic target. [Cancer Res 2008;68(4):1110–8]

Published
2008

43. Tumor microenvironment-induced FOXM1 regulates ovarian cancer stemness.

Author

Battistini C, Kenny HA, Zambuto M, Nieddu V, Melocchi V, Decio A, Lo Riso P, Villa CE, Gatto A, Ghioni M, Porta FM, Testa G, Giavazzi R, Colombo N, Bianchi F, Lengyel E, and Cavallaro U

Subjects
Humans, Female, Cell Line, Tumor, Signal Transduction drug effects, YAP-Signaling Proteins metabolism, Focal Adhesion Kinase 1 metabolism, Focal Adhesion Kinase 1 genetics, Mice, Gene Expression Regulation, Neoplastic drug effects, Animals, Phthalazines pharmacology, Piperazines pharmacology, Tumor Microenvironment drug effects, Forkhead Box Protein M1 metabolism, Forkhead Box Protein M1 genetics, Ovarian Neoplasms pathology, Ovarian Neoplasms metabolism, Ovarian Neoplasms genetics, Ovarian Neoplasms drug therapy, Neoplastic Stem Cells metabolism, Neoplastic Stem Cells pathology, Neoplastic Stem Cells drug effects
Abstract

In ovarian tumors, the omental microenvironment profoundly influences the behavior of cancer cells and sustains the acquisition of stem-like traits, with major impacts on tumor aggressiveness and relapse. Here, we leverage a patient-derived platform of organotypic cultures to study the crosstalk between the tumor microenvironment and ovarian cancer stem cells. We discovered that the pro-tumorigenic transcription factor FOXM1 is specifically induced by the microenvironment in ovarian cancer stem cells, through activation of FAK/YAP signaling. The microenvironment-induced FOXM1 sustains stemness, and its inactivation reduces cancer stem cells survival in the omental niche and enhances their response to the PARP inhibitor Olaparib. By unveiling the novel role of FOXM1 in ovarian cancer stemness, our findings highlight patient-derived organotypic co-cultures as a powerful tool to capture clinically relevant mechanisms of the microenvironment/cancer stem cells crosstalk, contributing to the identification of tumor vulnerabilities., (© 2024. The Author(s).)

Published
2024
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44. Rational design, synthesis, and pharmacological evaluation of a cohort of novel beta-adrenergic receptors ligands enables an assessment of structure-activity relationships.

Author

Tricomi J, Landini L, Nieddu V, Cavallaro U, Baker JG, Papakyriakou A, and Richichi B

Subjects
Humans, Ligands, Signal Transduction, Structure-Activity Relationship, Receptors, Adrenergic, beta chemistry, Receptors, Adrenergic, beta metabolism, Receptors, G-Protein-Coupled metabolism
Abstract

Biomedical applications of molecules that are able to modulate β-adrenergic signaling have become increasingly attractive over the last decade, revealing that β-adrenergic receptors (β-ARs) are key targets for a plethora of therapeutic interventions, including cancer. Despite successes in β-AR drug discovery, identification of β-AR ligands that are useful as selective chemical tools in pharmacological studies of the three β-AR subtypes, or lead compounds for drug development is still a highly challenging task. This is mainly due to the intrinsic plasticity of β-ARs as G protein-coupled receptors in conjunction with the requirement for functional receptor subtype selectivity, tissue specificity and minimal off-target effects. With the aim to provide insight into structure-activity relationships for the three β-AR subtypes, we have synthesized and obtained the pharmacological profile of a series of structurally diverse compounds (named MC) that were designed based on the aryloxy-propanolamine scaffold of SR59230A. Comparative analysis of their predicted binding mode within the active and inactive states of the receptors in combination with their pharmacological profile revealed key structural elements that control their activity as agonists or antagonists, in addition to clues about substituents that mediate selectivity for one receptor subtype over the others. We anticipate that these results will facilitate selective β-AR drug development efforts., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Masson SAS. All rights reserved.)

Published
2023
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45. Patient-Derived In Vitro Models of Ovarian Cancer: Powerful Tools to Explore the Biology of the Disease and Develop Personalized Treatments.

Author

Battistini C and Cavallaro U

Abstract

Epithelial ovarian cancer (OC) is the most lethal gynecological malignancy worldwide due to a late diagnosis caused by the lack of specific symptoms and rapid dissemination into the peritoneal cavity. The standard of care for OC treatment is surgical cytoreduction followed by platinum-based chemotherapy. While a response to this frontline treatment is common, most patients undergo relapse within 2 years and frequently develop a chemoresistant disease that has become unresponsive to standard treatments. Moreover, also due to the lack of actionable mutations, very few alternative therapeutic strategies have been designed as yet for the treatment of recurrent OC. This dismal clinical perspective raises the need for pre-clinical models that faithfully recapitulate the original disease and therefore offer suitable tools to design novel therapeutic approaches. In this regard, patient-derived models are endowed with high translational relevance, as they can better capture specific aspects of OC such as (i) the high inter- and intra-tumor heterogeneity, (ii) the role of cancer stem cells (a small subset of tumor cells endowed with tumor-initiating ability, which can sustain tumor spreading, recurrence and chemoresistance), and (iii) the involvement of the tumor microenvironment, which interacts with tumor cells and modulates their behavior. This review describes the different in vitro patient-derived models that have been developed in recent years in the field of OC research, focusing on their ability to recapitulate specific features of this disease. We also discuss the possibilities of leveraging such models as personalized platforms to design new therapeutic approaches and guide clinical decisions., Competing Interests: The authors declare no conflict of interest.

Published
2023
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46. Integrated molecular profiling of patient-derived ovarian cancer models identifies clinically relevant signatures and tumor vulnerabilities.

Author

Lupia M, Melocchi V, Bizzaro F, Lo Riso P, Dama E, Baronio M, Ranghiero A, Barberis M, Bernard L, Bertalot G, Giavazzi R, Testa G, Bianchi F, and Cavallaro U

Subjects
Ascites genetics, Carcinoma, Ovarian Epithelial pathology, Female, Humans, Phosphatidylinositol 3-Kinases, Prognosis, Cystadenocarcinoma, Serous, Ovarian Neoplasms genetics, Ovarian Neoplasms pathology
Abstract

High-grade serous ovarian carcinoma (HGSOC) is a highly aggressive and intractable neoplasm, mainly because of its rapid dissemination into the abdominal cavity, a process that is favored by tumor-associated peritoneal ascites. The precise molecular alterations involved in HGSOC onset and progression remain largely unknown due to the high biological and genetic heterogeneity of this tumor. We established a set of different tumor samples (termed the As11-set) derived from a single HGSOC patient, consisting of peritoneal ascites, primary tumor cells, ovarian cancer stem cells (OCSC) and serially propagated tumor xenografts. The As11-set was subjected to an integrated RNA-seq and DNA-seq analysis which unveiled molecular alterations that marked the different types of samples. Our profiling strategy yielded a panel of signatures relevant in HGSOC and in OCSC biology. When such signatures were used to interrogate the TCGA dataset from HGSOC patients, they exhibited prognostic and predictive power. The molecular alterations also identified potential vulnerabilities associated with OCSC, which were then tested functionally in stemness-related assays. As a proof of concept, we defined PI3K signaling as a novel druggable target in OCSC., (© 2022 The Authors. International Journal of Cancer published by John Wiley & Sons Ltd on behalf of UICC.)

Published
2022
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47. Development of a Multiprotein Classifier for the Detection of Early Stage Ovarian Cancer.

Author

Boylan KLM, Petersen A, Starr TK, Pu X, Geller MA, Bast RC Jr, Lu KH, Cavallaro U, Connolly DC, Elias KM, Cramer DW, Pejovic T, and Skubitz APN

Abstract

Background: Individual serum biomarkers are neither adequately sensitive nor specific for use in screening the general population for ovarian cancer. The purpose of this study was to develop a multiprotein classifier to detect the early stages of ovarian cancer, when it is most treatable., Methods: The Olink Proseek Multiplex Oncology II panel was used to simultaneously quantify the expression levels of 92 cancer-related proteins in sera., Results: In the discovery phase, we generated a multiprotein classifier that included CA125, HE4, ITGAV, and SEZ6L, based on an analysis of sera from 116 women with early stage ovarian cancer and 336 age-matched healthy women. CA125 alone achieved a sensitivity of 87.9% at a specificity of 95%, while the multiprotein classifier resulted in an increased sensitivity of 91.4%, while holding the specificity fixed at 95%. The performance of the multiprotein classifier was validated in a second cohort comprised of 192 women with early stage ovarian cancer and 467 age-matched healthy women. The sensitivity at 95% specificity increased from 74.5% (CA125 alone) to 79.2% with the multiprotein classifier. In addition, the multiprotein classifier had a sensitivity of 95.1% at 98% specificity for late stage ovarian cancer samples and correctly classified 80.5% of the benign samples using the 98% specificity cutpoint., Conclusions: The inclusion of the proteins HE4, ITGAV, and SEZ6L improved the sensitivity and specificity of CA125 alone for the detection of early stages of ovarian cancer in serum samples. Furthermore, we identified several proteins that may be novel biomarkers of early stage ovarian cancer.

Published
2022
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48. Antagonistic L1 Adhesion Molecule Mimetic Compounds Inhibit Glioblastoma Cell Migration In Vitro.

Author

Nagaraj V, Mikhail M, Baronio M, Gatto A, Nayak A, Theis T, Cavallaro U, and Schachner M

Subjects
Animals, Antibodies, Monoclonal, Cell Adhesion, Cell Movement, Mice, Zebrafish metabolism, Glioblastoma drug therapy, Neural Cell Adhesion Molecule L1 metabolism
Abstract

Cell adhesion molecule L1 is a cell surface glycoprotein that promotes neuronal cell migration, fosters regeneration after spinal cord injury and ameliorates the consequences of neuronal degeneration in mouse and zebrafish models. Counter-indicative features of L1 were found in tumor progression: the more L1 is expressed, the more tumor cells migrate and increase their metastatic potential. L1's metastatic potential is further evidenced by its promotion of epithelial-mesenchymal transition, endothelial cell transcytosis and resistance to chemo- and radiotherapy. These unfortunate features are indicated by observations that cells that normally do not express L1 are induced to express it when becoming malignant. With the aim to ameliorate the devastating functions of L1 in tumors, we designed an alternative approach to counteract tumor cell migration. Libraries of small organic compounds were screened using the ELISA competition approach similar to the one that we used for identifying L1 agonistic mimetics. Whereas in the former approach, a function-triggering monoclonal antibody was used for screening libraries, we here used the function-inhibiting monoclonal antibody 324 that reduces the migration of neurons. We now show that the L1 antagonistic mimetics anagrelide, 2-hydroxy-5-fluoropyrimidine and mestranol inhibit the migration of cultured tumor cells in an L1-dependent manner, raising hopes for therapy.

Published
2022
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49. Single cell-derived spheroids capture the self-renewing subpopulations of metastatic ovarian cancer.

Author

Velletri T, Villa CE, Cilli D, Barzaghi B, Lo Riso P, Lupia M, Luongo R, López-Tobón A, De Simone M, Bonnal RJP, Marelli L, Piccolo S, Colombo N, Pagani M, Cavallaro U, Minucci S, and Testa G

Subjects
Cell Line, Tumor, Female, Humans, Precision Medicine, Spheroids, Cellular pathology, Ascites genetics, Ascites pathology, Ovarian Neoplasms pathology
Abstract

High Grade Serous Ovarian cancer (HGSOC) is a major unmet need in oncology, due to its precocious dissemination and the lack of meaningful human models for the investigation of disease pathogenesis in a patient-specific manner. To overcome this roadblock, we present a new method to isolate and grow single cells directly from patients' metastatic ascites, establishing the conditions for propagating them as 3D cultures that we refer to as single cell-derived metastatic ovarian cancer spheroids (sMOCS). By single cell RNA sequencing (scRNAseq) we define the cellular composition of metastatic ascites and trace its propagation in 2D and 3D culture paradigms, finding that sMOCS retain and amplify key subpopulations from the original patients' samples and recapitulate features of the original metastasis that do not emerge from classical 2D culture, including retention of individual patients' specificities. By enabling the enrichment of uniquely informative cell subpopulations from HGSOC metastasis and the clonal interrogation of their diversity at the functional and molecular level, this method provides a powerful instrument for precision oncology in ovarian cancer., (© 2021. The Author(s).)

Published
2022
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50. VEGF pathway inhibition potentiates PARP inhibitor efficacy in ovarian cancer independent of BRCA status.

Author

Bizzaro F, Fuso Nerini I, Taylor MA, Anastasia A, Russo M, Damia G, Guffanti F, Guana F, Ostano P, Minoli L, Hattersley MM, Arnold S, Ramos-Montoya A, Williamson SC, Galbiati A, Urosevic J, Leo E, Cavallaro U, Ghilardi C, Barry ST, Bani MR, and Giavazzi R

Subjects
Animals, Cell Line, Tumor, Female, Genes, BRCA1 drug effects, Genes, BRCA2 drug effects, Humans, Mice, Nude, Ovarian Neoplasms genetics, Ovarian Neoplasms metabolism, Signal Transduction drug effects, Tumor Microenvironment drug effects, Vascular Endothelial Growth Factor A metabolism, Mice, Antineoplastic Agents therapeutic use, Ovarian Neoplasms drug therapy, Phthalazines therapeutic use, Piperazines therapeutic use, Poly(ADP-ribose) Polymerase Inhibitors therapeutic use, Quinazolines therapeutic use, Vascular Endothelial Growth Factor A antagonists & inhibitors
Abstract

Poly ADP-ribose polymerase inhibitors (PARPi) have transformed ovarian cancer (OC) treatment, primarily for tumours deficient in homologous recombination repair. Combining VEGF-signalling inhibitors with PARPi has enhanced clinical benefit in OC. To study drivers of efficacy when combining PARP inhibition and VEGF-signalling, a cohort of patient-derived ovarian cancer xenografts (OC-PDXs), representative of the molecular characteristics and drug sensitivity of patient tumours, were treated with the PARPi olaparib and the VEGFR inhibitor cediranib at clinically relevant doses. The combination showed broad anti-tumour activity, reducing growth of all OC-PDXs, regardless of the homologous recombination repair (HRR) mutational status, with greater additive combination benefit in tumours poorly sensitive to platinum and olaparib. In orthotopic models, the combined treatment reduced tumour dissemination in the peritoneal cavity and prolonged survival. Enhanced combination benefit was independent of tumour cell expression of receptor tyrosine kinases targeted by cediranib, and not associated with change in expression of genes associated with DNA repair machinery. However, the combination of cediranib with olaparib was effective in reducing tumour vasculature in all the OC-PDXs. Collectively our data suggest that olaparib and cediranib act through complementary mechanisms affecting tumour cells and tumour microenvironment, respectively. This detailed analysis of the combined effect of VEGF-signalling and PARP inhibitors in OC-PDXs suggest that despite broad activity, there is no dominant common mechanistic inter-dependency driving therapeutic benefit., (© 2021. The Author(s).)

Published
2021
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