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56. Tyrosine 474 of ZAP-70 is required for association with the Shc adaptor and for T-cell antigen receptor-dependent gene activation.

Author

Pacini, S, Ulivieri, C, Di Somma, M M, Isacchi, A, Lanfrancone, L, Pelicci, P G, Telford, J L, and Baldari, C T

Abstract

The protein tyrosine kinase ZAP-70 plays a central role in T-cell activation. Following receptor engagement, ZAP-70 is recruited to the phosphorylated subunits of the T-cell antigen receptor (TCR). This event results in ZAP-70 activation and in association of ZAP-70 with a number of signaling proteins. Among these is the Shc adaptor, which couples the activated TCR to Ras. Shc interaction with ZAP-70 is mediated by the Shc PTB domain. The inhibitory effect of a Shc mutant containing the isolated PTB domain suggests that Shc interaction with ZAP-70 might be required for TCR signaling. Here, we show that a point mutation (Phe474) of the putative Shc binding site on ZAP-70, spanning tyrosine 474, prevented ZAP-70 interaction with Shc and the subsequent binding of Shc to phospho-zeta. Neither ZAP-70 catalytic activity nor the pattern of protein phosphorylation induced by TCR triggering was affected by this mutation. However expression of the Phe474 ZAP-70 mutant resulted in impaired TCR-dependent gene activation. ZAP-70 could effectively phosphorylate Shc in vitro. Only the CH domain, which contains the two Grb2 binding sites on Shc, was phosphorylated by ZAP-70. Both Grb2 binding sites were excellent substrates for ZAP-70. The data show that Tyr474 on ZAP-70 is required for TCR signaling and suggest that Shc association with ZAP-70 and the resulting phosphorylation of Shc might be an obligatory step in linking the activated TCR to the Ras pathway.

Published
1998

57. Human leukemia cells synthesize and secrete proteins related to platelet-derived growth factor.

Author

Pantazis, P, Lanfrancone, L, Pelicci, P G, Dalla-Favera, R, and Antoniades, H N

Abstract

Human leukemia cells in culture (HL-60) synthesize and secrete proteins that are recognized by antiserum to human platelet-derived growth factor (PDGF). The molecular mass of the intracellular proteins immunoprecipitated by PDGF antiserum ranged from 34 kDa to 240 kDa. PDGF-related proteins were also identified in the conditioned medium of the cells. Several of these immunoprecipitated proteins were glycosylated. A single protein of 46 kDa was immunoprecipitated from the cell-free translation products of mRNA obtained from the leukemia cells. Antiserum to the C but not to the N terminus of the predicted amino acid sequence of the transforming protein p28sis/PDGF-2 also immunoprecipitated proteins secreted by the HL-60 cells. These findings provide a direct demonstration for the synthesis and secretion of PDGF-like proteins by leukemia cells in culture. These proteins do not appear to be coded by the known c-sis/PDGF-2 locus since no sis mRNA was detectable in the HL-60 cells.

Published
1986
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58. Evolutionary conservation in various mammalian species of the human proliferation-associated epitope recognized by the Ki-67 monoclonal antibody.

Author

Falini, B, Flenghi, L, Fagioli, M, Stein, H, Schwarting, R, Riccardi, C, Manocchio, I, Pileri, S, Pelicci, P G, and Lanfrancone, L

Abstract

The human proliferation-associated epitope recognized by the Ki-67 monoclonal antibody (MAb) was detected in proliferating normal and neoplastic cells of many mammalian species (lamb, calf, dog, rabbit, rat) besides human. In contrast, Ki-67 stained proliferating cells from other species weakly (mouse) or not at all (swine, cat, chicken, pigeon). The immunostaining pattern of Ki-67 in animal tissues was identical to that previously described in human: Ki-67 reacted only with cells known to proliferate (e.g., germinal center cells, cortical thymocytes) but not with resting cells (e.g., hepatocytes, brain cells, renal cells); this MAb produced a characteristic nuclear staining pattern (e.g., stronger labeling of nucleoli than of the rest of the nuclei and staining of chromosomes in mitotic figures); and Ki-67 crossreacted with the squamous epithelium in both animal and human tissues. In vitro studies showed that when quiescent (Ki-67-negative) NIH 3T3 fibroblasts or bovine peripheral blood lymphocytes were induced to proliferate, the appearance of Ki-67-positive cells paralleled the induction of cell proliferation caused by addition of fetal calf serum or PHA, respectively, to the cultures, and in both human and rat proliferating cells the Ki-67 expression closely paralleled the incorporation of [3H]-thymidine. These findings indicate that the epitope recognized by the Ki-67 MAb in human and animal species is the same. The widespread evolutionary conservation of the human proliferation-associated epitope recognized by the Ki-67 MAb suggests that it and/or its carrier molecule may play an important role in regulation of cell proliferation.

Published
1989
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67. The aminoterminal phosphotyrosine binding domain of Shc associates with ZAP-70 and mediates TCR dependent gene activation

Author

Milia, E., Di Somma, M. M., Baldoni, F., rita chiari, Lanfrancone, L., Pelicci, P. G., Telford, J. L., and Baldari, C. T.

Subjects
Transcriptional Activation, Shc, ZAP-70 Protein-Tyrosine Kinase, NFATC Transcription Factors, TCR, molecular adaptor, Ras, ZAP-70. T cell, signal transduction, Molecular Sequence Data, Receptors, Antigen, T-Cell, Nuclear Proteins, Proteins, Protein-Tyrosine Kinases, Cell Line, DNA-Binding Proteins, src Homology Domains, Gene Expression Regulation, Humans, Amino Acid Sequence, Phosphotyrosine, Protein Binding, Transcription Factors
Abstract

T-cell antigen receptor stimulation results in recruitment to the zeta chain and phosphorylation both of the syk family protein tyrosine kinase ZAP-70 and of the Shc adaptor protein, which transduces activating signals to Ras. Both ZAP-70 and Ras are required for T-cell activation. We have investigated the functional link between these two molecules in TCR signaling. She was found to associate with ZAP-70 in response to TCR triggering. This association was dependent on the presence of the aminoterminal phosphotyrosine binding (PTB) domain of She. The analysis of She binding to a potential PTB domain binding site on ZAP-70 confirmed the interaction of the She PTB domain with ZAP-70 and identified the ZAP-70 phosphotyrosine residue involved in this interaction. To test the role of the She PTB domain in transducing TCR derived signals we measured the effects of the isolated She PTB domain on the activation of the T-cell specific transcription factor NF-AT. The isolated She PTB domain was designed to compete non productively with endogenous She for binding to up-stream tyrosine phosphorylated proteins and thus interfere with coupling to regulators of Ras activation. A significant inhibition of NF-AT activation by TCR triggering was observed, showing a functional involvement of She in TCR signaling through its PTB domain and suggesting an important role for She association with ZAP-70.

70. Human lung carcinoma cells engineered to release IL2, IL7, GM-CSF and TNF alpha: growth in nu/nu mice and modulation of TGF beta(1) production

Author

Guarini, A., Riera, L., Reato, G., Carbone, A., Cignetti, A., Tos, A.G., Lanfrancone, L., Melani, C., Paul, R.W., Forni, G., and Foa, R.

Subjects
Gene therapy -- Research, Cytokines -- Physiological aspects, Interleukin-2 -- Health aspects, Lung cancer -- Genetic aspects, Business, Health care industry
Abstract

According to the authors' abstract of an article published in International Journal of Oncology, 'A human lung adenocarcinoma cell line (LC89) was transduced with the IL2, IL7, GM-CSF and TNF [...]

Published
1996

71. Pirin delocalization in melanoma progression identified by high content immuno-detection based approaches

Author

Viale Giuseppe, Giorgetti Luca, Zanardi Andrea, Luise Chiara, Licciulli Silvia, Lanfrancone Luisa, Carbone Roberta, and Alcalay Myriam

Subjects
Cytology, QH573-671
Abstract

Abstract Background Pirin (PIR) is a highly conserved nuclear protein originally isolated as an interactor of NFI/CTF1 transcription/replication factor. It is a member of the functionally diverse cupin superfamily and its activity has been linked to different biological and molecular processes, such as regulation of transcription, apoptosis, stress response and enzymatic processes. Although its precise role in these functions has not yet been defined, PIR expression is known to be deregulated in several human malignancies. Results We performed immunohistochemical analysis of PIR expression in primary samples from normal human tissues and tumors and identified a dislocation of PIR to the cytoplasm in a subset of melanomas, and a positive correlation between cytoplasmic PIR levels and melanoma progression. PIR localization was subsequently analyzed in vitro in melanoma cell lines through a high content immunofluorescence based approach (ImmunoCell-Array). Conclusions The high consistency between in vivo and in vitro results obtained by immunohistochemistry and ImmunoCell-Array provides a validation of the potential of ImmunoCell-Array technology for the rapid screening of putative biological markers, and suggests that cytoplasmic localization of PIR may represent a characteristic of melanoma progression.

Published
2010
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72. Bombesin-Induced Pancreatic Regeneration in Pigs Is Mediated by p46[sup Shc] /p52[sup Shc] and p42/p44 Mitogen-Activated Protein Kinase Upregulation.

Author

FIORUCCI, S., BUFALARI, A., DISTRUTTI, E., LANFRANCONE, L., SERVOLI, A., SARPI, L., FEDERICI, B., BARTOLI, A., MORELLI, A., and MOGGI, L.

Subjects
BOMBESIN, PANCREAS, CELL proliferation, SWINE growth
Abstract

Examines the stimulation of bombesin in the pancreatic growth of large mammals. Effect of bombesin in body weight; Role of bombesin in the increase rate of pancreatic acinar cell proliferation; Mechanism of mitogen-activated protein kinase phosphorylation.

Published
1998

74. Modeling cell proliferation in human acute myeloid leukemia xenografts

Author

Daniela Bossi, Marco S. Nobile, Simone Spolaor, Giancarlo Mauri, Pier Giuseppe Pelicci, Thalia Vlachou, Paolo Cazzaniga, Luisa Lanfrancone, Daniela Besozzi, Nobile, M, Vlachou, T, Spolaor, S, Bossi, D, Cazzaniga, P, Lanfrancone, L, Mauri, G, Pelicci, P, and Besozzi, D

Subjects
Myeloid, Statistics and Probability, Fuzzy Self-Tuning Particle Swarm Optimization, Cell division, Cell, Population, Computational biology, Acute, acute myeloid leukemia, Biology, Stochastic modeling, Biochemistry, ING-INF/05 - SISTEMI DI ELABORAZIONE DELLE INFORMAZIONI, Flow cytometry, 03 medical and health sciences, Mice, 0302 clinical medicine, medicine, Animals, Humans, Cell Division, Cell Proliferation, Heterografts, Leukemia, Myeloid, Acute, education, Molecular Biology, 030304 developmental biology, 0303 health sciences, education.field_of_study, Leukemia, medicine.diagnostic_test, Settore INF/01 - Informatica, Cell growth, Systems Biology, INF/01 - INFORMATICA, Myeloid leukemia, medicine.disease, Original Papers, Computer Science Applications, Computational Mathematics, medicine.anatomical_structure, Computational Theory and Mathematics, 030220 oncology & carcinogenesis, parameter estimation
Abstract

Motivation Acute myeloid leukemia (AML) is one of the most common hematological malignancies, characterized by high relapse and mortality rates. The inherent intra-tumor heterogeneity in AML is thought to play an important role in disease recurrence and resistance to chemotherapy. Although experimental protocols for cell proliferation studies are well established and widespread, they are not easily applicable to in vivo contexts, and the analysis of related time-series data is often complex to achieve. To overcome these limitations, model-driven approaches can be exploited to investigate different aspects of cell population dynamics. Results In this work, we present ProCell, a novel modeling and simulation framework to investigate cell proliferation dynamics that, differently from other approaches, takes into account the inherent stochasticity of cell division events. We apply ProCell to compare different models of cell proliferation in AML, notably leveraging experimental data derived from human xenografts in mice. ProCell is coupled with Fuzzy Self-Tuning Particle Swarm Optimization, a swarm-intelligence settings-free algorithm used to automatically infer the models parameterizations. Our results provide new insights on the intricate organization of AML cells with highly heterogeneous proliferative potential, highlighting the important role played by quiescent cells and proliferating cells characterized by different rates of division in the progression and evolution of the disease, thus hinting at the necessity to further characterize tumor cell subpopulations. Availability and implementation The source code of ProCell and the experimental data used in this work are available under the GPL 2.0 license on GITHUB at the following URL: https://github.com/aresio/ProCell. Supplementary information Supplementary data are available at Bioinformatics online.

Published
2019

76. Dual modulation of MCL-1 and mTOR determines the response to sunitinib

Author

Viviana Bornaghi, Daniela Bossi, Mohamed Elgendy, Jose Luis Perez-Gracia, Amal Kamal Abdel-Aziz, Salvatore Lorenzo Renne, Luisa Lanfrancone, Maurizio Colecchia, Ravindran Kanesvaran, Franco Nolè, Chee Keong Toh, Nicola Fazio, Isabella Pallavicini, Giuseppe Renne, Valeria Giandomenico, Bin Tean Teh, Maria D. Lozano, Giuseppe Procopio, Ciro Mercurio, Saverio Minucci, Elgendy, M, Abdel-Aziz, Ak, Renne, Sl, Bornaghi, V, Procopio, G, Colecchia, M, Kanesvaran, R, Toh, Ck, Bossi, D, Pallavicini, I, Perez-Gracia, Jl, Lozano, Md, Giandomenico, V, Mercurio, C, Lanfrancone, L, Fazio, N, Nole, F, Teh, Bt, Renne, G, and Minucci, S

Subjects
0301 basic medicine, Indoles, MAP Kinase Signaling System, Mice, Nude, mTORC1, Mechanistic Target of Rapamycin Complex 1, Pharmacology, urologic and male genital diseases, Mice, 03 medical and health sciences, 0302 clinical medicine, Mice, Inbred NOD, hemic and lymphatic diseases, Cell Line, Tumor, Neoplasms, Enzyme Stability, Sunitinib, Autophagy, Animals, Humans, Medicine, Pyrroles, GSK3B, PI3K/AKT/mTOR pathway, Mice nude, Glycogen Synthase Kinase 3 beta, business.industry, Kinase, TOR Serine-Threonine Kinases, General Medicine, Xenograft Model Antitumor Assays, female genital diseases and pregnancy complications, cell death, 030104 developmental biology, Drug Resistance, Neoplasm, Multiprotein Complexes, 030220 oncology & carcinogenesis, Commentary, mTOR, Cancer research, Myeloid Cell Leukemia Sequence 1 Protein, biological phenomena, cell phenomena, and immunity, MCL-1, business, medicine.drug, Research Article
Abstract

Most patients who initially respond to treatment with the multi-tyrosine kinase inhibitor sunitinib eventually relapse. Therefore, developing a deeper understanding of the contribution of sunitinib's numerous targets to the clinical response or to resistance is crucial. Here, we have shown that cancer cells respond to clinically relevant doses of sunitinib by enhancing the stability of the antiapoptotic protein MCL-1 and inducing mTORC1 signaling, thus evoking little cytotoxicity. Inhibition of MCL-1 or mTORC1 signaling sensitized cells to clinically relevant doses of sunitinib in vitro and was synergistic with sunitinib in impairing tumor growth in vivo, indicating that these responses are triggered as prosurvival mechanisms that enable cells to tolerate the cytotoxic effects of sunitinib. Furthermore, higher doses of sunitinib were cytotoxic, triggered a decline in MCL-1 levels, and inhibited mTORC1 signaling. Mechanistically, we determined that sunitinib modulates MCL-1 stability by affecting its proteasomal degradation. Dual modulation of MCL-1 stability at different dose ranges of sunitinib was due to differential effects on ERK and GSK3β activity, and the latter also accounted for dual modulation of mTORC1 activity. Finally, comparison of patient samples prior to and following sunitinib treatment suggested that increases in MCL-1 levels and mTORC1 activity correlate with resistance to sunitinib in patients.

Published
2016

77. Isolation of cDNAs encoding finger proteins and measurement of the corresponding mRNA levels during myeloid terminal differentiation

Author

Antonio Pannuti, Luisa Lanfrancone, G La Mantia, L. Lania, Anna Pascucci, Pier Giuseppe Pelicci, Pannuti, A, Lanfrancone, L, Pascucci, A, Pelicci, Pg, La Mantia, G, Lania, Luigi, Pannuti, A., Lanfrancone, L., Pascucci, A., Pelicci, P. G., and LA MANTIA, Girolama

Subjects
Genetics, Regulation of gene expression, Base Sequence, Transcription, Genetic, Cellular differentiation, Molecular Sequence Data, DNA, Biology, Ribosome, DNA-binding protein, Cell Line, DNA-Binding Proteins, Genes, Transcription (biology), Complementary DNA, Humans, Amino Acid Sequence, RNA, Messenger, Cloning, Molecular, Gene, Transcription factor
Abstract

The finger motif is a tandemly repeated DNA-binding domain recently identified in the primary structure of several eukaryotic transcriptional regulatory proteins. It was first described for Xenopus TFIIIA, a factor required for transcription of 5S ribosomal genes and subsequently identified in regulatory proteins from other eukaryotic organisms including yeast, Drosophila and mammals. In this paper we report the isolation and characterization of two human cDNA clones both encoding for multifingered protein products. Transcriptional studies indicate that the two finger genes are expressed in a variety of human tissues. Moreover, upon in vitro induced terminal differentiation of human HL-60 and THP-1 myeloid cell lines the expression of both genes is drastically reduced. These data provide support for the existence of a human multigene family coding for regulatory finger proteins which are likely involved in the processes of cell differentiation and/or proliferation.

Published
1988

78. Retroviral gene transfer, rapid selection, and maintenance of the immature phenotype in mouse dendritic cells

Author

Paola Ricciardi-Castagnoli, Luisa Lanfrancone, M. T. Sciurpi, Maria Rescigno, Francesca Granucci, Stefania Citterio, C. Gasperi, Malgosia K. Matyszak, Gasperi, C, Rescigno, M, Granucci, F, Citterio, S, Matyszak, M, Sciurpi, M, Lanfrancone, L, and Castagnoli, P

Subjects
green fluorescent protein, Genetic Vectors, Green Fluorescent Proteins, Immunology, Population, Major histocompatibility complex, Immunophenotyping, Viral vector, Green fluorescent protein, Mice, Animals, Humans, Immunology and Allergy, retroviral vector, education, Selectable marker, education.field_of_study, biology, Gene Transfer Techniques, Dendritic Cells, Cell Biology, Cell sorting, Mixed lymphocyte reaction, Phenotype, Molecular biology, Luminescent Proteins, Retroviridae, biology.protein
Abstract

We used the retroviral vector PINCO [which expresses the green fluorescent protein (GFP) as a selectable marker], to infect growth factor-dependent immature D1 dendritic cells (DC). The efficiency of infection in different experiments was between 5 and 30%, but subsequent cell sorting led to a virtually homogeneous population of GFP-positive cells. Retroviral infection did not modify the immature DC phenotype, as shown by the low expression of major histocompatibility complex and co-stimulatory molecules. Furthermore, the GFP-positive D1 cells underwent full maturation after lipopolysaccharide treatment, as indicated by a high expression of cell-surface MHC and co-stimulatory molecules, and also by strong stimulatory activity in allogeneic mixed lymphocyte reaction. The high efficiency of this retroviral system, the rapidity of the technique, and the possibility to overcome in vitro selection make this method very attractive for the stable introduction of heterologous genes into proliferating immature mouse D1 cells. Furthermore, this approach is suitable for functional studies of new DC-specific genes involved in DC maturation and survival. J. Leukoc. Biol. 66: 263–267; 1999.

Published
1999
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79. Identification and characterization of novel human endogenous retroviral sequences prefentially expressed in undifferentiated embryonal carcinoma cells

Author

Girolama La Mantia, Gina Pengue, Luisa Lanfrancone, Antonio Simeone, Domenico Maglione, Antonio Di Cristofano, Luigi Lania, La Mantia, G, Maglione, D, Pengue, G, Di Cristofano, A, Simeone, A, Lanfrancone, L, and Lania, Luigi

Subjects
Embryonal Carcinoma Stem Cells, Genes, Viral, Sequence analysis, viruses, Molecular Sequence Data, Restriction Mapping, Biology, Embryonal carcinoma, Open Reading Frames, Restriction map, Complementary DNA, Tumor Cells, Cultured, Genetics, medicine, Humans, Amino Acid Sequence, RNA, Neoplasm, Northern blot, Promoter Regions, Genetic, Gene, Base Sequence, cDNA library, DNA, Neoplasm, medicine.disease, Molecular biology, Blotting, Southern, Retroviridae, DNA, Viral, Neoplastic Stem Cells, RNA, Viral, Sequence Alignment, Plasmids
Abstract

A novel endogenous retroviral sequence (ERV-9) has been isolated from a human embryonal carcinoma cDNA library by hybridization to a probe containing a recently described human repetitive element. DNA sequence analysis of the 4kb cDNA insert (pHE.1) revealed the presence of ORFs potentially coding for putative retrovirus-related gag, pol and env proteins. Northern blot and RNase protection experiments showed that RNA homologous to the pHE.1 insert is detected only in embryonal carcinoma cells as a 8 kb mRNA, and its expression is negatively regulated during retinoic acid induced differentiation of the human teratocarcinoma cell line NT2/D1. Using a pol specific probe we have isolated a genomic locus containing the ERV-9 sequences. Characterization by restriction enzyme analysis and DNA sequencing allowed us to define LTR-like sequences, that are composed by a complex array of subrepetitive elements. In addition we show that ERV-9 LTR sequences are capable to drive expression of linked CAT gene in a cell specific manner as LTR promoter activity has been detected only in NT2/D1 cells.

Published
1991
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80. The RIalpha subunit of protein kinase A (PKA) binds to Grb2 and allows PKA interaction with the activated EGF-receptor

Author

Giampaolo Tortora, Vincenzo Damiano, Caterina Bianco, Pier Giuseppe Pelicci, Gustavo Baldassarre, Luisa Lanfrancone, Fortunato Ciardiello, Ar Bianco, Tortora, G, Damiano, V, Bianco, C, Baldassarre, G, Bianco, Ar, Lanfrancone, L, Pelicci, Pg, and Ciardiello, Fortunato

Subjects
MAPK/ERK pathway, Cancer Research, Protein subunit, EGFR, Cyclic AMP-Dependent Protein Kinase Type II, src Homology Domains, Epidermal growth factor, Genetics, Grb2, Tumor Cells, Cultured, Humans, PKA, Protein kinase A, Molecular Biology, Adaptor Proteins, Signal Transducing, GRB2 Adaptor Protein, biology, Proteins, Cyclic AMP-Dependent Protein Kinases, Cell biology, Enzyme Activation, ErbB Receptors, Calcium-Calmodulin-Dependent Protein Kinases, biology.protein, Cancer research, GRB2, Signal transduction, hormones, hormone substitutes, and hormone antagonists, Transforming growth factor, Protein Binding, Signal Transduction
Abstract

Functional interactions between protein kinase A (PKA) and epidermal growth factor receptor (EGF-R) signalling pathways have been suggested. Unlike the type II isoform of PKA (PKAII), the type I (PKAI) and/or its regulatory subunit RIalpha are generally overexpressed in cancer cells and are induced following transforming growth factor alpha (TGF alpha)/EGF-R-dependent transformation. Downregulation of RIalpha/PKAI inhibits TGF alpha expression and EGF-R-dependent signalling. We have previously shown that addition of EGF to quiescent human normal epithelial MCF-10A cells determines PKAI expression and cell membrane translocation before cells enter S phase, while PKAI inhibition prevents S phase entry. Constitutive overexpression of PKAI confers the ability to grow in serum free medium, bypassing EGF requirement. Here we demonstrate a direct interaction of PKAI, but not of PKAII, with the activated EGF-R, that occurs within 5 min following EGF treatment of MCF-10A cells. Moreover, induction of mitogen-activated protein kinase (MAPK) activity following EGF-R activation is mimicked by PKAI overexpression and inhibited by downregulators of PKAI. Finally, the PKAI-EGF-R association occurs through the binding of RIalpha to the SH3 domain(s) of Grb2 adaptor protein, thus allowing the recruitment of the PKAI holoenzyme to the activated EGF-R. This is the first demonstration of a direct interaction of PKAI with the activated EGF-R macromolecular signalling complex.

Published
1997

81. cDNA isolation, expression analysis, and chromosomal localization of two human zinc finger genes

Author

Anna Pascucci, Gina Pengue, Pier Giuseppe Pelicci, Girolama La Mantia, Antonio Pannuti, Luisa Lanfrancone, Isidoro Feliciello, Luigi Lania, Emilio Donti, Lania, Luigi, Donti, E, Pannuti, A, Pascucci, A, Pengue, G, Feliciello, Isidoro, La Mantia, G, Lanfrancone, L, and Pelicci, Pg

Subjects
Transcription, Genetic, Cellular differentiation, Molecular Sequence Data, Chromosomes, Human, Pair 20, Kruppel-Like Transcription Factors, Gene Expression, Biology, Cell Line, Complementary DNA, Sequence Homology, Nucleic Acid, Gene expression, Metalloproteins, Genetics, Humans, Northern blot, Amino Acid Sequence, Cloning, Molecular, Gene, Zinc finger, Base Sequence, Chromosome Mapping, Cell Differentiation, DNA, Blotting, Northern, Molecular biology, Blot, DNA-Binding Proteins, Zinc, Genes, Female, Chromosome 20, Chromosomes, Human, Pair 8
Abstract

On the basis of sequence similarity in the repeated zinc finger domain, we have identified and characterized two human cDNA clones (ZNF7 and ZNF8), both encoding proteins containing potential finger-like nucleic acid binding motifs. Northern blot analysis indicates that both genes are expressed as multiple transcripts and they are ubiquitously present in many human cell lines of different embryological derivation. Moreover, their expression is modulated during in vitro induced terminal differentiation of human myeloid cell line HL-60. By in situ hybridization experiments, we have localized the ZNF7 gene to chromosome 8 (region q24) and the ZNF8 gene to the terminal band of the long arm of chromosome 20 (20q13).

Published
1990

82. Localization of the human HF.10 finger gene on a chromosome region (3p21-22) frequently deleted in human cancers

Author

Gina Pengue, Pier Giuseppe Pelicci, Luigi Lania, Fausto Grignani, Venti G, Emilio Donti, Luisa Lanfrancone, Carlo M. Croce, Anna Pascucci, Kay Huebner, Donti, E, Lanfrancone, L, Huebner, K, Pascucci, A, Venti, G, Pengue, G, Grignani, F, Croce, Cm, Lania, Luigi, and Pelicci, Pg

Subjects
Somatic cell, In situ hybridization, Hybrid Cells, Biology, medicine.disease_cause, DNA-binding protein, Mice, Gene mapping, Neoplasms, Chromosome regions, Metalloproteins, Genetics, medicine, Animals, Humans, Gene, Genetics (clinical), Hybridization probe, Chromosome Mapping, DNA-Binding Proteins, Blotting, Southern, Multigene Family, Chromosomes, Human, Pair 3, Chromosome Deletion, DNA Probes, Carcinogenesis
Abstract

The finger motif is a tandemly repeated DNA-binding domain recently identified in the primary structure of several eukaryotic transcriptional regulatory proteins. It has been proposed that some members of the finger-gene family are implicated in both normal cell proliferation and differentiation. We isolated several human finger genes by means of hybridization with a finger motif-containing DNA probe. One of these finger genes, HF.10, is expressed at low levels in a variety of human tissues and is down-regulated during the in vitro terminal differentiation of human leukemic myeloid cell lines. By in situ hybridization experiments and analysis of interspecific somatic cell hybrids we mapped the HF.10 gene to 3p21-22, a chromosome region frequently involved in karyotypic rearrangements associated with lung and renal cancer.

Published
1990

84. Structural Insights on the Role of Halogen Bonding in Protein MEK Kinase-Inhibitor Complexes.

Author

Milesi P, Baldelli Bombelli F, Lanfrancone L, Gomila RM, Frontera A, Metrangolo P, and Terraneo G

Subjects
Halogens chemistry, Binding Sites, Protein Binding, MAP Kinase Kinase Kinases, Protein Kinase Inhibitors pharmacology, Protein Kinase Inhibitors chemistry, Antineoplastic Agents pharmacology
Abstract

Kinases are enzymes that play a critical role in governing essential biological processes. Due to their pivotal involvement in cancer cell signaling, they have become key targets in the development of anti-cancer drugs. Among these drugs, those containing the 2,4-dihalophenyl moiety demonstrated significant potential. Here we show how this moiety, particularly the 2-fluoro-4-iodophenyl one, is crucial for the structural stability of the formed drug-enzyme complexes. Crystallographic analysis of reported kinase-inhibitor complex structures highlights the role of the halogen bonding that this moiety forms with specific residues of the kinase binding site. This interaction is not limited to FDA-approved MEK inhibitors, but it is also relevant for other kinase inhibitors, indicating its broad relevance in the design of this class of drugs., (© 2024 Wiley‐VCH GmbH.)

Published
2024
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85. Caloric restriction leads to druggable LSD1-dependent cancer stem cells expansion.

Author

Pallavi R, Gatti E, Durfort T, Stendardo M, Ravasio R, Leonardi T, Falvo P, Duso BA, Punzi S, Xieraili A, Polazzi A, Verrelli D, Trastulli D, Ronzoni S, Frascolla S, Perticari G, Elgendy M, Varasi M, Colombo E, Giorgio M, Lanfrancone L, Minucci S, Mazzarella L, and Pelicci PG

Subjects
Humans, Animals, Mice, Caloric Restriction, Histone Demethylases genetics, Neoplastic Stem Cells pathology, Cell Line, Tumor, Leukemia, Myeloid, Acute pathology, Insulins
Abstract

Caloric Restriction (CR) has established anti-cancer effects, but its clinical relevance and molecular mechanism remain largely undefined. Here, we investigate CR's impact on several mouse models of Acute Myeloid Leukemias, including Acute Promyelocytic Leukemia, a subtype strongly affected by obesity. After an initial marked anti-tumor effect, lethal disease invariably re-emerges. Initially, CR leads to cell-cycle restriction, apoptosis, and inhibition of TOR and insulin/IGF1 signaling. The relapse, instead, is associated with the non-genetic selection of Leukemia Initiating Cells and the downregulation of double-stranded RNA (dsRNA) sensing and Interferon (IFN) signaling genes. The CR-induced adaptive phenotype is highly sensitive to pharmacological or genetic ablation of LSD1, a lysine demethylase regulating both stem cells and dsRNA/ IFN signaling. CR + LSD1 inhibition leads to the re-activation of dsRNA/IFN signaling, massive RNASEL-dependent apoptosis, and complete leukemia eradication in ~90% of mice. Importantly, CR-LSD1 interaction can be modeled in vivo and in vitro by combining LSD1 ablation with pharmacological inhibitors of insulin/IGF1 or dual PI3K/MEK blockade. Mechanistically, insulin/IGF1 inhibition sensitizes blasts to LSD1-induced death by inhibiting the anti-apoptotic factor CFLAR. CR and LSD1 inhibition also synergize in patient-derived AML and triple-negative breast cancer xenografts. Our data provide a rationale for epi-metabolic pharmacologic combinations across multiple tumors., (© 2024. The Author(s).)

Published
2024
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86. Comprehensive genomic profiling on metastatic Melanoma: results from a network screening from 7 Italian Cancer Centres.

Author

Pallocca M, Molineris I, Berrino E, Marcozzi B, Betti M, Levati L, D'Atri S, Menin C, Madonna G, Ghiorzo P, Bulgarelli J, Ferraresi V, Venesio T, Rodolfo M, Rivoltini L, Lanfrancone L, Ascierto PA, Mazzarella L, Pelicci PG, De Maria R, Ciliberto G, Medico E, and Russo G

Subjects
Humans, Proto-Oncogene Proteins B-raf, Genomics, Italy, Early Detection of Cancer, Melanoma genetics
Abstract

Background: The current therapeutic algorithm for Advanced Stage Melanoma comprises of alternating lines of Targeted and Immuno-therapy, mostly via Immune-Checkpoint blockade. While Comprehensive Genomic Profiling of solid tumours has been approved as a companion diagnostic, still no approved predictive biomarkers are available for Melanoma aside from BRAF mutations and the controversial Tumor Mutational Burden. This study presents the results of a Multi-Centre Observational Clinical Trial of Comprehensive Genomic Profiling on Target and Immuno-therapy treated advanced Melanoma., Methods: 82 samples, collected from 7 Italian Cancer Centres of FFPE-archived Metastatic Melanoma and matched blood were sequenced via a custom-made 184-gene amplicon-based NGS panel. Sequencing and bioinformatics analysis was performed at a central hub. Primary analysis was carried out via the Ion Reporter framework. Secondary analysis and Machine Learning modelling comprising of uni and multivariate, COX/Lasso combination, and Random Forest, was implemented via custom R/Python scripting., Results: The genomics landscape of the ACC-mela cohort is comparable at the somatic level for Single Nucleotide Variants and INDELs aside a few gene targets. All the clinically relevant targets such as BRAF and NRAS have a comparable distribution thus suggesting the value of larger scale sequencing in melanoma. No comparability is reached at the CNV level due to biotechnological biases and cohort numerosity. Tumour Mutational Burden is slightly higher in median for Complete Responders but fails to achieve statistical significance in Kaplan-Meier survival analysis via several thresholding strategies. Mutations on PDGFRB, NOTCH3 and RET were shown to have a positive effect on Immune-checkpoint treatment Overall and Disease-Free Survival, while variants in NOTCH4 were found to be detrimental for both endpoints., Conclusions: The results presented in this study show the value and the challenge of a genomics-driven network trial. The data can be also a valuable resource as a validation cohort for Immunotherapy and Target therapy genomic biomarker research., (© 2023. The Author(s).)

Published
2024
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87. Actionable Genetic Screens Unveil Targeting of AURKA, MEK, and Fatty Acid Metabolism as an Alternative Therapeutic Approach for Advanced Melanoma.

Author

Marocchi F, Palluzzi F, Nicoli P, Melixetian M, Lovati G, Bertalot G, Pece S, Ferrucci PF, Bossi D, and Lanfrancone L

Subjects
Humans, Mice, Animals, Protein Kinase Inhibitors pharmacology, Protein Kinase Inhibitors therapeutic use, Pyrimidinones therapeutic use, Mitogen-Activated Protein Kinase Kinases, Fatty Acids, Proto-Oncogene Proteins B-raf genetics, Mutation, Aurora Kinase A genetics, Melanoma drug therapy, Melanoma genetics
Abstract

Despite the remarkable improvements achieved in the management of metastatic melanoma, there are still unmet clinical needs. A considerable fraction of patients does not respond to immune and/or targeted therapies owing to primary and acquired resistance, high-grade immune-related adverse events, and a lack of alternative treatment options. To design effective combination therapies, we set up a functional ex vivo preclinical assay on the basis of a drop-out genetic screen in metastatic melanoma patient-derived xenografts. We showed that this approach can be used to isolate actionable vulnerabilities predictive of drug efficacy. In particular, we highlighted that the dual targeting of AURKA and MAPK/extracellular signal-regulated kinase kinase employing the combination of alisertib and trametinib is highly effective in a cohort of metastatic melanoma patient-derived xenografts, both ex vivo and in vivo. Alisertib and trametinib combination therapy outperforms standard-of-care therapy in both BRAF-mutant patient-derived xenografts and targeted therapy-resistant models. Furthermore, alisertib and trametinib treatment modulates several critical cancer pathways, including an early metabolic reprogramming that leads to the transcriptional upregulation of the fatty acid oxidation pathway. This acquired trait unveiled an additional point of intervention for pharmacological targeting, and indeed, the triple combination of alisertib and trametinib with the fatty acid oxidation inhibitor etomoxir proved to be further beneficial, inducing tumor regression and remarkably prolonging the overall survival of the mice., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2023
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88. BS148 Reduces the Aggressiveness of Metastatic Melanoma via Sigma-2 Receptor Targeting.

Author

Sorbi C, Belluti S, Atene CG, Marocchi F, Linciano P, Roy N, Paradiso E, Casarini L, Ronsisvalle S, Zanocco-Marani T, Brasili L, Lanfrancone L, Imbriano C, Di Rocco G, and Franchini S

Subjects
Humans, Apoptosis, Signal Transduction, Endoplasmic Reticulum Stress, Transcription Factor CHOP metabolism, Activating Transcription Factor 4 metabolism, eIF-2 Kinase metabolism, Melanoma drug therapy, Melanoma genetics, Melanoma pathology, Receptors, sigma genetics
Abstract

The management of advanced-stage melanoma is clinically challenging, mainly because of its resistance to the currently available therapies. Therefore, it is important to develop alternative therapeutic strategies. The sigma-2 receptor (S2R) is overexpressed in proliferating tumor cells and represents a promising vulnerability to target. Indeed, we have recently identified a potent S2R modulator (BS148) that is effective in melanoma. To elucidate its mechanism of action, we designed and synthesized a BS148 fluorescent probe that enters SK-MEL-2 melanoma cells as assessed using confocal microscopy analysis. We show that S2R knockdown significantly reduces the anti-proliferative effect induced by BS148 administration, indicating the engagement of S2R in BS148-mediated cytotoxicity. Interestingly, BS148 treatment showed similar molecular effects to S2R RNA interference-mediated knockdown. We demonstrate that BS148 administration activates the endoplasmic reticulum stress response through the upregulation of protein kinase R-like ER kinase (PERK), activating transcription factor 4 (ATF4) genes, and C/EBP homologous protein (CHOP). Furthermore, we show that BS148 treatment downregulates genes related to the cholesterol pathway and activates the MAPK signaling pathway. Finally, we translate our results into patient-derived xenograft (PDX) cells, proving that BS148 treatment reduces melanoma cell viability and migration. These results demonstrate that BS148 is able to inhibit metastatic melanoma cell proliferation and migration through its interaction with the S2R and confirm its role as a promising target to treat cancer.

Published
2023
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89. TFEB and TFE3 drive kidney cystogenesis and tumorigenesis.

Author

Di Malta C, Zampelli A, Granieri L, Vilardo C, De Cegli R, Cinque L, Nusco E, Pece S, Tosoni D, Sanguedolce F, Sorrentino NC, Merino MJ, Nielsen D, Srinivasan R, Ball MW, Ricketts CJ, Vocke CD, Lang M, Karim B, Lanfrancone L, Schmidt LS, Linehan WM, and Ballabio A

Subjects
Humans, Mice, Animals, Kidney pathology, Basic Helix-Loop-Helix Leucine Zipper Transcription Factors genetics, Basic Helix-Loop-Helix Leucine Zipper Transcription Factors metabolism, Transcription Factors, Carcinogenesis genetics, Kidney Neoplasms genetics, Kidney Neoplasms pathology, Birt-Hogg-Dube Syndrome genetics, Birt-Hogg-Dube Syndrome pathology, Cysts
Abstract

Birt-Hogg-Dubé (BHD) syndrome is an inherited familial cancer syndrome characterized by the development of cutaneous lesions, pulmonary cysts, renal tumors and cysts and caused by loss-of-function pathogenic variants in the gene encoding the tumor-suppressor protein folliculin (FLCN). FLCN acts as a negative regulator of TFEB and TFE3 transcription factors, master controllers of lysosomal biogenesis and autophagy, by enabling their phosphorylation by the mechanistic Target Of Rapamycin Complex 1 (mTORC1). We have previously shown that deletion of Tfeb rescued the renal cystic phenotype of kidney-specific Flcn KO mice. Using Flcn/Tfeb/Tfe3 double and triple KO mice, we now show that both Tfeb and Tfe3 contribute, in a differential and cooperative manner, to kidney cystogenesis. Remarkably, the analysis of BHD patient-derived tumor samples revealed increased activation of TFEB/TFE3-mediated transcriptional program and silencing either of the two genes rescued tumorigenesis in human BHD renal tumor cell line-derived xenografts (CDXs). Our findings demonstrate in disease-relevant models that both TFEB and TFE3 are key drivers of renal tumorigenesis and suggest novel therapeutic strategies based on the inhibition of these transcription factors., (© 2023 The Authors. Published under the terms of the CC BY 4.0 license.)

Published
2023
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90. Epigenetically regulated PCDHB15 impairs aggressiveness of metastatic melanoma cells.

Author

Carrier A, Desjobert C, Lobjois V, Rigal L, Busato F, Tost J, Ensenyat-Mendez M, Marzese DM, Pradines A, Favre G, Lamant L, Lanfrancone L, Etievant C, Arimondo PB, and Riond J

Subjects
Humans, DNA Methylation, Signal Transduction, Exons, Melanoma genetics, Lung Neoplasms genetics
Abstract

The protocadherin proteins are cell adhesion molecules at the crossroad of signaling pathways playing a major role in neuronal development. It is now understood that their role as signaling hubs is not only important for the normal physiology of cells but also for the regulation of hallmarks of cancerogenesis. Importantly, protocadherins form a cluster of genes that are regulated by DNA methylation. We have identified for the first time that PCDHB15 gene is DNA-hypermethylated on its unique exon in the metastatic melanoma-derived cell lines and patients' metastases compared to primary tumors. This DNA hypermethylation silences the gene, and treatment with the DNA demethylating agent 5-aza-2'-deoxycytidine reinduces its expression. We explored the role of PCDHB15 in melanoma aggressiveness and showed that overexpression impairs invasiveness and aggregation of metastatic melanoma cells in vitro and formation of lung metastasis in vivo. These findings highlight important modifications of the methylation of the PCDHβ genes in melanoma and support a functional role of PCDHB15 silencing in melanoma aggressiveness., (© 2022. The Author(s).)

Published
2022
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91. Targeting the MITF/APAF-1 axis as salvage therapy for MAPK inhibitors in resistant melanoma.

Author

Carotenuto P, Romano A, Barbato A, Quadrano P, Brillante S, Volpe M, Ferrante L, Tammaro R, Morleo M, De Cegli R, Iuliano A, Testa M, Andreone F, Ciliberto G, Clery E, Troncone G, Palma G, Arra C, Barbieri A, Capone M, Madonna G, Ascierto PA, Lanfrancone L, Indrieri A, and Franco B

Subjects
Humans, Apoptosis, Cell Line, Tumor, Gene Expression Regulation, Neoplastic, Microphthalmia-Associated Transcription Factor metabolism, Protein Kinase Inhibitors pharmacology, Protein Kinase Inhibitors therapeutic use, Melanoma pathology, Salvage Therapy
Abstract

Melanoma is a deadly form of cancer characterized by remarkable therapy resistance. Analyzing the transcriptome of MAPK inhibitor sensitive- and resistant-melanoma, we discovered that APAF-1 is negatively regulated by MITF in resistant tumors. This study identifies the MITF/APAF-1 axis as a molecular driver of MAPK inhibitor resistance. A drug-repositioning screen identified quinacrine and methylbenzethonium as potent activators of apoptosis in a context that mimics drug resistance mediated by APAF-1 inactivation. The compounds showed anti-tumor activity in in vitro and in vivo models, linked to suppression of MITF function. Both drugs profoundly sensitize melanoma cells to MAPK inhibitors, regulating key signaling networks in melanoma, including the MITF/APAF-1 axis. Significant activity of the two compounds in inhibiting specific epigenetic modulators of MITF/APAF-1 expression, such as histone deacetylases, was observed. In summary, we demonstrate that targeting the MITF/APAF-1 axis may overcome resistance and could be exploited as a potential therapeutic approach to treat resistant melanoma., Competing Interests: Declaration of interests P.A.A. reports grants and/or personal fees from BMS, Roche-Genentech and Array, MSD, Novartis, Merck Serono, Pierre Fabre, Incyte, Genmab, NewLink Genetics, Medimmune, AstraZeneca, Syndax, Sun Pharma, Sanofi, Idera, Ultimovacs, Sandoz, Immunocore, 4SC, Alkermes, and Nektar, Italfarmaco, outside the submitted work. All other authors declare no competing interests., (Copyright © 2022 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2022
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92. DNA methylome combined with chromosome cluster-oriented analysis provides an early signature for cutaneous melanoma aggressiveness.

Author

Carrier A, Desjobert C, Ponger L, Lamant L, Bustos M, Torres-Ferreira J, Henrique R, Jeronimo C, Lanfrancone L, Delmas A, Favre G, Daunay A, Busato F, Hoon DSB, Tost J, Etievant C, Riond J, and Arimondo PB

Subjects
Animals, Chromosomes, CpG Islands, Cytosine, DNA Methylation, Epigenesis, Genetic, Epigenome, Gene Expression Regulation, Neoplastic, Guanine, Humans, Mice, Phosphates, Rats, Melanoma, Cutaneous Malignant, Melanoma genetics, Melanoma pathology, Skin Neoplasms genetics
Abstract

Aberrant DNA methylation is a well-known feature of tumours and has been associated with metastatic melanoma. However, since melanoma cells are highly heterogeneous, it has been challenging to use affected genes to predict tumour aggressiveness, metastatic evolution, and patients' outcomes. We hypothesized that common aggressive hypermethylation signatures should emerge early in tumorigenesis and should be shared in aggressive cells, independent of the physiological context under which this trait arises. We compared paired melanoma cell lines with the following properties: (i) each pair comprises one aggressive counterpart and its parental cell line and (ii) the aggressive cell lines were each obtained from different host and their environment (human, rat, and mouse), though starting from the same parent cell line. Next, we developed a multi-step genomic pipeline that combines the DNA methylome profile with a chromosome cluster-oriented analysis. A total of 229 differentially hypermethylated genes was commonly found in the aggressive cell lines. Genome localization analysis revealed hypermethylation peaks and clusters, identifying eight hypermethylated gene promoters for validation in tissues from melanoma patients. Five Cytosine-phosphate-Guanine (CpGs) identified in primary melanoma tissues were transformed into a DNA methylation score that can predict survival (log-rank test, p=0.0008). This strategy is potentially universally applicable to other diseases involving DNA methylation alterations., Competing Interests: AC, CD, LP, LL, MB, JT, RH, CJ, LL, AD, GF, AD, FB, DH, JT, CE, JR, PA No competing interests declared, (© 2022, Carrier et al.)

Published
2022
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93. Targeting the USP7/RRM2 axis drives senescence and sensitizes melanoma cells to HDAC/LSD1 inhibitors.

Author

Granieri L, Marocchi F, Melixetian M, Mohammadi N, Nicoli P, Cuomo A, Bonaldi T, Confalonieri S, Pisati F, Giardina G, Bertalot G, Bossi D, and Lanfrancone L

Subjects
Cell Line, Tumor, Histone Deacetylases, Histone Demethylases genetics, Humans, Proteasome Endopeptidase Complex, Proto-Oncogene Proteins B-raf genetics, Thiophenes, Ubiquitin-Specific Peptidase 7 metabolism, Ubiquitins, Histone Deacetylase Inhibitors pharmacology, Melanoma pathology
Abstract

Deubiquitinating enzymes are key regulators of the ubiquitin-proteasome system and cell cycle, and their dysfunction leads to tumorigenesis. Our in vivo drop-out screens in patient-derived xenograft models identify USP7 as a regulator of melanoma. We show that USP7 downregulation induces cellular senescence, arresting melanoma growth in vivo and proliferation in vitro in BRAF- and NRAS-mutant melanoma. We provide a comprehensive understanding of targets and networks affected by USP7 depletion by performing a global transcriptomic and proteomics analysis. We show that RRM2 is a USP7 target and is regulated by USP7 during S phase of the cell cycle. Ectopic expression of RRM2 in USP7-depleted cells rescues the senescent phenotype. Pharmacological inhibition of USP7 by P5091 phenocopies the shUSP7-induced senescent phenotype. We show that the bifunctional histone deacetylase (HDAC)/LSD1 inhibitor domatinostat has an additive antitumor effect, eliminating P5091-induced senescent cells, paving the way to a therapeutic combination for individuals with melanoma., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2022 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2022
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94. Regulation of LncRNAs in Melanoma and Their Functional Roles in the Metastatic Process.

Author

Melixetian M, Pelicci PG, and Lanfrancone L

Subjects
Carcinogenesis genetics, Gene Expression Regulation, Neoplastic, Humans, Oncogenes, Melanoma genetics, Melanoma pathology, RNA, Long Noncoding genetics
Abstract

Long non-coding RNAs (lncRNAs) are key regulators of numerous intracellular processes leading to tumorigenesis. They are frequently deregulated in cancer, functioning as oncogenes or tumor suppressors. As they act through multiple mechanisms, it is not surprising that they may exert dual functions in the same tumor. In melanoma, a highly invasive and metastatic tumor with the propensity to rapidly develop drug resistance, lncRNAs play different roles in: (i) guiding the phenotype switch and leading to metastasis formation; (ii) predicting the response of melanoma patients to immunotherapy; (iii) triggering adaptive responses to therapy and acquisition of drug resistance phenotypes. In this review we summarize the most recent findings on the lncRNAs involved in melanoma growth and spreading to distant sites, focusing on their role as biomarkers for disease diagnosis and patient prognosis, or targets for novel therapeutic approaches.

Published
2022
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95. Long non-coding RNA TINCR suppresses metastatic melanoma dissemination by preventing ATF4 translation.

Author

Melixetian M, Bossi D, Mihailovich M, Punzi S, Barozzi I, Marocchi F, Cuomo A, Bonaldi T, Testa G, Marine JC, Leucci E, Minucci S, Pelicci PG, and Lanfrancone L

Subjects
Activating Transcription Factor 4 genetics, Activating Transcription Factor 4 metabolism, Cell Line, Tumor, Humans, Phosphorylation, RNA, Messenger metabolism, Melanoma genetics, Pharmaceutical Preparations, RNA, Long Noncoding genetics, RNA, Long Noncoding metabolism
Abstract

Transition from proliferative-to-invasive phenotypes promotes metastasis and therapy resistance in melanoma. Reversion of the invasive phenotype, however, is challenged by the poor understanding of mechanisms underlying its maintenance. Here, we report that the lncRNA TINCR is down-regulated in metastatic melanoma and its silencing increases the expression levels of invasive markers, in vitro migration, in vivo tumor growth, and resistance to BRAF and MEK inhibitors. The critical mediator is ATF4, a central player of the integrated stress response (ISR), which is activated in TINCR-depleted cells in the absence of starvation and eIF2α phosphorylation. TINCR depletion increases global protein synthesis and induces translational reprogramming, leading to increased translation of mRNAs encoding ATF4 and other ISR proteins. Strikingly, re-expression of TINCR in metastatic melanoma suppresses the invasive phenotype, reduces numbers of tumor-initiating cells and metastasis formation, and increases drug sensitivity. Mechanistically, TINCR interacts with mRNAs associated with the invasive phenotype, including ATF4, preventing their binding to ribosomes. Thus, TINCR is a suppressor of the melanoma invasive phenotype, which functions in nutrient-rich conditions by repressing translation of selected ISR RNAs., (© 2021 The Authors. Published under the terms of the CC BY NC ND 4.0 license.)

Published
2021
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96. ShcD Binds DOCK4, Promotes Ameboid Motility and Metastasis Dissemination, Predicting Poor Prognosis in Melanoma.

Author

Aladowicz E, Granieri L, Marocchi F, Punzi S, Giardina G, Ferrucci PF, Mazzarol G, Capra M, Viale G, Confalonieri S, Gandini S, Lotti F, and Lanfrancone L

Abstract

Metastases are the primary cause of cancer-related deaths. The underlying molecular and biological mechanisms remain, however, elusive, thus preventing the design of specific therapies. In melanomas, the metastatic process is influenced by the acquisition of metastasis-associated mutational and epigenetic traits and the activation of metastatic-specific signaling pathways in the primary melanoma. In the current study, we investigated the role of an adaptor protein of the Shc family (ShcD) in the acquisition of metastatic properties by melanoma cells, exploiting our cohort of patient-derived xenografts (PDXs). We provide evidence that the depletion of ShcD expression increases a spread cell shape and the capability of melanoma cells to attach to the extracellular matrix while its overexpression switches their morphology from elongated to rounded on 3D matrices, enhances cells' invasive phenotype, as observed on collagen gel, and favors metastasis formation in vivo. ShcD overexpression sustains amoeboid movement in melanoma cells, by suppressing the Rac1 signaling pathway through the confinement of DOCK4 in the cytoplasm. Inactivation of the ShcD signaling pathway makes melanoma cells more sensitive to therapeutic treatments. Consistently, ShcD expression predicts poor outcome in a cohort of 183 primary melanoma patients.

Published
2020
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97. WDR5 inhibition halts metastasis dissemination by repressing the mesenchymal phenotype of breast cancer cells.

Author

Punzi S, Balestrieri C, D'Alesio C, Bossi D, Dellino GI, Gatti E, Pruneri G, Criscitiello C, Lovati G, Meliksetyan M, Carugo A, Curigliano G, Natoli G, Pelicci PG, and Lanfrancone L

Subjects
Animals, Breast Neoplasms drug therapy, Breast Neoplasms metabolism, Cell Line, Tumor, Cell Proliferation, Disease Models, Animal, Disease Progression, Epithelial-Mesenchymal Transition drug effects, Female, Gene Expression Regulation, Leukemic, Heterografts, Humans, Intracellular Signaling Peptides and Proteins antagonists & inhibitors, Intracellular Signaling Peptides and Proteins metabolism, Mice, Mice, Transgenic, Models, Biological, Neoplasm Metastasis, Neoplasm Staging, RNA Interference, RNA, Small Interfering genetics, Signal Transduction, Transcription, Genetic, Transforming Growth Factor beta1 metabolism, Breast Neoplasms genetics, Breast Neoplasms pathology, Epithelial-Mesenchymal Transition genetics, Intracellular Signaling Peptides and Proteins genetics, Phenotype
Abstract

Background: Development of metastases and drug resistance are still a challenge for a successful systemic treatment in breast cancer (BC) patients. One of the mechanisms that confer metastatic properties to the cell relies in the epithelial-to-mesenchymal transition (EMT). Moreover, both EMT and metastasis are partly modulated through epigenetic mechanisms, by repression or induction of specific related genes., Methods: We applied shRNAs and drug targeting approaches in BC cell lines and metastatic patient-derived xenograft (PDX) models to inhibit WDR5, the core subunit of histone H3 K4 methyltransferase complexes, and evaluate its role in metastasis regulation., Result: We report that WDR5 is crucial in regulating tumorigenesis and metastasis spreading during BC progression. In particular, WDR5 loss reduces the metastatic properties of the cells by reverting the mesenchymal phenotype of triple negative- and luminal B-derived cells, thus inducing an epithelial trait. We also suggest that this regulation is mediated by TGFβ1, implying a prominent role of WDR5 in driving EMT through TGFβ1 activation. Moreover, such EMT reversion can be induced by drug targeting of WDR5 as well, leading to BC cell sensitization to chemotherapy and enhancement of paclitaxel-dependent effects., Conclusions: We suggest that WDR5 inhibition could be a promising pharmacologic approach to reduce cell migration, revert EMT, and block metastasis formation in BC, thus overcoming resistance to standard treatments.

Published
2019
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98. Modeling cell proliferation in human acute myeloid leukemia xenografts.

Author

Nobile MS, Vlachou T, Spolaor S, Bossi D, Cazzaniga P, Lanfrancone L, Mauri G, Pelicci PG, and Besozzi D

Subjects
Animals, Cell Division, Cell Proliferation, Heterografts, Humans, Mice, Leukemia, Myeloid, Acute
Abstract

Motivation: Acute myeloid leukemia (AML) is one of the most common hematological malignancies, characterized by high relapse and mortality rates. The inherent intra-tumor heterogeneity in AML is thought to play an important role in disease recurrence and resistance to chemotherapy. Although experimental protocols for cell proliferation studies are well established and widespread, they are not easily applicable to in vivo contexts, and the analysis of related time-series data is often complex to achieve. To overcome these limitations, model-driven approaches can be exploited to investigate different aspects of cell population dynamics., Results: In this work, we present ProCell, a novel modeling and simulation framework to investigate cell proliferation dynamics that, differently from other approaches, takes into account the inherent stochasticity of cell division events. We apply ProCell to compare different models of cell proliferation in AML, notably leveraging experimental data derived from human xenografts in mice. ProCell is coupled with Fuzzy Self-Tuning Particle Swarm Optimization, a swarm-intelligence settings-free algorithm used to automatically infer the models parameterizations. Our results provide new insights on the intricate organization of AML cells with highly heterogeneous proliferative potential, highlighting the important role played by quiescent cells and proliferating cells characterized by different rates of division in the progression and evolution of the disease, thus hinting at the necessity to further characterize tumor cell subpopulations., Availability and Implementation: The source code of ProCell and the experimental data used in this work are available under the GPL 2.0 license on GITHUB at the following URL: https://github.com/aresio/ProCell., Supplementary Information: Supplementary data are available at Bioinformatics online., (© The Author(s) 2019. Published by Oxford University Press.)

Published
2019
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99. Development of Personalized Therapeutic Strategies by Targeting Actionable Vulnerabilities in Metastatic and Chemotherapy-Resistant Breast Cancer PDXs.

Author

Punzi S, Meliksetian M, Riva L, Marocchi F, Pruneri G, Criscitiello C, Orsi F, Spaggiari L, Casiraghi M, Della Vigna P, Luzi L, Curigliano G, Pelicci PG, and Lanfrancone L

Subjects
Animals, Breast metabolism, Disease Models, Animal, Female, Heterografts metabolism, Humans, Mice, Mice, Inbred NOD, Neoplasm Metastasis genetics, Xenograft Model Antitumor Assays methods, Breast Neoplasms genetics, Drug Resistance, Neoplasm genetics, Precision Medicine methods
Abstract

Human breast cancer is characterized by a high degree of inter-patients heterogeneity in terms of histology, genomic alterations, gene expression patterns, and metastatic behavior, which deeply influences individual prognosis and treatment response. The main cause of mortality in breast cancer is the therapy-resistant metastatic disease, which sets the priority for novel treatment strategies for these patients. In the present study, we demonstrate that Patient Derived Xenografts (PDXs) that were obtained from metastatic and therapy-resistant breast cancer samples recapitulate the wide spectrum of the disease in terms of histologic subtypes and mutational profiles, as evaluated by whole exome sequencing. We have integrated genomic and transcriptomic data to identify oncogenic and actionable pathways in each PDX. By taking advantage of primary short-term in vitro cultures from PDX tumors, we showed their resistance to standard chemotherapy (Paclitaxel), as seen in the patients. Moreover, we selected targeting drugs and analyzed PDX sensitivity to single agents or to combination of targeted and standard therapy on the basis of PDX-specific genomic or transcriptomic alterations. Our data demonstrate that PDXs represent a suitable model to test new targeting drugs or drug combinations and to prioritize personalized therapeutic regimens for pre-clinal and clinical tests.

Published
2019
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100. Combination of Hypoglycemia and Metformin Impairs Tumor Metabolic Plasticity and Growth by Modulating the PP2A-GSK3β-MCL-1 Axis.

Author

Elgendy M, Cirò M, Hosseini A, Weiszmann J, Mazzarella L, Ferrari E, Cazzoli R, Curigliano G, DeCensi A, Bonanni B, Budillon A, Pelicci PG, Janssens V, Ogris M, Baccarini M, Lanfrancone L, Weckwerth W, Foiani M, and Minucci S

Subjects
Animals, Cell Line, Tumor, Cell Proliferation drug effects, Cell Survival drug effects, Gene Expression Regulation, Neoplastic drug effects, Glycogen Synthase Kinase 3 beta metabolism, Glycolysis drug effects, HCT116 Cells, HeLa Cells, Humans, Hypoglycemia etiology, Metformin pharmacology, Mice, Myeloid Cell Leukemia Sequence 1 Protein metabolism, Neoplasms metabolism, Oxidative Phosphorylation drug effects, Protein Phosphatase 2 metabolism, Xenograft Model Antitumor Assays, Fasting metabolism, Hypoglycemia metabolism, Metformin administration & dosage, Neoplasms therapy, Signal Transduction drug effects
Abstract

Tumor cells may adapt to metabolic challenges by alternating between glycolysis and oxidative phosphorylation (OXPHOS). To target this metabolic plasticity, we combined intermittent fasting, a clinically feasible approach to reduce glucose availability, with the OXPHOS inhibitor metformin. In mice exposed to 24-h feeding/fasting cycles, metformin impaired tumor growth only when administered during fasting-induced hypoglycemia. Synergistic anti-neoplastic effects of the metformin/hypoglycemia combination were mediated by glycogen synthase kinase 3β (GSK3β) activation downstream of PP2A, leading to a decline in the pro-survival protein MCL-1, and cell death. Mechanistically, specific activation of the PP2A-GSK3β axis was the sum of metformin-induced inhibition of CIP2A, a PP2A suppressor, and of upregulation of the PP2A regulatory subunit B56δ by low glucose, leading to an active PP2A-B56δ complex with high affinity toward GSK3β., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published
2019
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