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1. Mechanistic patterns and clinical implications of oncogenic tyrosine kinase fusions in human cancers

Author

Taek-Chin Cheong, Ahram Jang, Qi Wang, Giulia C. Leonardi, Biagio Ricciuti, Joao V. Alessi, Alessandro Di Federico, Mark M. Awad, Maria K. Lehtinen, Marian H. Harris, and Roberto Chiarle

Subjects
Science
Abstract

Abstract Tyrosine kinase (TK) fusions are frequently found in cancers, either as initiating events or as a mechanism of resistance to targeted therapy. Partner genes and exons in most TK fusions are followed typical recurrent patterns, but the underlying mechanisms and clinical implications of these patterns are poorly understood. By developing Functionally Active Chromosomal Translocation Sequencing (FACTS), we discover that typical TK fusions involving ALK, ROS1, RET and NTRK1 are selected from pools of chromosomal rearrangements by two major determinants: active transcription of the fusion partner genes and protein stability. In contrast, atypical TK fusions that are rarely seen in patients showed reduced protein stability, decreased downstream oncogenic signaling, and were less responsive to inhibition. Consistently, patients with atypical TK fusions were associated with a reduced response to TKI therapies. Our findings highlight the principles of oncogenic TK fusion formation and selection in cancers, with clinical implications for guiding targeted therapy.

Published
2024
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3. Mediastinal Gray-Zone Lymphoma: Still an Open Issue

Author

Stefano Pileri, Valentina Tabanelli, Roberto Chiarle, Angelica Calleri, Federica Melle, Giovanna Motta, Maria Rosaria Sapienza, Elena Sabattini, Pier Luigi Zinzani, and Enrico Derenzini

Subjects
mediastinal gray-zone lymphoma, classic Hodgkin lymphoma, primary mediastinal B-cell lymphoma, diffuse large B-cell lymphoma, NOS, EBV-positive diffuse large B-cell lymphoma, Medicine
Abstract

The concept of gray-zone lymphoma (GZL) has been progressively refined since its introduction in the literature in 1998. For several years, it was applied to a rather broad spectrum of conditions, posing the problem of the differential diagnosis between any type of Hodgkin lymphoma (HL) and diffuse large B-cell lymphoma, with special reference to primary mediastinal forms (PMBL). Officially recognised as a provisional entity in the 4th and revised 4th editions of the WHO Classification of Tumour of Haematopoietic and Lymphoid Tissues with the term “B-cell lymphoma unclassifiable with features intermediate between diffuse large B-cell lymphoma and classic Hodgkin lymphoma”, it was limited to tumours showing either morphologic features reminiscent of classic HL (CHL) but carrying a complete B-cell phenotype or conversely provided with a PMBL morphology yet revealing CHL phenotypic characteristics. The definition of GZL has been further revised in the recently published International Lymphoma Classification and 5th edition of the WHO Classification of Haematolymphoid Tumours, which have limited it to mediastinal neoplasms (MGZL) based on emerging molecular evidence. The aim of this review is to critically discuss the issue of MGZL, as well as in light of the suboptimal response to current therapies.

Published
2023
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4. Exploiting signaling rewiring in cancer cells with co‐existing oncogenic drivers

Author

Roberto Chiarle and Chiara Ambrogio

Subjects
driver oncogenes, drug resistance, signaling rewiring, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

The development of tailored therapies designed to specifically target driver oncogenes has initiated a revolutionary era in cancer biology. The availability of a growing number of selective inhibitors has generated novel experimental and clinical paradigms. These represent an opportunity and a challenge for researchers and clinicians to delve deeper into the intricate dynamics of cancer development and response to treatment. By directly inhibiting key driver oncogenes involved in tumor initiation and progression, scientists have an unprecedented opportunity to conduct longitudinal and clonal evolutionary studies of how cancer cells adapt, rewire, and exploit conflictive or overlapping signaling dependencies in response to treatment in vitro and in vivo. This challenge has to be progressively resolved to discover more effective and personalized cancer therapies.

Published
2023
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5. Assessing and advancing the safety of CRISPR-Cas tools: from DNA to RNA editing

Author

Jianli Tao, Daniel E. Bauer, and Roberto Chiarle

Subjects
Science
Abstract

CRISPR-Cas tools have shown exceptional promise in genome engineering over the past decade. Here the authors review the development of CRISPR-Cas9/Cas12/Cas13 nucleases, DNA base editors, prime editors, and RNA base editors, as well as their editing precision, off-target effects, and clinical considerations.

Published
2023
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6. Genomic and biological study of fusion genes as resistance mechanisms to EGFR inhibitors

Author

Yoshihisa Kobayashi, Geoffrey R. Oxnard, Elizabeth F. Cohen, Navin R. Mahadevan, Joao V. Alessi, Yin P. Hung, Arrien A. Bertram, David E. Heppner, Mauricio F. Ribeiro, Karina P. Sacardo, Rodrigo Saddi, Mariana P. Macedo, Rafael B. Blasco, Jiaqi Li, Kari J. Kurppa, Tom Nguyen, Emma Voligny, Guruprasad Ananda, Roberto Chiarle, Artur Katz, Michael Y. Tolstorukov, Lynette M. Sholl, and Pasi A. Jänne

Subjects
Science
Abstract

Fusion genes have been proposed as a potential mechanism of resistance to EGFR tyrosine kinase inhibitors (TKIs) in lung cancer. Here, the authors identify gene fusions that are associated with resistance to EGFR TKIs in non-small cell lung cancers, and test how these fusions impact the response to EGFR TKIs in vitro.

Published
2022
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7. P1235: INVESTIGATION OF THE CO-MUTATIONAL LANDSCAPE OF ALK-POSITIVE ALCL

Author

Matteo Villa, Federica Malighetti, Mario Mauri, Geeta G Sharma, Cosimo Lobello, Hugo Larose, Alessandra Pirola, Silvia Bombelli, Nicoletta Cordani, Luca Massimino, Šárka Pospíšilová, Suzanne D. Turner, Giorgio Inghirami, Lisa Pagani, Lucrezia Criscuolo, Fulvio Magni, Roberto Perego, Fabio Pagni, Rocco Piazza, Roberto Chiarle, Carlo Gambacorti-Passerini, and Luca Mologni

Subjects
Diseases of the blood and blood-forming organs, RC633-647.5
Published
2023
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8. Frequency and mechanisms of LINE-1 retrotransposon insertions at CRISPR/Cas9 sites

Author

Jianli Tao, Qi Wang, Carlos Mendez-Dorantes, Kathleen H. Burns, and Roberto Chiarle

Subjects
Science
Abstract

The identification of events occurring at target sites is critical to determine the safety of CRISPRbased DNA editing tools. Here, the authors show that LINE-1 retrotranspositions can occur frequently at canonical CRISPR/Cas9 editing sites, but are rare with prime editors and base editors.

Published
2022
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9. Regulation of CD45 phosphatase by oncogenic ALK in anaplastic large cell lymphoma

Author

Giulia Mura, Elif Karaca Atabay, Matteo Menotti, Cinzia Martinengo, Chiara Ambrogio, Gloria Giacomello, Maddalena Arigoni, Martina Olivero, Raffaele A. Calogero, Roberto Chiarle, and Claudia Voena

Subjects
anaplastic large cell lymphoma, ALK, CD45, phosphatases, resistance, tyrosine kinase inhibitor, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Anaplastic Large Cell Lymphoma (ALCL) is a subtype of non-Hodgkin lymphoma frequently driven by the chimeric tyrosine kinase NPM-ALK, generated by the t (2,5)(p23;q35) translocation. While ALK+ ALCL belongs to mature T cell lymphomas, loss of T cell identity is observed in the majority of ALCL secondary to a transcriptional and epigenetic repressive program induced by oncogenic NPM-ALK. While inhibiting the expression of T cell molecules, NPM-ALK activates surrogate TCR signaling by directly inducing pathways downstream the TCR. CD45 is a tyrosine phosphatase that plays a central role in T cell activation by controlling the TCR signaling and regulating the cytokine responses through the JAK/STAT pathway and exists in different isoforms depending on the stage of T-cell maturation, activation and differentiation. ALK+ ALCL cells mainly express the isoform CD45RO in keeping with their mature/memory T cell phenotype. Because of its regulatory effect on the JAK/STAT pathway that is essential for ALK+ ALCL, we investigated whether CD45 expression was affected by oncogenic ALK. We found that most ALK+ ALCL cell lines express the CD45RO isoform with modest CD45RA expression and that NPM-ALK regulated the expression of these CD45 isoforms. Regulation of CD45 expression was dependent on ALK kinase activity as CD45RO expression was increased when NPM-ALK kinase activity was inhibited by treatment with ALK tyrosine kinase inhibitors (TKIs). Silencing ALK expression through shRNA or degradation of ALK by the PROTAC TL13-112 caused upregulation of CD45RO both at mRNA and protein levels with minimal changes on CD45RA, overall indicating that oncogenic ALK downregulates the expression of CD45. CD45 repression was mediated by STAT3 as demonstrated by ChIP-seq data on ALCL cells treated with the ALK-TKI crizotinib or cells treated with a STAT3 degrader. Next, we found that knocking-out CD45 with the CRISPR/Cas9 system resulted in increased resistance to ALK TKI treatment and CD45 was down-regulated in ALCL cells that developed resistance in vitro to ALK TKIs. Overall, these data suggest that CD45 expression is regulated by ALK via STAT3 and acts as a rheostat of ALK oncogenic signaling and resistance to TKI treatment in ALCL.

Published
2023
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10. Genomic Profiling Identifies Putative Pathogenic Alterations in NSCLC Brain Metastases

Author

Marcin Nicoś, PhD, Luuk Harbers, MSc, Enrico Patrucco, PhD, Maximilian Kramer-Drauberg, PhD, Xiaolu Zhang, PhD, Claudia Voena, PhD, Anna Kowalczyk, MD, PhD, Aleksandra Bożyk, PhD, Rafał Pęksa, MD, PhD, Bożena Jarosz, MD, PhD, Justyna Szumiło, MD, Michele Simonetti, PhD, Monika Żuk, PhD, Bartosz Wasąg, MD, Katarzyna Reszka, PhD, Renata Duchnowska, MD, Janusz Milanowski, MD, Roberto Chiarle, MD, Magda Bienko, PhD, Paweł Krawczyk, MD, Jacek Jassem, MD, Chiara Ambrogio, PhD, and Nicola Crosetto, MD, PhD

Subjects
Non–small cell lung cancer (NSCLC), Brain metastases, Genomic profiling, Targetable pathogenic alterations, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Introduction: Brain metastases (BM) severely affect the prognosis and quality of life of patients with NSCLC. Recently, molecularly targeted agents were found to have promising activity against BM in patients with NSCLC whose primary tumors carry “druggable” mutations. Nevertheless, it remains critical to identify specific pathogenic alterations that drive NSCLC-BM and that can provide novel and more effective therapeutic targets. Methods: To identify potentially targetable pathogenic alterations in NSCLC-BM, we profiled somatic copy number alterations (SCNAs) in 51 matched pairs of primary NSCLC and BM samples from 33 patients with lung adenocarcinoma and 18 patients with lung squamous cell carcinoma. In addition, we performed multiregion copy number profiling on 15 BM samples and whole-exome sequencing on 40 of 51 NSCLC-BM pairs. Results: BM consistently had a higher burden of SCNAs compared with the matched primary tumors, and SCNAs were typically homogeneously distributed within BM, suggesting BM do not undergo extensive evolution once formed. By comparing focal SCNAs in matched NSCLC-BM pairs, we identified putative BM-driving alterations affecting multiple cancer genes, including several potentially targetable alterations in genes such as CDK12, DDR2, ERBB2, and NTRK1, which we validated in an independent cohort of 84 BM samples. Finally, we identified putative pathogenic alterations in multiple cancer genes, including genes involved in epigenome editing and 3D genome organization, such as EP300, CTCF, and STAG2, which we validated by targeted sequencing of an independent cohort of 115 BM samples. Conclusions: Our study represents the most comprehensive genomic characterization of NSCLC-BM available to date, paving the way to functional studies aimed at assessing the potential of the identified pathogenic alterations as clinical biomarkers and targets.

Published
2022
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11. CRISPR/Cas9 Screens Reveal Multiple Layers of B cell CD40 Regulation

Author

Chang Jiang, Stephen J. Trudeau, Taek-Chin Cheong, Rui Guo, Mingxiang Teng, Liang Wei Wang, Zhonghao Wang, Chiara Pighi, Carole Gautier-Courteille, Yijie Ma, Sizun Jiang, Chong Wang, Bo Zhao, Luc Paillard, John G. Doench, Roberto Chiarle, and Benjamin E. Gewurz

Subjects
Biology (General), QH301-705.5
Abstract

Summary: CD40 has major roles in B cell development, activation, and germinal center responses. CD40 hypoactivity causes immunodeficiency whereas its overexpression causes autoimmunity and lymphomagenesis. To systematically identify B cell autonomous CD40 regulators, we use CRISPR/Cas9 genome-scale screens in Daudi B cells stimulated by multimeric CD40 ligand. These highlight known CD40 pathway components and reveal multiple additional mechanisms regulating CD40. The nuclear ubiquitin ligase FBXO11 supports CD40 expression by targeting repressors CTBP1 and BCL6. FBXO11 knockout decreases primary B cell CD40 abundance and impairs class-switch recombination, suggesting that frequent lymphoma monoallelic FBXO11 mutations may balance BCL6 increase with CD40 loss. At the mRNA level, CELF1 controls exon splicing critical for CD40 activity, while the N6-adenosine methyltransferase WTAP negatively regulates CD40 mRNA abundance. At the protein level, ESCRT negatively regulates activated CD40 levels while the negative feedback phosphatase DUSP10 limits downstream MAPK responses. These results serve as a resource for future studies and highlight potential therapeutic targets. : CD40 is critical for B cell development, germinal center formation, somatic hypermutation, and class-switch recombination. Increased CD40 abundance is associated with autoimmunity and cancer, whereas CD40 hypoactivity causes immunodeficiency. Jiang et al. performed a genome-wide CRISPR/Cas9 screen to reveal key B cell factors that control CD40 abundance and that regulate CD40 responses. Keywords: B cell activation, NF-kappaB, MAP kinase, CRISPR screen, TNF receptor superfamily, humoral immunity, immunodeficiency, N6-Methyladenosine, ESCRT, germinal center

Published
2019
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12. Editing of mouse and human immunoglobulin genes by CRISPR-Cas9 system

Author

Taek-Chin Cheong, Mara Compagno, and Roberto Chiarle

Subjects
Science
Abstract

CRISPR-Cas9 has been used to generate a range of genetic modifications including gene knock-outs and chromosomal rearrangements. Here the authors target the immunogloblin genes and demonstrate the induction of class switch recombination, opening up possibilities for research and antibody production.

Published
2016
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13. Simple and Rapid In Vivo Generation of Chromosomal Rearrangements using CRISPR/Cas9 Technology

Author

Rafael B. Blasco, Elif Karaca, Chiara Ambrogio, Taek-Chin Cheong, Emre Karayol, Valerio G. Minero, Claudia Voena, and Roberto Chiarle

Subjects
Biology (General), QH301-705.5
Abstract

Generation of genetically engineered mouse models (GEMMs) for chromosomal translocations in the endogenous loci by a knockin strategy is lengthy and costly. The CRISPR/Cas9 system provides an innovative and flexible approach for genome engineering of genomic loci in vitro and in vivo. Here, we report the use of the CRISPR/Cas9 system for engineering a specific chromosomal translocation in adult mice in vivo. We designed CRISPR/Cas9 lentiviral vectors to induce cleavage of the murine endogenous Eml4 and Alk loci in order to generate the Eml4-Alk gene rearrangement recurrently found in non-small-cell lung cancers (NSCLCs). Intratracheal or intrapulmonary inoculation of lentiviruses induced Eml4-Alk gene rearrangement in lung cells in vivo. Genomic and mRNA sequencing confirmed the genome editing and the production of the Eml4-Alk fusion transcript. All mice developed Eml4-Alk-rearranged lung tumors 2 months after the inoculation, demonstrating that the CRISPR/Cas9 system is a feasible and simple method for the generation of chromosomal rearrangements in vivo.

Published
2014
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14. FuseFISH: Robust Detection of Transcribed Gene Fusions in Single Cells

Author

Stefan Semrau, Nicola Crosetto, Magda Bienko, Marina Boni, Paolo Bernasconi, Roberto Chiarle, and Alexander van Oudenaarden

Subjects
Biology (General), QH301-705.5
Abstract

Transcribed gene fusions are key biomarkers in many hematologic and solid tumors, often representing the primary oncogenic driver mutation. Here, we report an experimental and computational pipeline for detecting fusion transcripts using single-molecule RNA FISH and unbiased correlation analysis (FuseFISH). We constructed a genome-wide database of optimal oligonucleotide sequences, enabling quick design of FuseFISH probes against known and novel fusions. We implemented FuseFISH in cell lines, tissue sections, and purified RNA, reliably detecting one BCR-ABL1 positive in 10,000 negative cells. In 34 hematologic samples, we detected BCR-ABL1 transcripts with high specificity and sensitivity. Finally, we measured BCR-ABL1 expression heterogeneity and dynamics in single CML cells exposed to the kinase inhibitor Nilotinib. Our resource and methods are ideal for streamlined validation of fusions newly identified by next-generation sequencing, and they pave the way to studying the impact of fusion expression variability on clinical outcome.

Published
2014
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15. RHO Family GTPases in the Biology of Lymphoma

Author

Claudia Voena and Roberto Chiarle

Subjects
RHO family GTPases, RHOA, RHOH, VAV, mutations, chromosomal translocations, lymphoma, Cytology, QH573-671
Abstract

RHO GTPases are a class of small molecules involved in the regulation of several cellular processes that belong to the RAS GTPase superfamily. The RHO family of GTPases includes several members that are further divided into two different groups: typical and atypical. Both typical and atypical RHO GTPases are critical transducers of intracellular signaling and have been linked to human cancer. Significantly, both gain-of-function and loss-of-function mutations have been described in human tumors with contradicting roles depending on the cell context. The RAS family of GTPases that also belong to the RAS GTPase superfamily like the RHO GTPases, includes arguably the most frequently mutated genes in human cancers (K-RAS, N-RAS, and H-RAS) but has been extensively described elsewhere. This review focuses on the role of RHO family GTPases in human lymphoma initiation and progression.

Published
2019
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16. Epigenetic Silencing of the Proapoptotic Gene BIM in Anaplastic Large Cell Lymphoma through an MeCP2/SIN3a Deacetylating Complex

Author

Rocco Piazza, Vera Magistroni, Angela Mogavero, Federica Andreoni, Chiara Ambrogio, Roberto Chiarle, Luca Mologni, Petra S Bachmann, Richard B Lock, Paola Collini, Giuseppe Pelosi, and Carlo Gambacorti-Passerini

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

BIM is a proapoptotic member of the Bcl-2 family. Here, we investigated the epigenetic status of the BIM locus in NPM/ALK+ anaplastic large cell lymphoma (ALCL) cell lines and in lymph node biopsies from NPM/ALK+ ALCL patients. We show that BIM is epigenetically silenced in cell lines and lymph node specimens and that treatment with the deacetylase inhibitor trichostatin A restores the histone acetylation, strongly upregulates BIM expression, and induces cell death. BIM silencing occurs through recruitment of MeCP2 and the SIN3a/histone deacetylase 1/2 (HDAC1/2) corepressor complex. This event requires BIM CpG methylation/demethylation with 5-azacytidine that leads to detachment of the MeCP2 corepressor complex and reacetylation of the histone tails. Treatment with the ALK inhibitor PF2341066 or with an inducible shRNA targeting NPM/ALK does not restore BIM locus reacetylation; however, enforced expression of NPM/ALK in an NPM/ALK-negative cell line significantly increases the methylation at the BIM locus. This study demonstrates that BIM is epigenetically silenced in NPM/ALK-positive cells through recruitment of the SIN3a/HDAC1/2 corepressor complex and that NPM/ALK is dispensable to maintain BIM epigenetic silencing but is able to act as an inducer of BIM methylation.

Published
2013
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17. Hepatocyte Growth Factor-mediated satellite cells niche perturbation promotes development of distinct sarcoma subtypes

Author

Deborah Morena, Nicola Maestro, Francesca Bersani, Paolo Emanuele Forni, Marcello Francesco Lingua, Valentina Foglizzo, Petar Šćepanović, Silvia Miretti, Alessandro Morotti, Jack F Shern, Javed Khan, Ugo Ala, Paolo Provero, Valentina Sala, Tiziana Crepaldi, Patrizia Gasparini, Michela Casanova, Andrea Ferrari, Gabriella Sozzi, Roberto Chiarle, Carola Ponzetto, and Riccardo Taulli

Subjects
stem cell niche, HGF/met axis, embryonal rhabdomyosarcoma, undifferentiated pleomorphic sarcoma, clonal evolution, combination therapy, Medicine, Science, Biology (General), QH301-705.5
Abstract

Embryonal Rhabdomyosarcoma (ERMS) and Undifferentiated Pleomorphic Sarcoma (UPS) are distinct sarcoma subtypes. Here we investigate the relevance of the satellite cell (SC) niche in sarcoma development by using Hepatocyte Growth Factor (HGF) to perturb the niche microenvironment. In a Pax7 wild type background, HGF stimulation mainly causes ERMS that originate from satellite cells following a process of multistep progression. Conversely, in a Pax7 null genotype ERMS incidence drops, while UPS becomes the most frequent subtype. Murine EfRMS display genetic heterogeneity similar to their human counterpart. Altogether, our data demonstrate that selective perturbation of the SC niche results in distinct sarcoma subtypes in a Pax7 lineage-dependent manner, and define a critical role for the Met axis in sarcoma initiation. Finally, our results provide a rationale for the use of combination therapy, tailored on specific amplifications and activated signaling pathways, to minimize resistance emerging from sarcomas heterogeneity.

Published
2016
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18. Maternal Immunization: New Perspectives on Its Application Against Non-Infectious Related Diseases in Newborns

Author

Federica Riccardo, Aline Réal, Claudia Voena, Roberto Chiarle, Federica Cavallo, and Giuseppina Barutello

Subjects
maternal immunization, childhood cancer, neuroblastoma, DNA vaccination, cancer prevention, Medicine
Abstract

The continuous evolution in preventive medicine has anointed vaccination a versatile, human-health improving tool, which has led to a steady decline in deaths in the developing world. Maternal immunization represents an incisive step forward for the field of vaccination as it provides protection against various life-threatening diseases in pregnant women and their children. A number of studies to improve prevention rates and expand protection against the largest possible number of infections are still in progress. The complex unicity of the mother-infant interaction, both during and after pregnancy and which involves immune system cells and molecules, is an able partner in the success of maternal immunization, as intended thus far. Interestingly, new studies have shed light on the versatility of maternal immunization in protecting infants from non-infectious related diseases, such as allergy, asthma and congenital metabolic disorders. However, barely any attempt at applying maternal immunization to the prevention of childhood cancer has been made. The most promising study reported in this new field is a recent proof of concept on the efficacy of maternal immunization in protecting cancer-prone offspring against mammary tumor progression. New investigations into the possibility of exploiting maternal immunization to prevent the onset and/or progression of neuroblastoma, one of the most common childhood malignancies, are therefore justified. Maternal immunization is presented in a new guise in this review. Attention will be focused on its versatility and potential applications in preventing tumor progression in neuroblastoma-prone offspring.

Published
2017
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19. PHOX2B-mediated regulation of ALK expression: in vitro identification of a functional relationship between two genes involved in neuroblastoma.

Author

Tiziana Bachetti, Daniela Di Paolo, Simona Di Lascio, Valentina Mirisola, Chiara Brignole, Marta Bellotti, Irene Caffa, Chiara Ferraris, Michele Fiore, Diego Fornasari, Roberto Chiarle, Silvia Borghini, Ulrich Pfeffer, Mirco Ponzoni, Isabella Ceccherini, and Patrizia Perri

Subjects
Medicine, Science
Abstract

Neuroblastoma (NB) is a severe pediatric tumor originating from neural crest derivatives and accounting for 15% of childhood cancer mortality. The heterogeneous and complex genetic etiology has been confirmed with the identification of mutations in two genes, encoding for the receptor tyrosine kinase Anaplastic Lymphoma Kinase (ALK) and the transcription factor Paired-like Homeobox 2B (PHOX2B), in a limited proportion of NB patients. Interestingly, these two genes are overexpressed in the great majority of primary NB samples and cell lines. These observations led us to test the hypothesis of a regulatory or functional relationship between ALK and PHOX2B underlying NB pathogenesis. Following this possibility, we first confirmed a striking correlation between the transcription levels of ALK, PHOX2B and its direct target PHOX2A in a panel of NB cell lines. Then, we manipulated their expression in NB cell lines by siRNA-mediated knock-down and forced over-expression of each gene under analysis. Surprisingly, PHOX2B- and PHOX2A-directed siRNAs efficiently downregulated each other as well as ALK gene and, consistently, the enhanced expression of PHOX2B in NB cells yielded an increment of ALK protein. We finally demonstrated that PHOX2B drives ALK gene transcription by directly binding its promoter, which therefore represents a novel PHOX2B target. These findings provide a compelling explanation of the concurrent involvement of these two genes in NB pathogenesis and are going to foster a better understanding of molecular interactions at the base of the disease. Moreover, this work opens new perspectives for NBs refractory to conventional therapies that may benefit from the design of novel therapeutic RNAi-based approaches for multiple gene targets.

Published
2010
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20. Next-generation ALK inhibitors are highly active in ALK-positive large B-cell lymphoma

Author

Jacob D. Soumerai, Allison Rosenthal, Shannon Harkins, Jessica Duffy, Carmen Mecca, Yingbing Wang, Ravinder K. Grewal, Areej R. El-Jawahri, Huiyun Liu, Cedric Menard, Ahmet Dogan, Lei Yang, Lisa M. Rimsza, Kurt Bantilan, Haley Martin, Matthew Lei, Sydney Mohr, Anna Kurilovich, Olga Kudryashova, Ekaterina Postovalova, Valentina Nardi, Jeremy S. Abramson, Roberto Chiarle, Andrew D. Zelenetz, and Abner Louissaint

Subjects
Lymphoma, B-Cell, Lung Neoplasms, Immunology, Humans, Anaplastic Lymphoma Kinase, Cell Biology, Hematology, Protein Kinase Inhibitors, Biochemistry
Published
2022

22. Gray-Zone Lymphoma: A Still Open Issue

Author

Pileri, Stefano, primary, Tabanelli, Valentina, additional, Roberto, Chiarle, additional, Calleri, Angelica, additional, Melle, Federica, additional, Motta, Giovanna, additional, Sapienza, Maria Rosaria, additional, Sabattini, Elena, additional, Zinzani, Pier Luigi, additional, and Derenzini, Enrico, additional

Published
2023
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23. ERα-associated translocations underlie oncogene amplifications in breast cancer

Author

Jake June-Koo Lee, Youngsook Lucy Jung, Taek-Chin Cheong, Jose Espejo Valle-Inclan, Chong Chu, Doga C. Gulhan, Viktor Ljungström, Hu Jin, Vinayak V. Viswanadham, Emma V. Watson, Isidro Cortés-Ciriano, Stephen J. Elledge, Roberto Chiarle, David Pellman, and Peter J. Park

Subjects
Multidisciplinary
Abstract

Focal copy-number amplification is an oncogenic event. Although recent studies have revealed the complex structure1–3 and the evolutionary trajectories4 of oncogene amplicons, their origin remains poorly understood. Here we show that focal amplifications in breast cancer frequently derive from a mechanism—which we term translocation–bridge amplification—involving inter-chromosomal translocations that lead to dicentric chromosome bridge formation and breakage. In 780 breast cancer genomes, we observe that focal amplifications are frequently connected to each other by inter-chromosomal translocations at their boundaries. Subsequent analysis indicates the following model: the oncogene neighbourhood is translocated in G1 creating a dicentric chromosome, the dicentric chromosome is replicated, and as dicentric sister chromosomes segregate during mitosis, a chromosome bridge is formed and then broken, with fragments often being circularized in extrachromosomal DNAs. This model explains the amplifications of key oncogenes, including ERBB2 and CCND1. Recurrent amplification boundaries and rearrangement hotspots correlate with oestrogen receptor binding in breast cancer cells. Experimentally, oestrogen treatment induces DNA double-strand breaks in the oestrogen receptor target regions that are repaired by translocations, suggesting a role of oestrogen in generating the initial translocations. A pan-cancer analysis reveals tissue-specific biases in mechanisms initiating focal amplifications, with the breakage–fusion–bridge cycle prevalent in some and the translocation–bridge amplification in others, probably owing to the different timing of DNA break repair. Our results identify a common mode of oncogene amplification and propose oestrogen as its mechanistic origin in breast cancer.

Published
2023

25. Supplementary Figures from Efficacy of a Cancer Vaccine against ALK-Rearranged Lung Tumors

Author

Roberto Chiarle, Pasi A. Jänne, Giorgio Inghirami, Marzia Capelletti, Mohit Butaney, Fiorella Altruda, Federica Cavallo, Luca Mologni, Elena Panizza, Lucia D'Amico, Cinzia Martinengo, Teresa Poggio, Valerio Giacomo Minero, Qi Wang, Chiara Ambrogio, Maria Elena Boggio Merlo, Barbara Castella, Dario Livio Longo, Filomena Di Giacomo, Cristina Mastini, Matteo Menotti, and Claudia Voena

Abstract

Supplementary Figure S1. ALK Tg mice develop lung multifocal adenocarcinomas similar to human ALK-rearranged NSCLC. Supplementary Figure S2. Therapeutic ALK vaccine impairs tumor growth of ALK-rearranged lung tumors. Supplementary Figure S3. Immunophenotype of EML4-ALK transgenic mice Supplementary Figure S4. Human ALK-rearranged NSCLC show a pattern of low expression of T cell markers. Supplementary Figure S5. PD-L1 expression is dependent on ALK kinase activity in ALK-rearranged NSCLC cells. Supplementary Figure S6. Schematic protocols of the in vivo treatment with anti-PD-1 blocking antibody. Supplementary Figure S7. ALK vaccine can be combined with ALK inhibitor TAE684. Supplementary Figure S8. Immunophenotype of intratumoral T cells in ALK vaccinated mice.

Published
2023

26. Supplementary Figure Legends from Efficacy of a Cancer Vaccine against ALK-Rearranged Lung Tumors

Author

Roberto Chiarle, Pasi A. Jänne, Giorgio Inghirami, Marzia Capelletti, Mohit Butaney, Fiorella Altruda, Federica Cavallo, Luca Mologni, Elena Panizza, Lucia D'Amico, Cinzia Martinengo, Teresa Poggio, Valerio Giacomo Minero, Qi Wang, Chiara Ambrogio, Maria Elena Boggio Merlo, Barbara Castella, Dario Livio Longo, Filomena Di Giacomo, Cristina Mastini, Matteo Menotti, and Claudia Voena

Abstract

Supplementary Figure Legends

Published
2023

27. Supplementary Materials and Methods from Efficacy of a Cancer Vaccine against ALK-Rearranged Lung Tumors

Author

Roberto Chiarle, Pasi A. Jänne, Giorgio Inghirami, Marzia Capelletti, Mohit Butaney, Fiorella Altruda, Federica Cavallo, Luca Mologni, Elena Panizza, Lucia D'Amico, Cinzia Martinengo, Teresa Poggio, Valerio Giacomo Minero, Qi Wang, Chiara Ambrogio, Maria Elena Boggio Merlo, Barbara Castella, Dario Livio Longo, Filomena Di Giacomo, Cristina Mastini, Matteo Menotti, and Claudia Voena

Abstract

Supplementary Materials and Methods

Published
2023

28. Data from Efficacy of a Cancer Vaccine against ALK-Rearranged Lung Tumors

Author

Roberto Chiarle, Pasi A. Jänne, Giorgio Inghirami, Marzia Capelletti, Mohit Butaney, Fiorella Altruda, Federica Cavallo, Luca Mologni, Elena Panizza, Lucia D'Amico, Cinzia Martinengo, Teresa Poggio, Valerio Giacomo Minero, Qi Wang, Chiara Ambrogio, Maria Elena Boggio Merlo, Barbara Castella, Dario Livio Longo, Filomena Di Giacomo, Cristina Mastini, Matteo Menotti, and Claudia Voena

Abstract

Non–small cell lung cancer (NSCLC) harboring chromosomal rearrangements of the anaplastic lymphoma kinase (ALK) gene is treated with ALK tyrosine kinase inhibitors (TKI), but the treatment is successful for only a limited amount of time; most patients experience a relapse due to the development of drug resistance. Here, we show that a vaccine against ALK induced a strong and specific immune response that both prophylactically and therapeutically impaired the growth of ALK-positive lung tumors in mouse models. The ALK vaccine was efficacious also in combination with ALK TKI treatment and significantly delayed tumor relapses after TKI suspension. We found that lung tumors containing ALK rearrangements induced an immunosuppressive microenvironment, regulating the expression of PD-L1 on the surface of lung tumor cells. High PD-L1 expression reduced ALK vaccine efficacy, which could be restored by administration of anti–PD-1 immunotherapy. Thus, combinations of ALK vaccine with TKIs and immune checkpoint blockade therapies might represent a powerful strategy for the treatment of ALK-driven NSCLC. Cancer Immunol Res; 3(12); 1333–43. ©2015 AACR.

Published
2023

29. Supplementary Materials and Methods from Deep Sequencing Reveals a Novel miR-22 Regulatory Network with Therapeutic Potential in Rhabdomyosarcoma

Author

Riccardo Taulli, Carola Ponzetto, Thomas Tuschl, Marc Ladanyi, Samuel Singer, Roberto Chiarle, Paolo Provero, Ugo Ala, Alessandro Morotti, Giovanna Carrà, Letizia Lanzetti, Silvia Miretti, Valentina Foglizzo, Deborah Morena, Marcello Francesco Lingua, and Francesca Bersani

Abstract

Detailed version of the Materials and Methods and list of oligonucleotides and antibodies used.

Published
2023

32. Supplementary Figure S3 from Deep Sequencing Reveals a Novel miR-22 Regulatory Network with Therapeutic Potential in Rhabdomyosarcoma

Author

Riccardo Taulli, Carola Ponzetto, Thomas Tuschl, Marc Ladanyi, Samuel Singer, Roberto Chiarle, Paolo Provero, Ugo Ala, Alessandro Morotti, Giovanna Carrà, Letizia Lanzetti, Silvia Miretti, Valentina Foglizzo, Deborah Morena, Marcello Francesco Lingua, and Francesca Bersani

Abstract

miR-22 does not induce RMS cell terminal differentiation.

Published
2023

33. DNA repair mechanisms that promote insertion-deletion events during immunoglobulin gene diversification

Author

Qian Hao, Chuanzong Zhan, Chaoyang Lian, Simin Luo, Wenyi Cao, Binbin Wang, Xia Xie, Xiaofei Ye, Tuantuan Gui, Claudia Voena, Chiara Pighi, Yanyan Wang, Ying Tian, Xin Wang, Pengfei Dai, Yanni Cai, Xiaojing Liu, Shengqun Ouyang, Shiqi Sun, Qianwen Hu, Jun Liu, Youqiong Ye, Jingkun Zhao, Aiguo Lu, Ji-Yang Wang, Chuanxin Huang, Bing Su, Fei-Long Meng, Roberto Chiarle, Qiang Pan-Hammarström, and Leng-Siew Yeap

Subjects
Immunology, General Medicine
Abstract

Insertions and deletions (indels) are low-frequency deleterious genomic DNA alterations. Despite their rarity, indels are common, and insertions leading to long complementarity-determining region 3 (CDR3) are vital for antigen-binding functions in broadly neutralizing and polyreactive antibodies targeting viruses. Because of challenges in detecting indels, the mechanism that generates indels during immunoglobulin diversification processes remains poorly understood. We carried out ultra-deep profiling of indels and systematically dissected the underlying mechanisms using passenger-immunoglobulin mouse models. We found that activation-induced cytidine deaminase–dependent ±1–base pair (bp) indels are the most prevalent indel events, biasing deleterious outcomes, whereas longer in-frame indels, especially insertions that can extend the CDR3 length, are rare outcomes. The ±1-bp indels are channeled by base excision repair, but longer indels require additional DNA-processing factors. Ectopic expression of a DNA exonuclease or perturbation of the balance of DNA polymerases can increase the frequency of longer indels, thus paving the way for models that can generate antibodies with long CDR3. Our study reveals the mechanisms that generate beneficial and deleterious indels during the process of antibody somatic hypermutation and has implications in understanding the detrimental genomic alterations in various conditions, including tumorigenesis.

Published
2023

34. Data from Deep Sequencing Reveals a Novel miR-22 Regulatory Network with Therapeutic Potential in Rhabdomyosarcoma

Author

Riccardo Taulli, Carola Ponzetto, Thomas Tuschl, Marc Ladanyi, Samuel Singer, Roberto Chiarle, Paolo Provero, Ugo Ala, Alessandro Morotti, Giovanna Carrà, Letizia Lanzetti, Silvia Miretti, Valentina Foglizzo, Deborah Morena, Marcello Francesco Lingua, and Francesca Bersani

Abstract

Current therapeutic options for the pediatric cancer rhabdomyosarcoma have not improved significantly, especially for metastatic rhabdomyosarcoma. In the current work, we performed a deep miRNA profiling of the three major human rhabdomyosarcoma subtypes, along with cell lines and normal muscle, to identify novel molecular circuits with therapeutic potential. The signature we determined could discriminate rhabdomyosarcoma from muscle, revealing a subset of muscle-enriched miRNA (myomiR), including miR-22, which was strongly underexpressed in tumors. miR-22 was physiologically induced during normal myogenic differentiation and was transcriptionally regulated by MyoD, confirming its identity as a myomiR. Once introduced into rhabdomyosarcoma cells, miR-22 decreased cell proliferation, anchorage-independent growth, invasiveness, and promoted apoptosis. Moreover, restoring miR-22 expression blocked tumor growth and prevented tumor dissemination in vivo. Gene expression profiling analysis of miR-22–expressing cells suggested TACC1 and RAB5B as possible direct miR-22 targets. Accordingly, loss- and gain-of-function experiments defined the biological relevance of these genes in rhabdomyosarcoma pathogenesis. Finally, we demonstrated the ability of miR-22 to intercept and overcome the intrinsic resistance to MEK inhibition based on ERBB3 upregulation. Overall, our results identified a novel miR-22 regulatory network with critical therapeutic implications in rhabdomyosarcoma. Cancer Res; 76(20); 6095–106. ©2016 AACR.

Published
2023

35. Supplementary Tables S1-S7 from Modeling Lung Cancer Evolution and Preclinical Response by Orthotopic Mouse Allografts

Author

Alberto Villanueva, David Santamaría, Mariano Barbacid, Roberto Chiarle, Claudia Voena, Francisca Mulero, Manel Esteller, Montserrat Sánchez-Céspedes, Teresa Poggio, Ernest Nadal, Miguel Vizoso, Sara Puertas, Octavio A. Romero, Patricia Nieto, Mattia Falcone, August Vidal, Francisco J. Carmona, and Chiara Ambrogio

Abstract

Supplementary Tables S1-S7. K-RasG12V tumors serially transplanted in Crl:NU-Foxn1nu mice and paired derived cell lines (S1); Semiquantitative assessment of the percentages of histologic components in passage #1 engrafted tumors (S2); EML4-ALK tumors orthotopically implanted in Crl:NU-Foxn1nu mice (S3); Histologic progression of orthoallografts upon sequential mice-to-mice passages (S4); Presence of distal metastasis in animals implanted with the indicated orthoallografts (S5); Summary of primary cell lines obtained from the indicated orthoallograft implants (S6); Histopathological characterization of EML4-ALK implants after crizotinib treatment (S7).

Published
2023

36. Data from NPM-ALK Oncogenic Tyrosine Kinase Controls T-Cell Identity by Transcriptional Regulation and Epigenetic Silencing in Lymphoma Cells

Author

Roberto Chiarle, Giorgio Inghirami, Paola Francia di Celle, Ludovica Riera, Fabrizio Tondat, Claudia Voena, Cinzia Martinengo, and Chiara Ambrogio

Abstract

Transformed cells in lymphomas usually maintain the phenotype of the postulated normal lymphocyte from which they arise. By contrast, anaplastic large cell lymphoma (ALCL) is a T-cell lymphoma with aberrant phenotype because of the defective expression of the T-cell receptor and other T-cell–specific molecules for still undetermined mechanisms. The majority of ALCL carries the translocation t(2;5) that encodes for the oncogenic tyrosine kinase NPM-ALK, fundamental for survival, proliferation, and migration of transformed T cells. Here, we show that loss of T-cell–specific molecules in ALCL cases is broader than reported previously and involves most T-cell receptor–related signaling molecules, including CD3ϵ, ZAP70, LAT, and SLP76. We further show that NPM-ALK, but not the kinase-dead NPM-ALKK210R, downregulated the expression of these molecules by a STAT3-mediated gene transcription regulation and/or epigenetic silencing because this downregulation was reverted by treating ALCL cells with 5-aza-2-deoxycytidine or by knocking down STAT3 through short hairpin RNA. Finally, NPM-ALK increased the methylation of ZAP70 intron 1-exon 2 boundary region, and both NPM-ALK and STAT3 regulated the expression levels of DNA methyltransferase 1 in transformed T cells. Thus, our data reveal that oncogene-deregulated tyrosine kinase activity controls the expression of molecules that determine T-cell identity and signaling. [Cancer Res 2009;69(22):8611–9]

Published
2023

37. Supplementary Figure 5 from NPM-ALK Oncogenic Tyrosine Kinase Controls T-Cell Identity by Transcriptional Regulation and Epigenetic Silencing in Lymphoma Cells

Author

Roberto Chiarle, Giorgio Inghirami, Paola Francia di Celle, Ludovica Riera, Fabrizio Tondat, Claudia Voena, Cinzia Martinengo, and Chiara Ambrogio

Abstract

Supplementary Figure 5 from NPM-ALK Oncogenic Tyrosine Kinase Controls T-Cell Identity by Transcriptional Regulation and Epigenetic Silencing in Lymphoma Cells

Published
2023

40. Supplementary Figure 3 from NPM-ALK Oncogenic Tyrosine Kinase Controls T-Cell Identity by Transcriptional Regulation and Epigenetic Silencing in Lymphoma Cells

Author

Roberto Chiarle, Giorgio Inghirami, Paola Francia di Celle, Ludovica Riera, Fabrizio Tondat, Claudia Voena, Cinzia Martinengo, and Chiara Ambrogio

Abstract

Supplementary Figure 3 from NPM-ALK Oncogenic Tyrosine Kinase Controls T-Cell Identity by Transcriptional Regulation and Epigenetic Silencing in Lymphoma Cells

Published
2023

41. Supplementary Figures 1-19 from ALK-Dependent Control of Hypoxia-Inducible Factors Mediates Tumor Growth and Metastasis

Author

Roberto Chiarle, Claudia Voena, Qi Wang, Mirco Ponzoni, Patrizia Perri, Fabio Pastorino, Domenico Ribatti, Roberto Piva, Ludovica Riera, Elisa Pellegrino, Chiara Ambrogio, Cristina Mastini, Maria Stella Scalzo, Matteo Menotti, Teresa Poggio, and Cinzia Martinengo

Abstract

Supplementary Figures 1-19. Supplementary Figure 1. Hypoxia pathways are enriched in ALCL. Supplementary Figure 2. Gene expression data on ALCL. Supplementary Figure 3. EML4-ALK NSCLC show enrichment in hypoxia pathway associated genes. Supplementary Figure 4. ALK regulates HIF-1α and HIF-2α expression in ALK-rearranged ALCL cell lines. Supplementary Figure 5. Oncogenic ALK regulates HIF-1α and HIF-2α expression levels in ALK-rearranged ALCL cell lines. Supplementary Figure 6. Oncogenic ALK-mediated control of HIF-1α and HIF-2α expression is not dependent on proteasome-dependent degradation. Supplementary Figure 7. ALK regulates HIF-1α and HIF-2α through STAT3 and C/EBPβ. Supplementary Figure 8. STAT3 and C/EBPβ mediated regulation of HIFs in ALCL. Supplementary Figure 9. Ectopic expression of NPM-ALK in ALK negative ALCL. Supplementary Figure 10. Validation of shRNA against HIF-1α and HIF-2α. Supplementary Figure 11. HIF-2α is essential for the growth of ALK-rearranged ALCL in vivo. Supplementary Figure 12. HIF-1α and HIF-2α are not required for the growth of ALK-negative T cell lymphoma in vivo. Supplementary Figure 13. ALK regulates VEGFA mRNA expression and production in vitro. Supplementary Figure 14. Anti-angiogenic treatment in ALK negative ALCL. Supplementary Figure 15. Oncogenic ALK regulates HIF-1α and HIF-2α expression levels in EML4-ALK NSCLC. Supplementary Figure 16. HIF-α regulation in NSCLC is specifically dependent on ALK activity. Supplementary Figure 17. Oncogenic ALK activity up-regulates VEGF expression in NSCLC. Supplementary Figure 18. HIF-α knock-down does not affect the growth of K-RAS mutated NSCLC. Supplementary Figure 19. HIF-1α and HIF-2α are essential for metastasis formation in EML4-ALK NSCLC.

Published
2023

42. Supplementary Figure Legends from Modeling Lung Cancer Evolution and Preclinical Response by Orthotopic Mouse Allografts

Author

Alberto Villanueva, David Santamaría, Mariano Barbacid, Roberto Chiarle, Claudia Voena, Francisca Mulero, Manel Esteller, Montserrat Sánchez-Céspedes, Teresa Poggio, Ernest Nadal, Miguel Vizoso, Sara Puertas, Octavio A. Romero, Patricia Nieto, Mattia Falcone, August Vidal, Francisco J. Carmona, and Chiara Ambrogio

Abstract

Supplementary Figure Legends. Legend for Supplementary Figures S1-S4.

Published
2023

43. Supplementary Figure 2: Revised May 4, 2009 from The Anaplastic Lymphoma Kinase Controls Cell Shape and Growth of Anaplastic Large Cell Lymphoma through Cdc42 Activation

Author

Roberto Chiarle, Giorgio Inghirami, Emilio Hirsch, Tomas Kirchhausen, Carlotta Costa, Cinzia Martinengo, Andrea D. Manazza, Claudia Voena, and Chiara Ambrogio

Abstract

Supplementary Figure 2: Revised May 4, 2009 from The Anaplastic Lymphoma Kinase Controls Cell Shape and Growth of Anaplastic Large Cell Lymphoma through Cdc42 Activation

Published
2023

44. Supplementary Figures S1-S4 from Modeling Lung Cancer Evolution and Preclinical Response by Orthotopic Mouse Allografts

Author

Alberto Villanueva, David Santamaría, Mariano Barbacid, Roberto Chiarle, Claudia Voena, Francisca Mulero, Manel Esteller, Montserrat Sánchez-Céspedes, Teresa Poggio, Ernest Nadal, Miguel Vizoso, Sara Puertas, Octavio A. Romero, Patricia Nieto, Mattia Falcone, August Vidal, Francisco J. Carmona, and Chiara Ambrogio

Abstract

Supplementary Figures S1-S4. Common histological subtypes of NSCLC orthoallografts (S1); In vitro characterization of primary cell lines derived from NSCLC orthoallografts (S2); Lung colonization and tumor formation upon reintroduction of mKLC cell lines (S3); Inoculation of mKLC single cell clones gives rise to NSCLC heterogeneity in vivo (S4).

Published
2023

46. Supplementary Figure 1 from NPM-ALK Oncogenic Tyrosine Kinase Controls T-Cell Identity by Transcriptional Regulation and Epigenetic Silencing in Lymphoma Cells

Author

Roberto Chiarle, Giorgio Inghirami, Paola Francia di Celle, Ludovica Riera, Fabrizio Tondat, Claudia Voena, Cinzia Martinengo, and Chiara Ambrogio

Abstract

Supplementary Figure 1 from NPM-ALK Oncogenic Tyrosine Kinase Controls T-Cell Identity by Transcriptional Regulation and Epigenetic Silencing in Lymphoma Cells

Published
2023

49. Supplementary Figure 4 from NPM-ALK Oncogenic Tyrosine Kinase Controls T-Cell Identity by Transcriptional Regulation and Epigenetic Silencing in Lymphoma Cells

Author

Roberto Chiarle, Giorgio Inghirami, Paola Francia di Celle, Ludovica Riera, Fabrizio Tondat, Claudia Voena, Cinzia Martinengo, and Chiara Ambrogio

Abstract

Supplementary Figure 4 from NPM-ALK Oncogenic Tyrosine Kinase Controls T-Cell Identity by Transcriptional Regulation and Epigenetic Silencing in Lymphoma Cells

Published
2023

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