Search

Your search keyword '"Massimo La Rosa"' showing total 106 results
Start Over Author "Massimo La Rosa"
106 results on '"Massimo La Rosa"'

1. BITS2019: the sixteenth annual meeting of the Italian society of bioinformatics

Author

Alfonso Urso, Antonino Fiannaca, Massimo La Rosa, Laura La Paglia, Giosue’ Lo Bosco, and Riccardo Rizzo

Subjects
Computer applications to medicine. Medical informatics, R858-859.7, Biology (General), QH301-705.5
Abstract

Abstract The 16th Annual Meeting of the Bioinformatics Italian Society was held in Palermo, Italy, on June 26-28, 2019. More than 80 scientific contributions were presented, including 4 keynote lectures, 31 oral communications and 49 posters. Also, three workshops were organised before and during the meeting. Full papers from some of the works presented in Palermo were submitted for this Supplement of BMC Bioinformatics. Here, we provide an overview of meeting aims and scope. We also shortly introduce selected papers that have been accepted for publication in this Supplement, for a complete presentation of the outcomes of the meeting.

Published
2020
Full Text
View/download PDF

2. miRTissue ce : extending miRTissue web service with the analysis of ceRNA-ceRNA interactions

Author

Antonino Fiannaca, Laura La Paglia, Massimo La Rosa, Riccardo Rizzo, and Alfonso Urso

Subjects
ceRNA interaction, miRNA-target interaction, miRNA sponge, Tumour, TCGA, Computer applications to medicine. Medical informatics, R858-859.7, Biology (General), QH301-705.5
Abstract

Abstract Background Non-coding RNAs include different classes of molecules with regulatory functions. The most studied are microRNAs (miRNAs) that act directly inhibiting mRNA expression or protein translation through the interaction with a miRNAs-response element. Other RNA molecules participate in the complex network of gene regulation. They behave as competitive endogenous RNA (ceRNA), acting as natural miRNA sponges to inhibit miRNA functions and modulate the expression of RNA messenger (mRNA). It became evident that understanding the ceRNA–miRNA–mRNA crosstalk would increase the functional information across the transcriptome, contributing to identify new potential biomarkers for translational medicine. Results We present miRTissue ce , an improvement of our original miRTissue web service. By introducing a novel computational pipeline, miRTissue ce provides an easy way to search for ceRNA interactions in several cancer tissue types. Moreover it extends the functionalities of previous miRTissue release about miRNA-target interaction in order to provide a complete insight about miRNA mediated regulation processes. miRTissue ce is freely available at http://tblab.pa.icar.cnr.it/mirtissue.html . Conclusions The study of ceRNA networks and its dynamics in cancer tissue could be applied in many fields of translational biology, as the investigation of new cancer biomarker, both diagnostic and prognostic, and also in the investigation of new therapeutic strategies of intervention. In this scenario, miRTissue ce can offer a powerful instrument for the analysis and characterization of ceRNA-ceRNA interactions in different tissue types, representing a fundamental step in order to understand more complex regulation mechanisms.

Published
2020
Full Text
View/download PDF

3. A Two-Step Feature Selection Radiomic Approach to Predict Molecular Outcomes in Breast Cancer

Author

Valentina Brancato, Nadia Brancati, Giusy Esposito, Massimo La Rosa, Carlo Cavaliere, Ciro Allarà, Valeria Romeo, Giuseppe De Pietro, Marco Salvatore, Marco Aiello, and Mara Sangiovanni

Subjects
radiomics, Breast Cancer, machine learning, feature selection, Chemical technology, TP1-1185
Abstract

Breast Cancer (BC) is the most common cancer among women worldwide and is characterized by intra- and inter-tumor heterogeneity that strongly contributes towards its poor prognosis. The Estrogen Receptor (ER), Progesterone Receptor (PR), Human Epidermal Growth Factor Receptor 2 (HER2), and Ki67 antigen are the most examined markers depicting BC heterogeneity and have been shown to have a strong impact on BC prognosis. Radiomics can noninvasively predict BC heterogeneity through the quantitative evaluation of medical images, such as Magnetic Resonance Imaging (MRI), which has become increasingly important in the detection and characterization of BC. However, the lack of comprehensive BC datasets in terms of molecular outcomes and MRI modalities, and the absence of a general methodology to build and compare feature selection approaches and predictive models, limit the routine use of radiomics in the BC clinical practice. In this work, a new radiomic approach based on a two-step feature selection process was proposed to build predictors for ER, PR, HER2, and Ki67 markers. An in-house dataset was used, containing 92 multiparametric MRIs of patients with histologically proven BC and all four relevant biomarkers available. Thousands of radiomic features were extracted from post-contrast and subtracted Dynamic Contrast-Enanched (DCE) MRI images, Apparent Diffusion Coefficient (ADC) maps, and T2-weighted (T2) images. The two-step feature selection approach was used to identify significant radiomic features properly and then to build the final prediction models. They showed remarkable results in terms of F1-score for all the biomarkers: 84%, 63%, 90%, and 72% for ER, HER2, Ki67, and PR, respectively. When possible, the models were validated on the TCGA/TCIA Breast Cancer dataset, returning promising results (F1-score = 88% for the ER+/ER− classification task). The developed approach efficiently characterized BC heterogeneity according to the examined molecular biomarkers.

Published
2023
Full Text
View/download PDF

4. A Graph Neural Network Approach for the Analysis of siRNA-Target Biological Networks

Author

Massimo La Rosa, Antonino Fiannaca, Laura La Paglia, and Alfonso Urso

Subjects
graph neural network, deep learning, siRNA, biological networks, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Many biological systems are characterised by biological entities, as well as their relationships. These interaction networks can be modelled as graphs, with nodes representing bio-entities, such as molecules, and edges representing relations among them, such as interactions. Due to the current availability of a huge amount of biological data, it is very important to consider in silico analysis methods based on, for example, machine learning, that could take advantage of the inner graph structure of the data in order to improve the quality of the results. In this scenario, graph neural networks (GNNs) are recent computational approaches that directly deal with graph-structured data. In this paper, we present a GNN network for the analysis of siRNA–mRNA interaction networks. siRNAs, in fact, are small RNA molecules that are able to bind to target genes and silence them. These events make siRNAs key molecules as RNA interference agents in many biological interaction networks related to severe diseases such as cancer. In particular, our GNN approach allows for the prediction of the siRNA efficacy, which measures the siRNA’s ability to bind and silence a gene target. Tested on benchmark datasets, our proposed method overcomes other machine learning algorithms, including the state-of-the-art predictor based on the convolutional neural network, reaching a Pearson correlation coefficient of approximately 73.6%. Finally, we proposed a case study where the efficacy of a set of siRNAs is predicted for a gene of interest. To the best of our knowledge, GNNs were used for the first time in this scenario.

Published
2022
Full Text
View/download PDF

5. MiRNA therapeutics based on logic circuits of biological pathways

Author

Valeria Boscaino, Antonino Fiannaca, Laura La Paglia, Massimo La Rosa, Riccardo Rizzo, and Alfonso Urso

Subjects
miRNA therapeutics, Drug discovery, Cancer pathway, Logic circuit, Boolean network, Computer applications to medicine. Medical informatics, R858-859.7, Biology (General), QH301-705.5
Abstract

Abstract Background In silico experiments, with the aid of computer simulation, speed up the process of in vitro or in vivo experiments. Cancer therapy design is often based on signalling pathway. MicroRNAs (miRNA) are small non-coding RNA molecules. In several kinds of diseases, including cancer, hepatitis and cardiovascular diseases, they are often deregulated, acting as oncogenes or tumor suppressors. miRNA therapeutics is based on two main kinds of molecules injection: miRNA mimics, which consists of injection of molecules that mimic the targeted miRNA, and antagomiR, which consists of injection of molecules inhibiting the targeted miRNA. Nowadays, the research is focused on miRNA therapeutics. This paper addresses cancer related signalling pathways to investigate miRNA therapeutics. Results In order to prove our approach, we present two different case studies: non-small cell lung cancer and melanoma. KEGG signalling pathways are modelled by a digital circuit. A logic value of 1 is linked to the expression of the corresponding gene. A logic value of 0 is linked to the absence (not expressed) gene. All possible relationships provided by a signalling pathway are modelled by logic gates. Mutations, derived according to the literature, are introduced and modelled as well. The modelling approach and analysis are widely discussed within the paper. MiRNA therapeutics is investigated by the digital circuit analysis. The most effective miRNA and combination of miRNAs, in terms of reduction of pathogenic conditions, are obtained. A discussion of obtained results in comparison with literature data is provided. Results are confirmed by existing data. Conclusions The proposed study is based on drug discovery and miRNA therapeutics and uses a digital circuit simulation of a cancer pathway. Using this simulation, the most effective combination of drugs and miRNAs for mutated cancer therapy design are obtained and these results were validated by the literature. The proposed modelling and analysis approach can be applied to each human disease, starting from the corresponding signalling pathway.

Published
2019
Full Text
View/download PDF

6. The 2017 Network Tools and Applications in Biology (NETTAB) workshop: aims, topics and outcomes

Author

Paolo Romano, Arnaud Céol, Andreas Dräger, Antonino Fiannaca, Rosalba Giugno, Massimo La Rosa, Luciano Milanesi, Ulrich Pfeffer, Riccardo Rizzo, Soo-Yong Shin, Junfeng Xia, and Alfonso Urso

Subjects
Computer applications to medicine. Medical informatics, R858-859.7, Biology (General), QH301-705.5
Abstract

Abstract The 17th International NETTAB workshop was held in Palermo, Italy, on October 16-18, 2017. The special topic for the meeting was “Methods, tools and platforms for Personalised Medicine in the Big Data Era”, but the traditional topics of the meeting series were also included in the event. About 40 scientific contributions were presented, including four keynote lectures, five guest lectures, and many oral communications and posters. Also, three tutorials were organised before and after the workshop. Full papers from some of the best works presented in Palermo were submitted for this Supplement of BMC Bioinformatics. Here, we provide an overview of meeting aims and scope. We also shortly introduce selected papers that have been accepted for publication in this Supplement, for a complete presentation of the outcomes of the meeting.

Published
2019
Full Text
View/download PDF

7. An Investigation on Radiomics Feature Handling for HNSCC Staging Classification

Author

Nadia Brancati, Massimo La Rosa, Giuseppe De Pietro, Giusy Esposito, Marika Valentino, Marco Aiello, and Marco Salvatore

Subjects
radiomics, HNSCC, TCIA, machine learning, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

The incidence of Head and Neck Squamous Cell Carcinoma (HNSCC) has been growing in the last few decades. Its diagnosis is usually performed through clinical evaluation and analyzing radiological images, then confirmed by histopathological examination, an invasive and time-consuming operation. The recent advances in the artificial intelligence field are leading to interesting results in the early diagnosis, personalized treatment and monitoring of HNSCC only by analyzing radiological images, without performing a tissue biopsy. The large amount of radiological images and the increasing interest in radiomics approaches can help to develop machine learning (ML) methods to support diagnosis. In this work, we propose an ML method based on the use of radiomics features, extracted from CT and PET images, to classify the disease in terms of pN-Stage, pT-Stage and Overall Stage. After the extraction of radiomics features, a selection step is performed to remove dataset redundancy. Finally, ML methods are employed to complete the classification task. Our pipeline is applied on the “Head-Neck-PET-CT” TCIA open-source dataset, considering a cohort of 201 patients from four different institutions. An AUC of 97%, 83% and 93% in terms of pN-Stage, pT-Stage and Overall Stage classification, respectively, is achieved. The obtained results are promising, showing the potential efficiency of the use of radiomics approaches in staging classification.

Published
2022
Full Text
View/download PDF

8. 2,2’4,4’-Tetrabromodiphenyl Ether (PBDE-47) Modulates the Intracellular miRNA Profile, sEV Biogenesis and Their miRNA Cargo Exacerbating the LPS-Induced Pro-Inflammatory Response in THP-1 Macrophages

Author

Valeria Longo, Alessandra Longo, Giorgia Adamo, Antonino Fiannaca, Sabrina Picciotto, Laura La Paglia, Daniele Romancino, Massimo La Rosa, Alfonso Urso, Fabio Cibella, Antonella Bongiovanni, and Paolo Colombo

Subjects
flame retardant, THP-1 macrophage, small extracellular vesicle, microRNA, LPS, cytokines, Immunologic diseases. Allergy, RC581-607
Abstract

The 2,2’4,4’-tetrabromodiphenyl ether (PBDE-47) is one of the most prominent PBDE congeners detected in the environment and in animal and human tissues. Animal model experiments suggested the occurrence of PBDE-induced immunotoxicity leading to different outcomes and recently we demonstrated that this substance can impair macrophage and basophil activities. In this manuscript, we decided to further examine the effects induced by PBDE-47 treatment on innate immune response by looking at the intracellular expression profile of miRNAs as well as the biogenesis, cargo content and activity of human M(LPS) macrophage cell-derived small extracellular vesicles (sEVs). Microarray and in silico analysis demonstrated that PBDE-47 can induce some epigenetic effects in M(LPS) THP-1 cells modulating the expression of a set of intracellular miRNAs involved in biological pathways regulating the expression of estrogen-mediated signaling and immune responses with particular reference to M1/M2 differentiation. In addition to the cell-intrinsic modulation of intracellular miRNAs, we demonstrated that PBDE-47 could also interfere with the biogenesis of sEVs increasing their number and selecting a de novo population of sEVs. Moreover, PBDE-47 induced the overload of specific immune related miRNAs in PBDE-47 derived sEVs. Finally, culture experiments with naïve M(LPS) macrophages demonstrated that purified PBDE-47 derived sEVs can modulate macrophage immune response exacerbating the LPS-induced pro-inflammatory response inducing the overexpression of the IL-6 and the MMP9 genes. Data from this study demonstrated that PBDE-47 can perturb the innate immune response at different levels modulating the intracellular expression of miRNAs but also interfering with the biogenesis, cargo content and functional activity of M(LPS) macrophage cell-derived sEVs.

Published
2021
Full Text
View/download PDF

9. Direct RNA Nanopore Sequencing of SARS-CoV-2 Extracted from Critical Material from Swabs

Author

Davide Vacca, Antonino Fiannaca, Fabio Tramuto, Valeria Cancila, Laura La Paglia, Walter Mazzucco, Alessandro Gulino, Massimo La Rosa, Carmelo Massimo Maida, Gaia Morello, Beatrice Belmonte, Alessandra Casuccio, Rosario Maugeri, Gerardo Iacopino, Carmela Rita Balistreri, Francesco Vitale, Claudio Tripodo, and Alfonso Urso

Subjects
MinION, direct RNA nanopore sequencing, SARS-CoV-2, COVID-19, swab, Science
Abstract

In consideration of the increasing prevalence of COVID-19 cases in several countries and the resulting demand for unbiased sequencing approaches, we performed a direct RNA sequencing (direct RNA seq.) experiment using critical oropharyngeal swab samples collected from Italian patients infected with SARS-CoV-2 from the Palermo region in Sicily. Here, we identified the sequences SARS-CoV-2 directly in RNA extracted from critical samples using the Oxford Nanopore MinION technology without prior cDNA retrotranscription. Using an appropriate bioinformatics pipeline, we could identify mutations in the nucleocapsid (N) gene, which have been reported previously in studies conducted in other countries. In conclusion, to the best of our knowledge, the technique used in this study has not been used for SARS-CoV-2 detection previously owing to the difficulties in the extraction of RNA of sufficient quantity and quality from routine oropharyngeal swabs. Despite these limitations, this approach provides the advantages of true native RNA sequencing and does not include amplification steps that could introduce systematic errors. This study can provide novel information relevant to the current strategies adopted in SARS-CoV-2 next-generation sequencing.

Published
2022
Full Text
View/download PDF

10. miRTissue: a web application for the analysis of miRNA-target interactions in human tissues

Author

Antonino Fiannaca, Massimo La Rosa, Laura La Paglia, and Alfonso Urso

Subjects
miRNA-target interaction, Protein expression value, Human tissue, TCGA, Cancer type, Computer applications to medicine. Medical informatics, R858-859.7, Biology (General), QH301-705.5
Abstract

Abstract Background microRNAs act as regulators of gene expression interacting with their gene targets. Current bioinformatics services, such as databases of validated miRNA-target interactions and prediction tools, usually provide interactions without any information about what tissue that interaction is more likely to appear nor information about the type of interactions, causing mRNA degradation or translation inhibition respectively. Results In this work, we introduce miRTissue, a web application that combines validated miRNA-target interactions with statistical correlation among expression profiles of miRNAs, genes and proteins in 15 different human tissues. Validated interactions are taken from the miRTarBase database, while expression profiles are downloaded from The Cancer Genome Atlas repository. As a result, the service provides a tissue-specific characterisation of each couple of miRNA and gene together with its statistical significance (p-value). The inclusion of protein data also allows providing the type of interaction. Moreover, miRTissue offers several views for analysing interactions, focusing for example on the comparison between different cancer types or different tissue conditions. All the results are freely downloadable in the most common formats. Conclusions miRTissue fills a gap concerning current bioinformatics services related to miRNA-target interactions because it provides a tissue-specific context to each validated interaction and the type of interaction itself. miRTissue is easily browsable allowing the user to select miRNAs, genes, cancer types and tissue conditions. The results can be sorted according to p-values to immediately identify those interactions that are more likely to occur in a given tissue. miRTissue is available at http://tblab.pa.icar.cnr.it/mirtissue.html.

Published
2018
Full Text
View/download PDF

11. Deep learning models for bacteria taxonomic classification of metagenomic data

Author

Antonino Fiannaca, Laura La Paglia, Massimo La Rosa, Giosue’ Lo Bosco, Giovanni Renda, Riccardo Rizzo, Salvatore Gaglio, and Alfonso Urso

Subjects
Metagenomic, Classification, CNN, DBN, k-mer representation, Amplicon, Computer applications to medicine. Medical informatics, R858-859.7, Biology (General), QH301-705.5
Abstract

Abstract Background An open challenge in translational bioinformatics is the analysis of sequenced metagenomes from various environmental samples. Of course, several studies demonstrated the 16S ribosomal RNA could be considered as a barcode for bacteria classification at the genus level, but till now it is hard to identify the correct composition of metagenomic data from RNA-seq short-read data. 16S short-read data are generated using two next generation sequencing technologies, i.e. whole genome shotgun (WGS) and amplicon (AMP); typically, the former is filtered to obtain short-reads belonging to a 16S shotgun (SG), whereas the latter take into account only some specific 16S hypervariable regions. The above mentioned two sequencing technologies, SG and AMP, are used alternatively, for this reason in this work we propose a deep learning approach for taxonomic classification of metagenomic data, that can be employed for both of them. Results To test the proposed pipeline, we simulated both SG and AMP short-reads, from 1000 16S full-length sequences. Then, we adopted a k-mer representation to map sequences as vectors into a numerical space. Finally, we trained two different deep learning architecture, i.e., convolutional neural network (CNN) and deep belief network (DBN), obtaining a trained model for each taxon. We tested our proposed methodology to find the best parameters configuration, and we compared our results against the classification performances provided by a reference classifier for bacteria identification, known as RDP classifier. We outperformed the RDP classifier at each taxonomic level with both architectures. For instance, at the genus level, both CNN and DBN reached 91.3% of accuracy with AMP short-reads, whereas RDP classifier obtained 83.8% with the same data. Conclusions In this work, we proposed a 16S short-read sequences classification technique based on k-mer representation and deep learning architecture, in which each taxon (from phylum to genus) generates a classification model. Experimental results confirm the proposed pipeline as a valid approach for classifying bacteria sequences; for this reason, our approach could be integrated into the most common tools for metagenomic analysis. According to obtained results, it can be successfully used for classifying both SG and AMP data.

Published
2018
Full Text
View/download PDF

12. Transcriptomic Analyses Reveal 2 and 4 Family Members of Cytochromes P450 (CYP) Involved in LPS Inflammatory Response in Pharynx of Ciona robusta

Author

Aiti Vizzini, Angela Bonura, Laura La Paglia, Antonino Fiannaca, Massimo La Rosa, Alfonso Urso, Manuela Mauro, Mirella Vazzana, and Vincenzo Arizza

Subjects
NGS, cytochrome P450, miRNA, Ciona robusta, LPS, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Cytochromes P450 (CYP) are enzymes responsible for the biotransformation of most endogenous and exogenous agents. The expression of each CYP is influenced by a unique combination of mechanisms and factors including genetic polymorphisms, induction by xenobiotics, and regulation by cytokines and hormones. In recent years, Ciona robusta, one of the closest living relatives of vertebrates, has become a model in various fields of biology, in particular for studying inflammatory response. Using an in vivo LPS exposure strategy, next-generation sequencing (NGS) and qRT-PCR combined with bioinformatics and in silico analyses, compared whole pharynx transcripts from naïve and LPS-exposed C. robusta, and we provide the first view of cytochrome genes expression and miRNA regulation in the inflammatory response induced by LPS in a hematopoietic organ. In C. robusta, cytochromes belonging to 2B,2C, 2J, 2U, 4B and 4F subfamilies were deregulated and miRNA network interactions suggest that different conserved and species-specific miRNAs are involved in post-transcriptional regulation of cytochrome genes and that there could be an interplay between specific miRNAs regulating both inflammation and cytochrome molecules in the inflammatory response in C. robusta.

Published
2021
Full Text
View/download PDF

13. nRC: non-coding RNA Classifier based on structural features

Author

Antonino Fiannaca, Massimo La Rosa, Laura La Paglia, Riccardo Rizzo, and Alfonso Urso

Subjects
ncRNA, Classification, Structural features, Deep learning, Computer applications to medicine. Medical informatics, R858-859.7, Analysis, QA299.6-433
Abstract

Abstract Motivation Non-coding RNA (ncRNA) are small non-coding sequences involved in gene expression regulation of many biological processes and diseases. The recent discovery of a large set of different ncRNAs with biologically relevant roles has opened the way to develop methods able to discriminate between the different ncRNA classes. Moreover, the lack of knowledge about the complete mechanisms in regulative processes, together with the development of high-throughput technologies, has required the help of bioinformatics tools in addressing biologists and clinicians with a deeper comprehension of the functional roles of ncRNAs. In this work, we introduce a new ncRNA classification tool, nRC (non-coding RNA Classifier). Our approach is based on features extraction from the ncRNA secondary structure together with a supervised classification algorithm implementing a deep learning architecture based on convolutional neural networks. Results We tested our approach for the classification of 13 different ncRNA classes. We obtained classification scores, using the most common statistical measures. In particular, we reach an accuracy and sensitivity score of about 74%. Conclusion The proposed method outperforms other similar classification methods based on secondary structure features and machine learning algorithms, including the RNAcon tool that, to date, is the reference classifier. nRC tool is freely available as a docker image at https://hub.docker.com/r/tblab/nrc/ . The source code of nRC tool is also available at https://github.com/IcarPA-TBlab/nrc .

Published
2017
Full Text
View/download PDF

14. ceRNA Network Regulation of TGF-β, WNT, FOXO, Hedgehog Pathways in the Pharynx of Ciona robusta

Author

Aiti Vizzini, Angela Bonura, Laura La Paglia, Antonino Fiannaca, Massimo La Rosa, Alfonso Urso, and Vincenzo Arizza

Subjects
NGS, TGF-β, WNT, FOXO, miRNA, pseudogenes, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

The transforming growth factor-β (TGF-β) family of cytokines performs a multifunctional signaling, which is integrated and coordinated in a signaling network that involves other pathways, such as Wintless, Forkhead box-O (FOXO) and Hedgehog and regulates pivotal functions related to cell fate in all tissues. In the hematopoietic system, TGF-β signaling controls a wide spectrum of biological processes, from immune system homeostasis to the quiescence and self-renewal of hematopoietic stem cells (HSCs). Recently an important role in post-transcription regulation has been attributed to two type of ncRNAs: microRNAs and pseudogenes. Ciona robusta, due to its philogenetic position close to vertebrates, is an excellent model to investigate mechanisms of post-transcriptional regulation evolutionarily highly conserved in immune homeostasis. The combined use of NGS and bioinformatic analyses suggests that in the pharynx, the hematopoietic organ of Ciona robusta, the Tgf-β, Wnt, Hedgehog and FoxO pathways are involved in tissue homeostasis, as they are in human. Furthermore, ceRNA network interactions and 3′UTR elements analyses of Tgf-β, Wnt, Hedgehog and FoxO pathways genes suggest that different miRNAs conserved (cin-let-7d, cin-mir-92c, cin-mir-153), species-specific (cin-mir-4187, cin-mir-4011a, cin-mir-4056, cin-mir-4150, cin-mir-4189, cin-mir-4053, cin-mir-4016, cin-mir-4075), pseudogenes (ENSCING00000011392, ENSCING00000018651, ENSCING00000007698) and mRNA 3′UTR elements are involved in post-transcriptional regulation in an integrated way in C. robusta.

Published
2021
Full Text
View/download PDF

25. Supplementary Table 2 from T Cells Expressing Receptor Recombination/Revision Machinery Are Detected in the Tumor Microenvironment and Expanded in Genomically Over-unstable Models

Author

Claudio Tripodo, Mario P. Colombo, Alberto Bardelli, Giancarlo Pruneri, Claudia Chiodoni, Sabina Sangaletti, Serenella M. Pupa, Francesco Ferrari, Giulia Graziano, Alfonso M. Urso, Antonino Fiannaca, Laura La Paglia, Daniele Greco, Fabio Iannelli, Federica Zanardi, Vito Amodio, Daniele Lecis, Giovanni Germano, Massimo La Rosa, Valeria Cancila, and Gaia Morello

Abstract

Supplementary Table 2

Published
2023

26. Supplementary Table 1 from T Cells Expressing Receptor Recombination/Revision Machinery Are Detected in the Tumor Microenvironment and Expanded in Genomically Over-unstable Models

Author

Claudio Tripodo, Mario P. Colombo, Alberto Bardelli, Giancarlo Pruneri, Claudia Chiodoni, Sabina Sangaletti, Serenella M. Pupa, Francesco Ferrari, Giulia Graziano, Alfonso M. Urso, Antonino Fiannaca, Laura La Paglia, Daniele Greco, Fabio Iannelli, Federica Zanardi, Vito Amodio, Daniele Lecis, Giovanni Germano, Massimo La Rosa, Valeria Cancila, and Gaia Morello

Abstract

Supplementary Table 1

Published
2023

27. Supplementary Table 5 from T Cells Expressing Receptor Recombination/Revision Machinery Are Detected in the Tumor Microenvironment and Expanded in Genomically Over-unstable Models

Author

Claudio Tripodo, Mario P. Colombo, Alberto Bardelli, Giancarlo Pruneri, Claudia Chiodoni, Sabina Sangaletti, Serenella M. Pupa, Francesco Ferrari, Giulia Graziano, Alfonso M. Urso, Antonino Fiannaca, Laura La Paglia, Daniele Greco, Fabio Iannelli, Federica Zanardi, Vito Amodio, Daniele Lecis, Giovanni Germano, Massimo La Rosa, Valeria Cancila, and Gaia Morello

Abstract

Supplementary Table 5

Published
2023

28. Data from T Cells Expressing Receptor Recombination/Revision Machinery Are Detected in the Tumor Microenvironment and Expanded in Genomically Over-unstable Models

Author

Claudio Tripodo, Mario P. Colombo, Alberto Bardelli, Giancarlo Pruneri, Claudia Chiodoni, Sabina Sangaletti, Serenella M. Pupa, Francesco Ferrari, Giulia Graziano, Alfonso M. Urso, Antonino Fiannaca, Laura La Paglia, Daniele Greco, Fabio Iannelli, Federica Zanardi, Vito Amodio, Daniele Lecis, Giovanni Germano, Massimo La Rosa, Valeria Cancila, and Gaia Morello

Abstract

Tumors undergo dynamic immunoediting as part of a process that balances immunologic sensing of emerging neoantigens and evasion from immune responses. Tumor-infiltrating lymphocytes (TIL) comprise heterogeneous subsets of peripheral T cells characterized by diverse functional differentiation states and dependence on T-cell receptor (TCR) specificity gained through recombination events during their development. We hypothesized that within the tumor microenvironment (TME), an antigenic milieu and immunologic interface, tumor-infiltrating peripheral T cells could reexpress key elements of the TCR recombination machinery, namely, Rag1 and Rag2 recombinases and Tdt polymerase, as a potential mechanism involved in the revision of TCR specificity. Using two syngeneic invasive breast cancer transplantable models, 4T1 and TS/A, we observed that Rag1, Rag2, and Dntt in situ mRNA expression characterized rare tumor-infiltrating T cells. In situ expression of the transcripts was increased in coisogenic Mlh1-deficient tumors, characterized by genomic overinstability, and was also modulated by PD-1 immune-checkpoint blockade. Through immunolocalization and mRNA hybridization analyses, we detected the presence of rare TDT+RAG1/2+ cells populating primary tumors and draining lymph nodes in human invasive breast cancer. Analysis of harmonized single-cell RNA-sequencing data sets of human cancers identified a very small fraction of tumor-associated T cells, characterized by the expression of recombination/revision machinery transcripts, which on pseudotemporal ordering corresponded to differentiated effector T cells. We offer thought-provoking evidence of a TIL microniche marked by rare transcripts involved in TCR shaping.

Published
2023

29. Supplementary Figures 1-13 from T Cells Expressing Receptor Recombination/Revision Machinery Are Detected in the Tumor Microenvironment and Expanded in Genomically Over-unstable Models

Author

Claudio Tripodo, Mario P. Colombo, Alberto Bardelli, Giancarlo Pruneri, Claudia Chiodoni, Sabina Sangaletti, Serenella M. Pupa, Francesco Ferrari, Giulia Graziano, Alfonso M. Urso, Antonino Fiannaca, Laura La Paglia, Daniele Greco, Fabio Iannelli, Federica Zanardi, Vito Amodio, Daniele Lecis, Giovanni Germano, Massimo La Rosa, Valeria Cancila, and Gaia Morello

Abstract

Supplementary Figures and Legends

Published
2023

30. Supplementary Table 3 from T Cells Expressing Receptor Recombination/Revision Machinery Are Detected in the Tumor Microenvironment and Expanded in Genomically Over-unstable Models

Author

Claudio Tripodo, Mario P. Colombo, Alberto Bardelli, Giancarlo Pruneri, Claudia Chiodoni, Sabina Sangaletti, Serenella M. Pupa, Francesco Ferrari, Giulia Graziano, Alfonso M. Urso, Antonino Fiannaca, Laura La Paglia, Daniele Greco, Fabio Iannelli, Federica Zanardi, Vito Amodio, Daniele Lecis, Giovanni Germano, Massimo La Rosa, Valeria Cancila, and Gaia Morello

Abstract

Supplementary Table 3

Published
2023

42. miRTissue ce : extending miRTissue web service with the analysis of ceRNA-ceRNA interactions

Author

Laura La Paglia, Alfonso Urso, Massimo La Rosa, Riccardo Rizzo, and Antonino Fiannaca

Subjects
ceRNA interaction, miRNA-target interaction, miRNA sponge, Computational biology, Biology, lcsh:Computer applications to medicine. Medical informatics, Biochemistry, Transcriptome, Structural Biology, microRNA, Humans, Gene Regulatory Networks, RNA, Neoplasm, Molecular Biology, lcsh:QH301-705.5, Regulation of gene expression, Messenger RNA, Competing endogenous RNA, Applied Mathematics, Research, Translational medicine, RNA, TCGA, Prognosis, Computer Science Applications, Gene Expression Regulation, Neoplastic, MicroRNAs, lcsh:Biology (General), lcsh:R858-859.7, DNA microarray, Tumour
Abstract

Background Non-coding RNAs include different classes of molecules with regulatory functions. The most studied are microRNAs (miRNAs) that act directly inhibiting mRNA expression or protein translation through the interaction with a miRNAs-response element. Other RNA molecules participate in the complex network of gene regulation. They behave as competitive endogenous RNA (ceRNA), acting as natural miRNA sponges to inhibit miRNA functions and modulate the expression of RNA messenger (mRNA). It became evident that understanding the ceRNA–miRNA–mRNA crosstalk would increase the functional information across the transcriptome, contributing to identify new potential biomarkers for translational medicine. Results We present miRTissue ce, an improvement of our original miRTissue web service. By introducing a novel computational pipeline, miRTissue ce provides an easy way to search for ceRNA interactions in several cancer tissue types. Moreover it extends the functionalities of previous miRTissue release about miRNA-target interaction in order to provide a complete insight about miRNA mediated regulation processes. miRTissue ce is freely available at http://tblab.pa.icar.cnr.it/mirtissue.html. Conclusions The study of ceRNA networks and its dynamics in cancer tissue could be applied in many fields of translational biology, as the investigation of new cancer biomarker, both diagnostic and prognostic, and also in the investigation of new therapeutic strategies of intervention. In this scenario, miRTissue ce can offer a powerful instrument for the analysis and characterization of ceRNA-ceRNA interactions in different tissue types, representing a fundamental step in order to understand more complex regulation mechanisms.

Published
2020

43. ceRNA Network Regulation of TGF-β, WNT, FOXO, Hedgehog Pathways in the Pharynx of Ciona robusta

Author

Antonino Fiannaca, Vincenzo Arizza, Alfonso Urso, Massimo La Rosa, Angela Bonura, Laura La Paglia, Aiti Vizzini, Vizzini A., Bonura A., Paglia L.L., Fiannaca A., Rosa M.L., Urso A., Arizza V., Aiti Vizzini, Angela Bonura, Laura La Paglia, Antonino Fiannaca, Massimo la Rosa, Alfonso Urso, and Vincenzo Arizza

Subjects
0301 basic medicine, ascidian, pseudogene, pseudogenes, lcsh:Chemistry, Transforming Growth Factor beta, Protein Interaction Mapping, Homeostasis, RNA-Seq, lcsh:QH301-705.5, 3' Untranslated Regions, Spectroscopy, Tissue homeostasis, Forkhead Box Protein O1, Wnt signaling pathway, High-Throughput Nucleotide Sequencing, virus diseases, General Medicine, female genital diseases and pregnancy complications, Computer Science Applications, Cell biology, NGS, Stem cell, TGF-β, Cell fate determination, Biology, Catalysis, Article, Inorganic Chemistry, WNT, 03 medical and health sciences, microRNA, Animals, Cell Lineage, Hedgehog Proteins, TGF, Physical and Theoretical Chemistry, Molecular Biology, Hedgehog, neoplasms, miRNA, 030102 biochemistry & molecular biology, Competing endogenous RNA, Organic Chemistry, fungi, Computational Biology, Hematopoiesis, Wnt Proteins, MicroRNAs, 030104 developmental biology, lcsh:Biology (General), lcsh:QD1-999, Gene Expression Regulation, Immune System, Pharynx, FOXO, Ciona, Transforming growth factor
Abstract

The transforming growth factor-β (TGF-β) family of cytokines performs a multifunctional signaling, which is integrated and coordinated in a signaling network that involves other pathways, such as Wintless, Forkhead box-O (FOXO) and Hedgehog and regulates pivotal functions related to cell fate in all tissues. In the hematopoietic system, TGF-β signaling controls a wide spectrum of biological processes, from immune system homeostasis to the quiescence and self-renewal of hematopoietic stem cells (HSCs). Recently an important role in post-transcription regulation has been attributed to two type of ncRNAs: microRNAs and pseudogenes. Ciona robusta, due to its philogenetic position close to vertebrates, is an excellent model to investigate mechanisms of post-transcriptional regulation evolutionarily highly conserved in immune homeostasis. The combined use of NGS and bioinformatic analyses suggests that in the pharynx, the hematopoietic organ of Ciona robusta, the Tgf-β, Wnt, Hedgehog and FoxO pathways are involved in tissue homeostasis, as they are in human. Furthermore, ceRNA network interactions and 3′UTR elements analyses of Tgf-β, Wnt, Hedgehog and FoxO pathways genes suggest that different miRNAs conserved (cin-let-7d, cin-mir-92c, cin-mir-153), species-specific (cin-mir-4187, cin-mir-4011a, cin-mir-4056, cin-mir-4150, cin-mir-4189, cin-mir-4053, cin-mir-4016, cin-mir-4075), pseudogenes (ENSCING00000011392, ENSCING00000018651, ENSCING00000007698) and mRNA 3′UTR elements are involved in post-transcriptional regulation in an integrated way in C. robusta.

Published
2021
Full Text
View/download PDF

44. MiRNA therapeutics based on logic circuits of biological pathways

Author

Massimo La Rosa, Antonino Fiannaca, Alfonso Urso, Valeria Boscaino, Laura La Paglia, and Riccardo Rizzo

Subjects
Lung Neoplasms, Logic, Computer science, In silico, Cancer pathway, Boolean network, Logic circuit, Computational biology, lcsh:Computer applications to medicine. Medical informatics, Biochemistry, Biological pathway, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Structural Biology, In vivo, Carcinoma, Non-Small-Cell Lung, microRNA, medicine, Humans, Molecule, Computer Simulation, Antagomir, KEGG, Molecular Biology, Gene, lcsh:QH301-705.5, 030304 developmental biology, 0303 health sciences, Drug discovery, Research, Applied Mathematics, Cancer, RNA, Cancer Pathway, miRNA therapeutics, medicine.disease, In vitro, Computer Science Applications, Gene Expression Regulation, Neoplastic, MicroRNAs, chemistry, lcsh:Biology (General), 030220 oncology & carcinogenesis, Mutation, lcsh:R858-859.7, DNA microarray, Signal Transduction
Abstract

Background In silico experiments, with the aid of computer simulation, speed up the process of in vitro or in vivo experiments. Cancer therapy design is often based on signalling pathway. MicroRNAs (miRNA) are small non-coding RNA molecules. In several kinds of diseases, including cancer, hepatitis and cardiovascular diseases, they are often deregulated, acting as oncogenes or tumor suppressors. miRNA therapeutics is based on two main kinds of molecules injection: miRNA mimics, which consists of injection of molecules that mimic the targeted miRNA, and antagomiR, which consists of injection of molecules inhibiting the targeted miRNA. Nowadays, the research is focused on miRNA therapeutics. This paper addresses cancer related signalling pathways to investigate miRNA therapeutics. Results In order to prove our approach, we present two different case studies: non-small cell lung cancer and melanoma. KEGG signalling pathways are modelled by a digital circuit. A logic value of 1 is linked to the expression of the corresponding gene. A logic value of 0 is linked to the absence (not expressed) gene. All possible relationships provided by a signalling pathway are modelled by logic gates. Mutations, derived according to the literature, are introduced and modelled as well. The modelling approach and analysis are widely discussed within the paper. MiRNA therapeutics is investigated by the digital circuit analysis. The most effective miRNA and combination of miRNAs, in terms of reduction of pathogenic conditions, are obtained. A discussion of obtained results in comparison with literature data is provided. Results are confirmed by existing data. Conclusions The proposed study is based on drug discovery and miRNA therapeutics and uses a digital circuit simulation of a cancer pathway. Using this simulation, the most effective combination of drugs and miRNAs for mutated cancer therapy design are obtained and these results were validated by the literature. The proposed modelling and analysis approach can be applied to each human disease, starting from the corresponding signalling pathway.

Published
2019

47. 2,2’4,4’-Tetrabromodiphenyl Ether (PBDE-47) Modulates the Intracellular miRNA Profile, sEV Biogenesis and Their miRNA Cargo Exacerbating the LPS-Induced Pro-Inflammatory Response in THP-1 Macrophages

Author

Sabrina Picciotto, Alfonso Urso, Antonella Bongiovanni, Antonino Fiannaca, Daniele P. Romancino, Giorgia Adamo, Massimo La Rosa, Laura La Paglia, Fabio Cibella, Valeria Longo, Paolo Colombo, and Alessandra Longo

Subjects
0301 basic medicine, Lipopolysaccharides, endocrine system, flame retardant, LPS, THP-1 Cells, Population, Immunology, 010501 environmental sciences, 01 natural sciences, THP-1 macrophage, Biological pathway, 03 medical and health sciences, Extracellular Vesicles, Immune system, flame retardant THP-1 macrophage, microRNA, small extracellular vesicle, Halogenated Diphenyl Ethers, Immunology and Allergy, Macrophage, Humans, education, reproductive and urinary physiology, 0105 earth and related environmental sciences, Original Research, education.field_of_study, Innate immune system, Chemistry, Gene Expression Profiling, Macrophages, Computational Biology, RC581-607, cytokines, Cell biology, MicroRNAs, 030104 developmental biology, Gene Expression Regulation, Immunologic diseases. Allergy, Transcriptome, Intracellular, Biogenesis, Biomarkers
Abstract

The 2,2’4,4’-tetrabromodiphenyl ether (PBDE-47) is one of the most prominent PBDE congeners detected in the environment and in animal and human tissues. Animal model experiments suggested the occurrence of PBDE-induced immunotoxicity leading to different outcomes and recently we demonstrated that this substance can impair macrophage and basophil activities. In this manuscript, we decided to further examine the effects induced by PBDE-47 treatment on innate immune response by looking at the intracellular expression profile of miRNAs as well as the biogenesis, cargo content and activity of human M(LPS) macrophage cell-derived small extracellular vesicles (sEVs). Microarray and in silico analysis demonstrated that PBDE-47 can induce some epigenetic effects in M(LPS) THP-1 cells modulating the expression of a set of intracellular miRNAs involved in biological pathways regulating the expression of estrogen-mediated signaling and immune responses with particular reference to M1/M2 differentiation. In addition to the cell-intrinsic modulation of intracellular miRNAs, we demonstrated that PBDE-47 could also interfere with the biogenesis of sEVs increasing their number and selecting a de novo population of sEVs. Moreover, PBDE-47 induced the overload of specific immune related miRNAs in PBDE-47 derived sEVs. Finally, culture experiments with naïve M(LPS) macrophages demonstrated that purified PBDE-47 derived sEVs can modulate macrophage immune response exacerbating the LPS-induced pro-inflammatory response inducing the overexpression of the IL-6 and the MMP9 genes. Data from this study demonstrated that PBDE-47 can perturb the innate immune response at different levels modulating the intracellular expression of miRNAs but also interfering with the biogenesis, cargo content and functional activity of M(LPS) macrophage cell-derived sEVs.

Published
2021

48. T Cells Expressing Receptor Recombination/Revision Machinery Are Detected in the Tumor Microenvironment and Expanded in Genomically Over-unstable Models

Author

Alfonso Urso, Daniele Greco, Vito Amodio, Claudia Chiodoni, Daniele Lecis, Laura La Paglia, Mario P. Colombo, Fabio Iannelli, Francesco Ferrari, Serenella M. Pupa, Giancarlo Pruneri, Federica Zanardi, Antonino Fiannaca, Giovanni Germano, Sabina Sangaletti, Claudio Tripodo, Massimo La Rosa, Valeria Cancila, Alberto Bardelli, Giulia Graziano, Gaia Morello, Morello G., Cancila V., La Rosa M., Germano G., Lecis D., Amodio V., Zanardi F., Iannelli F., Greco D., La Paglia L., Fiannaca A., Urso A.M., Graziano G., Ferrari F., Pupa S.M., Sangaletti S., Chiodoni C., Pruneri G., Bardelli A., Colombo M.P., and Tripodo C.

Subjects
Cancer Research, Datasets as Topic, T-Cell Antigen Receptor Specificity, CD8-Positive T-Lymphocytes, Mice, 0302 clinical medicine, Tumor Microenvironment, Recombinase, T-cell receptor, Breast, RNA-Seq, T Cells, T Cell Receptor, Recombination/Revision Machinery, Tumor Microenvironment, Cancer, Aged, 80 and over, Mice, Knockout, Recombination, Genetic, Nuclear Proteins, hemic and immune systems, Middle Aged, DNA-Binding Proteins, 030220 oncology & carcinogenesis, Female, Single-Cell Analysis, MutL Protein Homolog 1, Adult, Immunology, Receptors, Antigen, T-Cell, T cells, Breast Neoplasms, chemical and pharmacologic phenomena, Settore MED/08 - Anatomia Patologica, Biology, Recombination-activating gene, 03 medical and health sciences, Lymphocytes, Tumor-Infiltrating, Immune system, Antigen, DNA Nucleotidylexotransferase, RAG2, Animals, Humans, Settore MED/05 - Patologia Clinica, Aged, Homeodomain Proteins, Tumor microenvironment, Disease Models, Animal, Immunoediting, Cancer research, DNA Damage, 030215 immunology
Abstract

Tumors undergo dynamic immunoediting as part of a process that balances immunologic sensing of emerging neoantigens and evasion from immune responses. Tumor-infiltrating lymphocytes (TIL) comprise heterogeneous subsets of peripheral T cells characterized by diverse functional differentiation states and dependence on T-cell receptor (TCR) specificity gained through recombination events during their development. We hypothesized that within the tumor microenvironment (TME), an antigenic milieu and immunologic interface, tumor-infiltrating peripheral T cells could reexpress key elements of the TCR recombination machinery, namely, Rag1 and Rag2 recombinases and Tdt polymerase, as a potential mechanism involved in the revision of TCR specificity. Using two syngeneic invasive breast cancer transplantable models, 4T1 and TS/A, we observed that Rag1, Rag2, and Dntt in situ mRNA expression characterized rare tumor-infiltrating T cells. In situ expression of the transcripts was increased in coisogenic Mlh1-deficient tumors, characterized by genomic overinstability, and was also modulated by PD-1 immune-checkpoint blockade. Through immunolocalization and mRNA hybridization analyses, we detected the presence of rare TDT+RAG1/2+ cells populating primary tumors and draining lymph nodes in human invasive breast cancer. Analysis of harmonized single-cell RNA-sequencing data sets of human cancers identified a very small fraction of tumor-associated T cells, characterized by the expression of recombination/revision machinery transcripts, which on pseudotemporal ordering corresponded to differentiated effector T cells. We offer thought-provoking evidence of a TIL microniche marked by rare transcripts involved in TCR shaping.

Published
2021

49. Direct RNA nanopore sequencing of SARS-CoV-2 extracted from critical material from swabs

Author

Walter Mazzucco, Francesco Vitale, Alfonso Urso, Alessandra Casuccio, Gaia Morello, Rosario Maugeri, Valeria Cancila, Antonino Fiannaca, Carmelo Massimo Maida, Alessandro Gulino, Fabio Tramuto, Beatrice Belmonte, Claudio Tripodo, Massimo La Rosa, Davide Vacca, Gerardo Iacopino, and Laura La Paglia

Subjects
Systematic error, Coronavirus disease 2019 (COVID-19), Complementary DNA, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Minion, RNA, Computational biology, Nanopore sequencing, Biology, Gene
Abstract

BackgroundIn consideration of the increasing prevalence of COVID-19 cases in several countries and the resulting demand for unbiased sequencing approaches, we performed a direct RNA sequencing experiment using critical oropharyngeal swab samples collected from Italian patients infected with SARS-CoV-2 from the Palermo region in Sicily.MethodsHere, we identified the sequences SARS-CoV-2 directly in RNA extracted from critical samples using the Oxford Nanopore MinION technology without prior cDNA retro-transcription.ResultsUsing an appropriate bioinformatics pipeline, we could identify mutations in the nucleocapisid (N) gene, which have been reported previously in studies conducted in other countries.ConclusionTo the best of our knowledge, the technique used in this study has not been used for SARS-CoV-2 detection previously owing to the difficulties in the extraction of RNA of sufficient quantity and quality from routine oropharyngeal swabs.Despite these limitations, this approach provides the advantages of true native RNA sequencing, and does not include amplification steps that could introduce systematic errors.This study can provide novel information relevant to the current strategies adopted in SARS-CoV-2 next-generation sequencing.We deposited the gene sequence in the NCBI database under the following URL:https://www.ncbi.nlm.nih.gov/nuccore/MT457389

Published
2020

50. BITS2019: the sixteenth annual meeting of the Italian society of bioinformatics

Author

Antonino Fiannaca, Giosuè Lo Bosco, Laura La Paglia, Riccardo Rizzo, Alfonso Urso, Massimo La Rosa, Urso A., Fiannaca A., La Rosa M., La Paglia L., Lo Bosco G., and Rizzo R.

Subjects
Introduction, History, Scope (project management), Settore INF/01 - Informatica, Bioinformatics, Applied Mathematics, media_common.quotation_subject, MEDLINE, Computational Biology, lcsh:Computer applications to medicine. Medical informatics, Biochemistry, Computer Science Applications, BITS2019, Presentation, lcsh:Biology (General), Italy, Structural Biology, lcsh:R858-859.7, Humans, lcsh:QH301-705.5, Molecular Biology, BITS, media_common
Abstract

The 16th Annual Meeting of the Bioinformatics Italian Society was held in Palermo, Italy, on June 26-28, 2019. More than 80 scientific contributions were presented, including 4 keynote lectures, 31 oral communications and 49 posters. Also, three workshops were organised before and during the meeting. Full papers from some of the works presented in Palermo were submitted for this Supplement of BMC Bioinformatics. Here, we provide an overview of meeting aims and scope. We also shortly introduce selected papers that have been accepted for publication in this Supplement, for a complete presentation of the outcomes of the meeting.

Published
2020

Catalog

Books, media, physical & digital resources
See catalog results