Your search keyword '"Giannese, Francesca"' showing total 20 results

1. Dual spatial host-bacterial gene expression in Mycobacterium abscessus respiratory infections

Author

Di Marco, Federico, Nicola, Francesca, Giannese, Francesca, Saliu, Fabio, Tonon, Giovanni, de Pretis, Stefano, Cirillo, Daniela M., and Lorè, Nicola I.

Published

2024

2. Dendritic cell-targeted therapy expands CD8 T cell responses to bona-fide neoantigens in lung tumors

Author

López, Lucía, Morosi, Luciano Gastón, La Terza, Federica, Bourdely, Pierre, Rospo, Giuseppe, Amadio, Roberto, Piperno, Giulia Maria, Russo, Valentina, Volponi, Camilla, Vodret, Simone, Joshi, Sonal, Giannese, Francesca, Lazarevic, Dejan, Germano, Giovanni, Stoitzner, Patrizia, Bardelli, Alberto, Dalod, Marc, Pace, Luigia, Caronni, Nicoletta, Guermonprez, Pierre, and Benvenuti, Federica

Published

2024

3. Into the multiverse: advances in single-cell multiomic profiling

Author

Ogbeide, Silvia, Giannese, Francesca, Mincarelli, Laura, and Macaulay, Iain C.

Published

2022

4. Chromatin Velocity reveals epigenetic dynamics by single-cell profiling of heterochromatin and euchromatin

Author

Tedesco, Martina, Giannese, Francesca, Lazarević, Dejan, Giansanti, Valentina, Rosano, Dalia, Monzani, Silvia, Catalano, Irene, Grassi, Elena, Zanella, Eugenia R., Botrugno, Oronza A., Morelli, Leonardo, Panina Bordignon, Paola, Caravagna, Giulio, Bertotti, Andrea, Martino, Gianvito, Aldrighetti, Luca, Pasqualato, Sebastiano, Trusolino, Livio, Cittaro, Davide, and Tonon, Giovanni

Published

2022

5. Neural precursor cells tune striatal connectivity through the release of IGFBPL1

Author

Butti, Erica, Cattaneo, Stefano, Bacigaluppi, Marco, Cambiaghi, Marco, Scotti, Giulia Maria, Brambilla, Elena, Ruffini, Francesca, Sferruzza, Giacomo, Ripamonti, Maddalena, Simeoni, Fabio, Cacciaguerra, Laura, Zanghì, Aurora, Quattrini, Angelo, Fesce, Riccardo, Panina-Bordignon, Paola, Giannese, Francesca, Cittaro, Davide, Kuhlmann, Tanja, D’Adamo, Patrizia, Rocca, Maria Assunta, Taverna, Stefano, and Martino, Gianvito

Published

2022

6. Transcriptional dynamics of induced pluripotent stem cell differentiation into β cells reveals full endodermal commitment and homology with human islets

Author

Pellegrini, Silvia, Chimienti, Raniero, Scotti, Giulia Maria, Giannese, Francesca, Lazarevic, Dejan, Manenti, Fabio, Poggi, Gaia, Lombardo, Marta Tiffany, Cospito, Alessandro, Nano, Rita, Piemonti, Lorenzo, and Sordi, Valeria

Published

2021

7. Single-Cell RNA Sequencing Shows that Circulating Monocytes Enriched in IFN Signaling Are Associated with Nontuberculous Mycobacteria Pulmonary Disease in Cystic Fibrosis.

Author

Lorè, Nicola I., Gramegna, Andrea, de Pretis, Stefano, Di Marco, Federico, Giannese, Francesca, Saliu, Fabio, Oneto, Caterina, Contarini, Martina, Cariani, Lisa, Blasi, Francesco, and Cirillo, Daniela M.

Subjects

MONONUCLEAR leukocytes, GENE expression, DENSITY gradient centrifugation, KILLER cells, GENE expression profiling, EXOCRINE pancreatic insufficiency

Abstract

This letter discusses a study that used single-cell RNA sequencing to analyze the gene expression profiles of peripheral blood mononuclear cells (PBMCs) in people with cystic fibrosis (pwCFs) who have different stages of Mycobacterium abscessus lung disease. The study identified 10 distinct cell populations within the PBMCs and found that there was no significant cellular variation among pwCFs with different risks of M. abscessus lung disease. However, the CD14+ monocyte cluster in the MABSC-PD group displayed the highest number of upregulated genes compared to other cellular clusters. The study suggests that single-cell transcriptomic profiling of PBMCs could be used to identify diagnostic signatures or therapeutic targets for pwCFs with NTM infection. [Extracted from the article]

Published

2024

8. Microglia-specific IL-10 gene delivery inhibits neuroinflammation and neurodegeneration in a mouse model of Parkinson's disease.

Author

Bido, Simone, Nannoni, Melania, Muggeo, Sharon, Gambarè, Diana, Ruffini, Giorgia, Bellini, Edoardo, Passeri, Laura, Iaia, Silvia, Luoni, Mirko, Provinciali, Martino, Giannelli, Serena Gea, Giannese, Francesca, Lazarevic, Dejan, Gregori, Silvia, and Broccoli, Vania

Subjects

REGULATORY T cells, T cell differentiation, PARKINSON'S disease, T cells, TRANSGENE expression

Abstract

Neuroinflammation plays a key role in exacerbating dopaminergic neuron (DAN) loss in Parkinson's disease (PD). However, it remains unresolved how to effectively normalize this immune response given the complex interplay between the innate and adaptive immune responses occurring within a scarcely accessible organ like the brain. In this study, we uncovered a consistent correlation between neuroinflammation, brain parenchymal lymphocytes, and DAN loss among several commonly used mouse models of PD generated by a variety of pathological triggers. We validated a viral therapeutic approach for the microglia-specific expression of interleukin 10 (IL-10) to selectively mitigate the excessive inflammatory response. We found that this approach induced a local nigral IL-10 release that alleviated DAN loss in mice overexpressing the human SNCA gene in the substantia nigra. Single-cell transcriptomics revealed that IL-10 induced the emergence of a molecularly distinct microglial cell state, enriched in markers of cell activation with enhanced expression of prophagocytic pathways. IL-10 promoted microglial phagocytotic and clearance activities in vitro and reduced αSYN aggregate burden in the nigral area in mice overexpressing SNCA. Furthermore, IL-10 stimulated the differentiation of CD4+ T lymphocytes into active T regulatory cells and promoted inhibitory characteristics in CD8+ T cells. In summary, our results show that local and microglia-specific IL-10 transduction elicited strong immunomodulation in the nigral tissue with enhanced suppression of lymphocyte toxicity that was associated with DAN survival. These results offer insights into the therapeutic benefits of IL-10 and showcase a promising gene delivery approach that could minimize undesired side effects. Editor's summary: Reactive microglia contribute to Parkinson's disease (PD) pathogenesis. Certain cytokines such as interleukin-10 (IL-10) can restore microglia homeostasis, but targeting maladaptive immune responses without inducing systemic side effects remains a challenge. Bido et al. adopted a microRNA-detargeting system that inhibits the expression of a transgene in all but the cell type of choice. Using this system for lentiviral-mediated, local, and microglia-specific expression of IL-10 in PD mice led to reduced neuropathology and the emergence of microglial subtypes with enhanced clearance signatures. These results suggest the therapeutic potential of cell type–specific gene delivery for PD. —Daniela Neuhofer [ABSTRACT FROM AUTHOR]

Published

2024

9. Aging, inflammation and DNA damage in the somatic testicular niche with idiopathic germ cell aplasia

Author

Alfano, Massimo, Tascini, Anna Sofia, Pederzoli, Filippo, Locatelli, Irene, Nebuloni, Manuela, Giannese, Francesca, Garcia-Manteiga, Jose Manuel, Tonon, Giovanni, Amodio, Giada, Gregori, Silvia, Agresti, Alessandra, Montorsi, Francesco, and Salonia, Andrea

Published

2021

10. Scalable integration of multiomic single-cell data using generative adversarial networks.

Author

Giansanti, Valentina, Giannese, Francesca, Botrugno, Oronza A, Gandolfi, Giorgia, Balestrieri, Chiara, Antoniotti, Marco, Tonon, Giovanni, and Cittaro, Davide

Subjects

*GENERATIVE adversarial networks, *DATA integration, *SOURCE code, *PROBABILISTIC generative models, *PROTEOMICS, *PAIRED comparisons (Mathematics)

Abstract

Motivation Single-cell profiling has become a common practice to investigate the complexity of tissues, organs, and organisms. Recent technological advances are expanding our capabilities to profile various molecular layers beyond the transcriptome such as, but not limited to, the genome, the epigenome, and the proteome. Depending on the experimental procedure, these data can be obtained from separate assays or the very same cells. Yet, integration of more than two assays is currently not supported by the majority of the computational frameworks avaiable. Results We here propose a Multi-Omic data integration framework based on Wasserstein Generative Adversarial Networks suitable for the analysis of paired or unpaired data with a high number of modalities (>2). At the core of our strategy is a single network trained on all modalities together, limiting the computational burden when many molecular layers are evaluated. Availability and implementation Source code of our framework is available at https://github.com/vgiansanti/MOWGAN [ABSTRACT FROM AUTHOR]

Published

2024

11. MSH6 gene pathogenic variant identified in familial pancreatic cancer in the absence of colon cancer

Author

Mannucci, Alessandro, Zuppardo, Raffaella A., Crippa, Stefano, Carrera, Paola, Patricelli, Maria G., Russo Raucci, Annalisa, Calabrese, Federica, Lazarevic, Dejan, Giannese, Francesca, Tonon, Giovanni, Ferrari, Maurizio, Testoni, Pier A., and Cavestro, Giulia Martina

Published

2020

12. Enhancing clinical potential of liquid biopsy through a multi-omic approach: A systematic review.

Author

Di Sario, Gianna, Rossella, Valeria, Famulari, Elvira Smeralda, Maurizio, Aurora, Lazarevic, Dejan, Giannese, Francesca, and Felici, Claudia

Subjects

TUMOR markers, BIOPSY, CIRCULATING tumor DNA, LIQUIDS, MEDICAL screening

Abstract

In the last years, liquid biopsy gained increasing clinical relevance for detecting and monitoring several cancer types, being minimally invasive, highly informative and replicable over time. This revolutionary approach can be complementary and may, in the future, replace tissue biopsy, which is still considered the gold standard for cancer diagnosis. "Classical" tissue biopsy is invasive, often cannot provide sufficient bioptic material for advanced screening, and can provide isolated information about disease evolution and heterogeneity. Recent literature highlighted how liquid biopsy is informative of proteomic, genomic, epigenetic, and metabolic alterations. These biomarkers can be detected and investigated using single-omic and, recently, in combination through multi-omic approaches. This review will provide an overview of the most suitable techniques to thoroughly characterize tumor biomarkers and their potential clinical applications, highlighting the importance of an integrated multi-omic, multi-analyte approach. Personalized medical investigations will soon allow patients to receive predictable prognostic evaluations, early disease diagnosis, and subsequent ad hoc treatments. [ABSTRACT FROM AUTHOR]

Published

2023

13. PD09-03 ASSESSING EPIGENETIC FEATURES ASSOCIATED WITH LYMPH NODE METASTASES IN PROSTATE CANCER.

Author

Bandini, Marco, Zaurito, Paolo, Barletta, Francesco, Cirulli, Giuseppe Ottone, Lucianò, Roberta, Giannese, Francesca, Scotti, Giulia Maria, Oneto, Caterina, Stabile, Armando, Mazzone, Elio, Cucchiara, Vito, Sorce, Gabriele, Tenace, Nazario Pio, Scarfò, Federico, Brembilla, Giorgio, Esposito, Antonio, Morelli, Marco, Lazarevic, Dejan, De Cobelli, Francesco, and Doglioni, Claudio

Subjects

LYMPHATIC metastasis, METASTASIS, EPIGENETICS, PROSTATE cancer

Published

2024

14. Structural basis for substrate specificity in group I nucleoside hydrolase

Author

Iovane, Elena, Giabbai, Barbara, Muzzolini, Laura, Matafora, Vittoria, Fornili, Arianna, Minici, Claudia, Giannese, Francesca, and Degano, Massimo

Subjects

Escherichia coli -- Genetic aspects, Hydrolases -- Genetic aspects, Enzymes -- Genetic aspects, Hydrolysis -- Research, X-ray crystallography -- Usage, Biological sciences, Chemistry

Abstract

Cryotrapping and X-ray crystallography were used to characterize the binding interactions between the slowly hydrolyzed substrate inosine and the Escherichia coli pyrimidine-specific nucloeside hydrolase (NH) YeiK. The results provided direct evidence for the distinct subsets of amino acid residues which are involved in the hydrolysis of purine or pyrimidine nucleosides in group I NHs.

Published

2008

15. Structures of purine nucleosidase from Trypanosoma brucei bound to isozyme-specific trypanocidals and a novel metalorganic inhibitor.

Author

Giannese, Francesca, Berg, Maya, Van der Veken, Pieter, Castagna, Valeria, Tornaghi, Paola, Augustyns, Koen, and Degano, Massimo

Subjects

*NUCLEOSIDASES, *TRYPANOSOMA brucei, *ORGANOMETALLIC compounds, *METAL ions, *ENZYMATIC analysis

Abstract

Sleeping sickness is a deadly disease that primarily affects sub-Saharan Africa and is caused by protozoan parasites of the Trypanosoma genus. Trypanosomes are purine auxotrophs and their uptake pathway has long been appreciated as an attractive target for drug design. Recently, one tight-binding competitive inhibitor of the trypanosomal purine-specific nucleoside hydrolase (IAGNH) showed remarkable trypanocidal activity in a murine model of infection. Here, the enzymatic characterization of T. brucei brucei IAGNH is presented, together with its high-resolution structures in the unliganded form and in complexes with different inhibitors, including the trypanocidal compound UAMC-00363. A description of the crucial contacts that account for the high-affinity inhibition of IAGNH by iminoribitol-based compounds is provided and the molecular mechanism underlying the conformational change necessary for enzymatic catalysis is identified. It is demonstrated for the first time that metalorganic complexes can compete for binding at the active site of nucleoside hydrolase enzymes, mimicking the positively charged transition state of the enzymatic reaction. Moreover, we show that divalent metal ions can act as noncompetitive IAGNH inhibitors, stabilizing a nonproductive conformation of the catalytic loop. These results open a path for rational improvement of the potency and the selectivity of existing compounds and suggest new scaffolds that may be used as blueprints for the design of novel antitrypanosomal compounds. [ABSTRACT FROM AUTHOR]

Published

2013

16. Evolutionary fingerprints of EMT in pancreatic cancers.

Author

Perelli L, Zhang L, Mangiameli S, Russell AJC, Giannese F, Peng F, Carbone F, Le C, Khan H, Citron F, Soeung M, Lam TNA, Lundgren S, Zhu C, Catania D, Feng N, Gurreri E, Sgambato A, Tortora G, Draetta GF, Tonon G, Futreal A, Giuliani V, Carugo A, Viale A, Heffernan TP, Wang L, Cittaro D, Chen F, and Genovese G

Abstract

Mesenchymal plasticity has been extensively described in advanced and metastatic epithelial cancers; however, its functional role in malignant progression, metastatic dissemination and therapy response is controversial. More importantly, the role of epithelial mesenchymal transition (EMT) and cell plasticity in tumor heterogeneity, clonal selection and clonal evolution is poorly understood. Functionally, our work clarifies the contribution of EMT to malignant progression and metastasis in pancreatic cancer. We leveraged ad hoc somatic mosaic genome engineering, lineage tracing and ablation technologies and dynamic genetic reporters to trace and ablate tumor-specific lineages along the phenotypic spectrum of epithelial to mesenchymal plasticity. The experimental evidences clarify the essential contribution of mesenchymal lineages to pancreatic cancer evolution and metastatic dissemination. Spatial genomic analysis combined with single cell transcriptomic and epigenomic profiling of epithelial and mesenchymal lineages reveals that EMT promotes with the emergence of chromosomal instability (CIN). Specifically tumor lineages with mesenchymal features display highly conserved patterns of genomic evolution including complex structural genomic rearrangements and chromotriptic events. Genetic ablation of mesenchymal lineages robustly abolished these mutational processes and evolutionary patterns, as confirmed by cross species analysis of pancreatic and other human epithelial cancers. Mechanistically, we discovered that malignant cells with mesenchymal features display increased chromatin accessibility, particularly in the pericentromeric and centromeric regions, which in turn results in delayed mitosis and catastrophic cell division. Therefore, EMT favors the emergence of high-fitness tumor cells, strongly supporting the concept of a cell-state, lineage-restricted patterns of evolution, where cancer cell sub-clonal speciation is propagated to progenies only through restricted functional compartments. Restraining those evolutionary routes through genetic ablation of clones capable of mesenchymal plasticity and extinction of the derived lineages completely abrogates the malignant potential of one of the most aggressive form of human cancer.

Published

2023

17. In Vitro Selection of Engineered Transcriptional Repressors for Targeted Epigenetic Silencing.

Author

Migliara A, Cappelluti MA, Giannese F, Valsoni S, Coglot A, Merelli I, Cittaro D, and Lombardo A

Subjects

Humans, Transcription Factors metabolism, Gene Silencing, DNA genetics, CRISPR-Cas Systems, Gene Editing methods, Epigenesis, Genetic

Abstract

Gene inactivation is instrumental to study gene function and represents a promising strategy for the treatment of a broad range of diseases. Among traditional technologies, RNA interference suffers from partial target abrogation and the requirement for life-long treatments. In contrast, artificial nucleases can impose stable gene inactivation through induction of a DNA double strand break (DSB), but recent studies are questioning the safety of this approach. Targeted epigenetic editing via engineered transcriptional repressors (ETRs) may represent a solution, as a single administration of specific ETR combinations can lead to durable silencing without inducing DNA breaks. ETRs are proteins containing a programmable DNA-binding domain (DBD) and effectors from naturally occurring transcriptional repressors. Specifically, a combination of three ETRs equipped with the KRAB domain of human ZNF10, the catalytic domain of human DNMT3A and human DNMT3L, was shown to induce heritable repressive epigenetic states on the ETR-target gene. The hit-and-run nature of this platform, the lack of impact on the DNA sequence of the target, and the possibility to revert to the repressive state by DNA demethylation on demand, make epigenetic silencing a game-changing tool. A critical step is the identification of the proper ETRs' position on the target gene to maximize on-target and minimize off-target silencing. Performing this step in the final ex vivo or in vivo preclinical setting can be cumbersome. Taking the CRISPR/catalytically dead Cas9 system as a paradigmatic DBD for ETRs, this paper describes a protocol consisting of the in vitro screen of guide RNAs (gRNAs) coupled to the triple-ETR combination for efficient on-target silencing, followed by evaluation of the genome-wide specificity profile of top hits. This allows for reduction of the initial repertoire of candidate gRNAs to a short list of promising ones, whose complexity is suitable for their final evaluation in the therapeutically relevant setting of interest.

Published

2023

18. Analyzing genomic and epigenetic profiles in single cells by hybrid transposase (scGET-seq).

Author

Cittaro D, Lazarević D, Tonon G, and Giannese F

Abstract

scGET-seq simultaneously profiles euchromatin and heterochromatin. scGET-seq exploits the concurrent action of transposase Tn5 and its hybrid form TnH, which targets H3K9me3 domains. Here we present a step-by-step protocol to profile single cells by scGET-seq using a 10× Chromium Controller. We describe steps for transposomes preparation and validation. We detail nuclei preparation and transposition, followed by encapsulation, library preparation, sequencing, and data analysis. For complete details on the use and execution of this protocol, please refer to Tedesco et al. (2022) 1 and de Pretis and Cittaro (2022). 2 ., Competing Interests: Declaration of interests F.G., D.L., D.C., and G.T. have submitted a patent application (PCT WO2022167665), pending, covering TnH., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2023

19. Conserved DNA Methylation Signatures in Early Maternal Separation and in Twins Discordant for CO 2 Sensitivity.

Author

Giannese F, Luchetti A, Barbiera G, Lampis V, Zanettini C, Knudsen GP, Scaini S, Lazarevic D, Cittaro D, D'Amato FR, and Battaglia M

Subjects

Animals, Humans, Hydrogen-Ion Concentration, Mice, Twins, Monozygotic, Brain drug effects, Brain pathology, Carbon Dioxide metabolism, DNA Methylation, Epigenesis, Genetic

Abstract

Respiratory and emotional responses to blood-acidifying inhalation of CO 2 are markers of some human anxiety disorders, and can be enhanced by repeatedly cross-fostering (RCF) mouse pups from their biological mother to unrelated lactating females. Yet, these dynamics remain poorly understood. We show RCF-associated intergenerational transmission of CO 2 sensitivity in normally-reared mice descending from RCF-exposed females, and describe the accompanying alterations in brain DNA methylation patterns. These epigenetic signatures were compared to DNA methylation profiles of monozygotic twins discordant for emotional reactivity to a CO 2 challenge. Altered methylation was consistently associated with repeated elements and transcriptional regulatory regions among RCF-exposed animals, their normally-reared offspring, and humans with CO 2 hypersensitivity. In both species, regions bearing differential methylation were associated with neurodevelopment, circulation, and response to pH acidification processes, and notably included the ASIC2 gene. Our data show that CO 2 hypersensitivity is associated with specific methylation clusters and genes that subserve chemoreception and anxiety. The methylation status of genes implicated in acid-sensing functions can inform etiological and therapeutic research in this field.

Published

2018

20. Evaluation of nucleoside hydrolase inhibitors for treatment of African trypanosomiasis.

Author

Berg M, Kohl L, Van der Veken P, Joossens J, Al-Salabi MI, Castagna V, Giannese F, Cos P, Versées W, Steyaert J, Grellier P, Haemers A, Degano M, Maes L, de Koning HP, and Augustyns K

Subjects

Adenosine chemistry, Adenosine pharmacokinetics, Animals, Antiprotozoal Agents chemistry, Carrier Proteins metabolism, Gene Knockdown Techniques, Melarsoprol chemistry, Mice, Models, Chemical, N-Glycosyl Hydrolases genetics, Pentamidine chemistry, RNA, Small Interfering, Trypanosoma brucei brucei enzymology, Trypanosoma brucei brucei genetics, Trypanosomiasis, African metabolism, Adenosine analogs & derivatives, Antiprotozoal Agents pharmacokinetics, N-Glycosyl Hydrolases antagonists & inhibitors, Trypanosoma brucei brucei drug effects, Trypanosomiasis, African drug therapy

Abstract

In this paper, we present the biochemical and biological evaluation of N-arylmethyl-substituted iminoribitol derivatives as potential chemotherapeutic agents against trypanosomiasis. Previously, a library of 52 compounds was designed and synthesized as potent and selective inhibitors of Trypanosoma vivax inosine-adenosine-guanosine nucleoside hydrolase (IAG-NH). However, when the compounds were tested against bloodstream-form Trypanosoma brucei brucei, only one inhibitor, N-(9-deaza-adenin-9-yl)methyl-1,4-dideoxy-1,4-imino-d-ribitol (UAMC-00363), displayed significant activity (mean 50% inhibitory concentration [IC(50)] +/- standard error, 0.49 +/- 0.31 microM). Validation in an in vivo model of African trypanosomiasis showed promising results for this compound. Several experiments were performed to investigate why only UAMC-00363 showed antiparasitic activity. First, the compound library was screened against T. b. brucei IAG-NH and inosine-guanosine nucleoside hydrolase (IG-NH) to confirm the previously demonstrated inhibitory effects of the compounds on T. vivax IAG-NH. Second, to verify the uptake of these compounds by T. b. brucei, their affinities for the nucleoside P1 and nucleoside/nucleobase P2 transporters of T. b. brucei were tested. Only UAMC-00363 displayed significant affinity for the P2 transporter. It was also shown that UAMC-00363 is concentrated in the cell via at least one additional transporter, since P2 knockout mutants of T. b. brucei displayed no resistance to the compound. Consequently, no cross-resistance to the diamidine or the melaminophenyl arsenical classes of trypanocides is expected. Third, three enzymes of the purine salvage pathway of procyclic T. b. brucei (IAG-NH, IG-NH, and methylthioadenosine phosphorylase [MTAP]) were investigated using RNA interference. The findings from all these studies showed that it is probably not sufficient to target only the nucleoside hydrolase activity to block the purine salvage pathway of T. b. brucei and that, therefore, it is possible that UAMC-00363 acts on an additional target.

Published

2010