Your search keyword '"Mainetti, Marta"' showing total 10 results

1. Identification of a Kupffer cell subset capable of reverting the T cell dysfunction induced by hepatocellular priming

Author

De Simone, Giorgia, Andreata, Francesco, Bleriot, Camille, Fumagalli, Valeria, Laura, Chiara, Garcia-Manteiga, José M., Di Lucia, Pietro, Gilotto, Stefano, Ficht, Xenia, De Ponti, Federico F., Bono, Elisa B., Giustini, Leonardo, Ambrosi, Gioia, Mainetti, Marta, Zordan, Paola, Bénéchet, Alexandre P., Ravà, Micol, Chakarov, Svetoslav, Moalli, Federica, Bajenoff, Marc, Guidotti, Luca G., Ginhoux, Florent, and Iannacone, Matteo

Published

2021

2. Immunosurveillance of the Liver by Intravascular Effector CD8+ T Cells

Author

Guidotti, Luca G., Inverso, Donato, Sironi, Laura, Di Lucia, Pietro, Fioravanti, Jessica, Ganzer, Lucia, Fiocchi, Amleto, Vacca, Maurizio, Aiolfi, Roberto, Sammicheli, Stefano, Mainetti, Marta, Cataudella, Tiziana, Raimondi, Andrea, Gonzalez-Aseguinolaza, Gloria, Protzer, Ulrike, Ruggeri, Zaverio M., Chisari, Francis V., Isogawa, Masanori, Sitia, Giovanni, and Iannacone, Matteo

Published

2015

3. Administration of aerosolized SARS-CoV-2 to K18-hACE2 mice uncouples respiratory infection from fatal neuroinvasion

Author

Fumagalli, Valeria, primary, Ravà, Micol, additional, Marotta, Davide, additional, Di Lucia, Pietro, additional, Laura, Chiara, additional, Sala, Eleonora, additional, Grillo, Marta, additional, Bono, Elisa, additional, Giustini, Leonardo, additional, Perucchini, Chiara, additional, Mainetti, Marta, additional, Sessa, Alessandro, additional, Garcia-Manteiga, José M., additional, Donnici, Lorena, additional, Manganaro, Lara, additional, Delbue, Serena, additional, Broccoli, Vania, additional, De Francesco, Raffaele, additional, D’Adamo, Patrizia, additional, Kuka, Mirela, additional, Guidotti, Luca G., additional, and Iannacone, Matteo, additional

Published

2022

4. Controlled administration of aerosolized SARS-CoV-2 to K18-hACE2 transgenic mice uncouples respiratory infection and anosmia from fatal neuroinvasion

Author

Fumagalli, Valeria, primary, Ravà, Micol, additional, Marotta, Davide, additional, Di Lucia, Pietro, additional, Laura, Chiara, additional, Sala, Eleonora, additional, Grillo, Marta, additional, Bono, Elisa, additional, Giustini, Leonardo, additional, Perucchini, Chiara, additional, Mainetti, Marta, additional, Sessa, Alessandro, additional, Garcia-Manteiga, José M., additional, Donnici, Lorena, additional, Manganaro, Lara, additional, Delbue, Serena, additional, Broccoli, Vania, additional, De Francesco, Raffaele, additional, D’Adamo, Patrizia, additional, Kuka, Mirela, additional, Guidotti, Luca G., additional, and Iannacone, Matteo, additional

Published

2021

5. Inflammatory monocytes hinder antiviral B cell responses

Author

Kuka, Mirela, primary, Sammicheli, Stefano, additional, Di Lucia, Pietro, additional, De Oya, Nereida Jimenez, additional, De Giovanni, Marco, additional, Fioravanti, Jessica, additional, Cristofani, Claudia, additional, Maganuco, Carmela G., additional, Fallet, Benedict, additional, Ganzer, Lucia, additional, Sironi, Laura, additional, Mainetti, Marta, additional, Ostuni, Renato, additional, Larimore, Kevin, additional, Greenberg, Philip D., additional, de la Torre, Juan Carlos, additional, Guidotti, Luca G, additional, and Iannacone, Matteo, additional

Published

2017

6. Inflammatory monocytes hinder antiviral B cell responses

Author

Sammicheli, Stefano, primary, Kuka, Mirela, additional, Di Lucia, Pietro, additional, de Oya, Nereida Jiménez, additional, De Giovanni, Marco, additional, Fioravanti, Jessica, additional, Cristofani, Claudia, additional, Maganuco, Carmela G., additional, Fallet, Benedict, additional, Ganzer, Lucia, additional, Sironi, Laura, additional, Mainetti, Marta, additional, Ostuni, Renato, additional, Larimore, Kevin, additional, Greenberg, Philip D., additional, de la Torre, Juan Carlos, additional, Guidotti, Luca G., additional, and Iannacone, Matteo, additional

Published

2016

7. Immunosurveillance of the Liver by Intravascular Effector CD8 + T Cells

Author

Guidotti, Luca G., primary, Inverso, Donato, additional, Sironi, Laura, additional, Di Lucia, Pietro, additional, Fioravanti, Jessica, additional, Ganzer, Lucia, additional, Fiocchi, Amleto, additional, Vacca, Maurizio, additional, Aiolfi, Roberto, additional, Sammicheli, Stefano, additional, Mainetti, Marta, additional, Cataudella, Tiziana, additional, Raimondi, Andrea, additional, Gonzalez-Aseguinolaza, Gloria, additional, Protzer, Ulrike, additional, Ruggeri, Zaverio M., additional, Chisari, Francis V., additional, Isogawa, Masanori, additional, Sitia, Giovanni, additional, and Iannacone, Matteo, additional

Published

2015

8. Administration of aerosolized SARS-CoV-2 to K18-hACE2 mice uncouples respiratory infection from fatal neuroinvasion

Author

Valeria Fumagalli, Micol Ravà, Davide Marotta, Pietro Di Lucia, Chiara Laura, Eleonora Sala, Marta Grillo, Elisa Bono, Leonardo Giustini, Chiara Perucchini, Marta Mainetti, Alessandro Sessa, José M. Garcia-Manteiga, Lorena Donnici, Lara Manganaro, Serena Delbue, Vania Broccoli, Raffaele De Francesco, Patrizia D’Adamo, Mirela Kuka, Luca G. Guidotti, Matteo Iannacone, Fumagalli, Valeria, Ravà, Micol, Marotta, Davide, Di Lucia, Pietro, Laura, Chiara, Sala, Eleonora, Grillo, Marta, Bono, Elisa, Giustini, Leonardo, Perucchini, Chiara, Mainetti, Marta, Sessa, Alessandro, Garcia-Manteiga, José M, Donnici, Lorena, Manganaro, Lara, Delbue, Serena, Broccoli, Vania, De Francesco, Raffaele, D'Adamo, Patrizia, Kuka, Mirela, Guidotti, Luca G, and Iannacone, Matteo

Subjects

Male, Keratin-18, SARS-CoV-2, viruses, Immunology, COVID-19, Epithelial Cells, Mice, Transgenic, Nasal Sprays, General Medicine, Virus Replication, Disease Models, Animal, Mice, Administration, Inhalation, Animals, Humans, Female, Angiotensin-Converting Enzyme 2, Encephalitis, Viral, Promoter Regions, Genetic, Transcriptome, Lung

Abstract

The development of a tractable small animal model faithfully reproducing human coronavirus disease 2019 pathogenesis would arguably meet a pressing need in biomedical research. Thus far, most investigators have used transgenic mice expressing the human ACE2 in epithelial cells (K18-hACE2 transgenic mice) that are intranasally instilled with a liquid severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) suspension under deep anesthesia. Unfortunately, this experimental approach results in disproportionate high central nervous system infection leading to fatal encephalitis, which is rarely observed in humans and severely limits this model’s usefulness. Here, we describe the use of an inhalation tower system that allows exposure of unanesthetized mice to aerosolized virus under controlled conditions. Aerosol exposure of K18-hACE2 transgenic mice to SARS-CoV-2 resulted in robust viral replication in the respiratory tract, anosmia, and airway obstruction but did not lead to fatal viral neuroinvasion. When compared with intranasal inoculation, aerosol infection resulted in a more pronounced lung pathology including increased immune infiltration, fibrin deposition, and a transcriptional signature comparable to that observed in SARS-CoV-2–infected patients. This model may prove useful for studies of viral transmission, disease pathogenesis (including long-term consequences of SARS-CoV-2 infection), and therapeutic interventions.

Published

2021

9. Inflammatory monocytes hinder antiviral B cell responses

Author

Kevin Larimore, Benedict Fallet, Laura Sironi, Juan Carlos de la Torre, Philip D. Greenberg, Jessica Fioravanti, Pietro Di Lucia, Marta Mainetti, Stefano Sammicheli, Marco De Giovanni, Claudia Cristofani, Mirela Kuka, Renato Ostuni, Carmela G. Maganuco, Lucia Ganzer, Luca G. Guidotti, Nereida Jiménez de Oya, Matteo Iannacone, Sammicheli, S, Kuka, M, Di Lucia, P, de Oya, N, De Giovanni, M, Fioravanti, J, Cristofani, C, Maganuco, C, Fallet, B, Ganzer, L, Sironi, L, Mainetti, M, Ostuni, R, Larimore, K, Greenberg, P, de la Torre, J, Guidotti, L, Iannacone, M, Sammicheli, Stefano, Kuka, Mirela, Di Lucia, Pietro, de Oya, Nereida Jimenez, De Giovanni, Marco, Fioravanti, Jessica, Cristofani, Claudia, Maganuco, Carmela G, Fallet, Benedict, Ganzer, Lucia, Sironi, Laura, Mainetti, Marta, Ostuni, Renato, Larimore, Kevin, Greenberg, Philip D, de la Torre, Juan Carlo, Guidotti, Luca G, and Iannacone, Matteo

Subjects

0301 basic medicine, T cell, Immunology, Lymphocytic choriomeningitis, Article, Virus, 03 medical and health sciences, 0302 clinical medicine, Interferon, medicine, Immunology and Allergy, Neutralizing antibody, Lymph node, B cell, biology, General Medicine, medicine.disease, Virology, 030104 developmental biology, medicine.anatomical_structure, biology.protein, Antibody, Inflammatory monocytes, B cell, intravital microscopy, 030215 immunology, medicine.drug

Abstract

Antibodies are critical for protection against viral infections. However, several viruses, such as lymphocytic choriomeningitis virus (LCMV), avoid the induction of early protective antibody responses by poorly understood mechanisms. We analyzed the spatiotemporal dynamics of B cell activation to show that, upon subcutaneous infection, LCMV-specific B cells readily relocate to the interfollicular and T cell areas of draining lymph nodes, where they extensively interact with CD11b+Ly6Chi inflammatory monocytes. These myeloid cells were recruited to lymph nodes draining LCMV infection sites in a type I interferon– and CCR2-dependent fashion, and they suppressed antiviral B cell responses by virtue of their ability to produce nitric oxide. Depletion of inflammatory monocytes, inhibition of their lymph node recruitment, or impairment of their nitric oxide–producing ability enhanced LCMV-specific B cell survival and led to robust neutralizing antibody production. Our results identify inflammatory monocytes as critical gatekeepers that restrain antiviral B cell responses and suggest that certain viruses take advantage of these cells to prolong their persistence within the host.

Published

2016

10. Immunosurveillance of the liver by intravascular effector CD8+ T cells

Author

Zaverio M. Ruggeri, Giovanni Sitia, Andrea Raimondi, Stefano Sammicheli, Maurizio Vacca, Donato Inverso, Masanori Isogawa, Matteo Iannacone, Ulrike Protzer, Jessica Fioravanti, Luca G. Guidotti, Amleto Fiocchi, Marta Mainetti, Gloria González-Aseguinolaza, Tiziana Cataudella, Laura Sironi, Lucia Ganzer, Pietro Di Lucia, Roberto Aiolfi, Francis V. Chisari, Guidotti, L, Inverso, D, Sironi, L, Di Lucia, P, Fioravanti, J, Ganzer, L, Fiocchi, A, Vacca, M, Aiolfi, R, Sammicheli, S, Mainetti, M, Cataudella, T, Raimondi, A, Gonzalez Aseguinolaza, G, Protzer, U, Ruggeri, Z, Chisari, F, Isogawa, M, Sitia, G, Iannacone, M, Guidotti, Luca G., Inverso, Donato, Sironi, Laura, Di Lucia, Pietro, Fioravanti, Jessica, Ganzer, Lucia, Fiocchi, Amleto, Vacca, Maurizio, Aiolfi, Roberto, Sammicheli, Stefano, Mainetti, Marta, Cataudella, Tiziana, Raimondi, Andrea, Gonzalez-Aseguinolaza, Gloria, Protzer, Ulrike, Ruggeri, Zaverio M., Chisari, Francis V., Isogawa, Masanori, Sitia, Giovanni, and Iannacone, Matteo

Subjects

Liver Cirrhosis, Hepatitis B virus, Liver Cirrhosi, CD8-Positive T-Lymphocytes, Biology, General Biochemistry, Genetics and Molecular Biology, Pathogenesis, Mice, Platelet Adhesiveness, Antigen, Cell Movement, Monitoring, Immunologic, medicine, Animals, Specific Pathogen-Free Organism, Cytotoxic T cell, Hepatocyte, Hyaluronic Acid, Platelet Adhesivene, Endothelial Cell, Biochemistry, Genetics and Molecular Biology (all), Effector, Biochemistry, Genetics and Molecular Biology(all), Animal, CD44, Endothelial Cells, CD8-Positive T-Lymphocyte, Hepatitis B viru, Hepatitis B, medicine.disease, 3. Good health, Cell biology, Specific Pathogen-Free Organisms, Immunosurveillance, Mice, Inbred C57BL, Liver, Immunology, Hepatocytes, biology.protein, CD8

Abstract

SummaryEffector CD8+ T cells (CD8 TE) play a key role during hepatotropic viral infections. Here, we used advanced imaging in mouse models of hepatitis B virus (HBV) pathogenesis to understand the mechanisms whereby these cells home to the liver, recognize antigens, and deploy effector functions. We show that circulating CD8 TE arrest within liver sinusoids by docking onto platelets previously adhered to sinusoidal hyaluronan via CD44. After the initial arrest, CD8 TE actively crawl along liver sinusoids and probe sub-sinusoidal hepatocytes for the presence of antigens by extending cytoplasmic protrusions through endothelial fenestrae. Hepatocellular antigen recognition triggers effector functions in a diapedesis-independent manner and is inhibited by the processes of sinusoidal defenestration and capillarization that characterize liver fibrosis. These findings reveal the dynamic behavior whereby CD8 TE control hepatotropic pathogens and suggest how liver fibrosis might reduce CD8 TE immune surveillance toward infected or transformed hepatocytes.

Published

2015