Your search keyword '"Giuditta Comolli"' showing total 4 results

1. Author response for 'Impaired <scp>Virus‐Specific</scp> T Cell Responses in Patients with Myeloproliferative Neoplasms Treated with Ruxolitinib'

Author

Cristina Favaron, Virginia Valeria Ferretti, Luca Arcaini, Daniele Vanni, Emanuela Sant’Antonio, Giuditta Comolli, Elisa Rumi, Chiara Trotti, Ilaria Carola Casetti, Milena Furione, Fausto Baldanti, Michele Ciboddo, Irene Cassaniti, Mario Cazzola, Daniela Pietra, and Chiara Cavalloni

Subjects

Ruxolitinib, medicine.anatomical_structure, business.industry, T cell, Immunology, medicine, In patient, business, Virus, medicine.drug

Published

2020

2. Detection of Epstein-Barr virus-specific memory CD4+T cells using a peptide-based cultured enzyme-linked immunospot assay

Author

Paola Zelini, Sandra A. Calarota, Fausto Baldanti, Lorenzo Minoli, Antonella Chiesa, and Giuditta Comolli

Subjects

Adult, CD4-Positive T-Lymphocytes, Male, Enzyme-Linked Immunospot Assay, Epstein-Barr Virus Infections, Herpesvirus 4, Human, Immunology, Immunodominance, Biology, medicine.disease_cause, Virus, Immunocompromised Host, Interferon-gamma, Immune system, Antigen, Interferon, hemic and lymphatic diseases, medicine, Humans, Immunology and Allergy, Antigens, Viral, Cells, Cultured, Aged, ELISPOT, Reproducibility of Results, Original Articles, Middle Aged, Epstein–Barr virus, Virology, BZLF1, Heart Transplantation, Female, Immunocompetence, Immunologic Memory, Biomarkers, Immunosuppressive Agents, Interferon-gamma Release Tests, Lung Transplantation, medicine.drug

Abstract

Approaches to evaluate T-cell responses to Epstein–Barr virus (EBV) include enzyme-linked immunospot (ELISPOT), which quantifies cells capable of immediate interferon-γ secretion upon antigen stimulation. However, evaluation of expandable EBV-specific memory T cells in an ELISPOT format has not been described previously. We quantified EBV-specific T-cell precursors with high proliferative capacity by using a peptide-based cultured interferon-γ ELISPOT assay. Standard and cultured ELISPOT responses to overlapping peptide pools (15-mers overlapping by 11 amino acids) covering the lytic (BZLF1 and BMRF1) and latent (EBNA1, EBNA3a, EBNA3b, EBNA3c, LMP1 and LMP2) EBV proteins were evaluated in 20 healthy subjects with remote EBV infection and, for comparison, in four solid organ transplant recipients. Cultured ELISPOT responses to both lytic and latent EBV antigens were significantly higher than standard ELISPOT responses. The distribution of EBV-specific T-cell responses detected in healthy virus carriers showed more consistent cultured ELISPOT responses compared with standard ELISPOT responses. T-cell responses quantified by cultured ELISPOT were mainly mediated by CD4+ T cells and a marked pattern of immunodominance to latent-phase antigens (EBNA1 > EBNA3 family antigens > LMP2 > LMP1) was shown. Both the magnitude and distribution of EBV-specific T-cell responses were altered in solid organ transplant recipients; in particular, cultured ELISPOT responses were almost undetectable in a lung-transplanted patient with EBV-associated diseases. Analysis of T-cell responses to EBV by ELISPOT assays might provide new insights into the pathogenesis of EBV-related diseases and serve as new tools in the monitoring of EBV infection in immunocompromised patients.

Published

2013

3. Simultaneous quantification of human cytomegalovirus (HCMV)-specific CD4+ and CD8+T cells by a novel method using monocyte-derived HCMV-infected immature dendritic cells

Author

Chiara Fornara, Daniele Lilleri, Giuseppe Gerna, Laura Lozza, Elena Percivalle, Giuditta Comolli, and Maria Grazia Revello

Subjects

Human cytomegalovirus, viruses, T cell, Immunology, Cytomegalovirus, CD8-Positive T-Lymphocytes, Biology, Lymphocyte Activation, Peripheral blood mononuclear cell, Flow cytometry, Immunocompromised Host, Interferon-gamma, Immune system, medicine, Humans, Immunology and Allergy, Cytotoxic T cell, Lymphocyte Count, medicine.diagnostic_test, Reproducibility of Results, virus diseases, Dendritic Cells, biochemical phenomena, metabolism, and nutrition, Flow Cytometry, medicine.disease, Virology, Coculture Techniques, CD4 Lymphocyte Count, medicine.anatomical_structure, CD8, Ex vivo

Abstract

Immature dendritic cells (DC) infected with an endotheliotropic (Huv(+)) and leukotropic (Leuk(+)) human cytomegalovirus (HCMV) strain were used as a stimulus to determine functional HCMV-specific CD4(+) and CD8(+) T cells. Infected DC were co-cultured with autologous peripheral blood mononuclear cells and both arms of T cell activation were determined by intracellular flow cytometry analysis of IFN-gamma production. Efficient stimulation of HCMV-specific CD4(+) and CD8(+) T cell responses was achieved using DC productively infected with Huv(+) Leuk(+) VR1814 strain. On the contrary, a negligible CD8(+) T cell response was obtained when HCMV strains unable to infect DC, or DC pulsed with inactivated viral antigen, were used. HCMV specificity of the T cell response was confirmed in 46 HCMV-seropositive and 8 HCMV-seronegative healthy subjects. A cut-off was established to discriminate between immune and nonimmune subjects. The novel ex vivo assay enables the simultaneous evaluation of HCMV-specific CD4(+) and CD8(+) T cell responses and may be a useful tool for monitoring HCMV-specific T cell activity in immunocompromised transplanted patients.

Published

2005

4. High efficiency lentiviral gene delivery in non-dividing cells by deoxynucleoside treatment

Author

Elisabetta Ravot, Franco Lori, Julianna Lisziewicz, and Giuditta Comolli

Subjects

Time Factors, Transgene, Genetic enhancement, Genetic Vectors, Tetrazolium Salts, Gene delivery, Biology, 3T3 cells, Cell Line, Mice, Transduction (genetics), Multiplicity of infection, Transduction, Genetic, Drug Discovery, Genetics, medicine, Animals, Humans, Molecular Biology, Genetics (clinical), Reporter gene, Dose-Response Relationship, Drug, Deoxyribose, Macrophages, Lentivirus, Gene Transfer Techniques, HIV, 3T3 Cells, Molecular biology, Thiazoles, Retroviridae, medicine.anatomical_structure, Cell culture, Molecular Medicine, Cell Division

Abstract

Background Gene therapy has recently been advanced by the development of HIV-based vectors that are able to transduce some non-dividing cells. The manipulation of most non-dividing cells remains, however, scarcely efficient. One of the biological mechanisms postulated to prevent powerful transduction of quiescent cells by lentiviral vectors is the paucity of deoxynucleotides (dNTPs). In this study, a novel delivery strategy is developed to improve significantly the efficiency of HIV-based vectors in transducing non-dividing cells. This approach is based on increasing the intracellular availability of dNTPs by incubating target cells with the dNTP precursors, deoxynucleosides (dNSs). Methods Mature human monocyte-derived macrophages (14–21 days old) were transduced at a low multiplicity of infection (MOI) of HIV vectors carrying a reporter gene. dNSs were added to the medium during transduction (5 mM dNS) and immediately before post-transduction culture (2.5 mM dNS). Macrophages were harvested 2–7 days after transduction and assayed for transgene expression by cytofluorimetry. Results The addition of dNS to the medium significantly enhanced the efficiency of transduction of human macrophages by HIV-based vectors. The percentage of cells expressing the transgene rose up to 50% in the presence of dNS, increasing the basal transduction levels up to 35-fold (average=10.8-fold). Furthermore, treatment with dNTP precursors compensated for the wide inter-donor variability, allowing the highest enhancement effects in donors with the lowest basal transduction efficiencies. Conclusions This is the first demonstration that a single treatment of non-dividing target cells with exogenous dNS can enhance the efficiency of lentiviral-mediated transduction of cells, allowing for high efficiency gene transfer. The effects of dNTP precursors compensated for both the poor basal levels and the wide inter-donor variability, two major limitations for the transduction of non-dividing cells. Macrophages are a representative model of cells whose permissiveness to gene delivery was increased up to levels suitable for genetic manipulation applications. This simple approach might be transferred to a broader range of quiescent cell types that are scarcely susceptible to lentiviral-based gene delivery due to low dNTP levels. Copyright © 2002 John Wiley & Sons, Ltd.

Published

2002