Your search keyword '"Arenaccio, Claudia"' showing total 5 results

1. N-Terminal Fatty Acids of NEFMUT Are Required for the CD8+ T-Cell Immunogenicity of In Vivo Engineered Extracellular Vesicles

Author

Chiozzini, Chiara, primary, Manfredi, Francesco, additional, Arenaccio, Claudia, additional, Ferrantelli, Flavia, additional, Leone, Patrizia, additional, and Federico, Maurizio, additional

Published

2020

2. The CD8+ T Cell-Mediated Immunity Induced by HPV-E6 Uploaded in Engineered Exosomes Is Improved by ISCOMATRIXTM Adjuvant

Author

Manfredi, Francesco, primary, di Bonito, Paola, additional, Ridolfi, Barbara, additional, Anticoli, Simona, additional, Arenaccio, Claudia, additional, Chiozzini, Chiara, additional, Baz Morelli, Adriana, additional, and Federico, Maurizio, additional

Published

2016

3. The CD8+ T Cell-Mediated Immunity Induced by HPV-E6 Uploaded in Engineered Exosomes Is Improved by ISCOMATRIXTM Adjuvant

Author

Chiara Chiozzini, Simona Anticoli, Claudia Arenaccio, Francesco Manfredi, Adriana Baz Morelli, Maurizio Federico, Paola Di Bonito, Barbara Ridolfi, Manfredi, Francesco, di Bonito, Paola, Ridolfi, Barbara, Anticoli, Simona, Arenaccio, Claudia, Chiozzini, Chiara, Baz Morelli, Adriana, and Federico, Maurizio

Subjects

0301 basic medicine, Immunogen, medicine.medical_treatment, T cell, Immunology, lcsh:Medicine, exosomes, Biology, Article, 03 medical and health sciences, 0302 clinical medicine, Immune system, Antigen, adjuvant, Drug Discovery, medicine, Cytotoxic T cell, Pharmacology (medical), Pharmacology, Nef, lcsh:R, HPV-E6, CD8+ T immune response, Microvesicles, 030104 developmental biology, Infectious Diseases, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Adjuvant, CD8

Abstract

We recently described the induction of an efficient CD8⁺ T cell-mediated immune response against a tumor-associated antigen (TAA) uploaded in engineered exosomes used as an immunogen delivery tool. This immune response cleared tumor cells inoculated after immunization, and controlled the growth of tumors implanted before immunization. We looked for new protocols aimed at increasing the CD8⁺ T cell specific response to the antigen uploaded in engineered exosomes, assuming that an optimized CD8⁺ T cell immune response would correlate with a more effective depletion of tumor cells in the therapeutic setting. By considering HPV-E6 as a model of TAA, we found that the in vitro co-administration of engineered exosomes and ISCOMATRIX(TM) adjuvant, i.e., an adjuvant composed of purified ISCOPREP(TM) saponin, cholesterol, and phospholipids, led to a stronger antigen cross-presentation in both B- lymphoblastoid cell lines ( and monocyte-derived immature dendritic cells compared with that induced by the exosomes alone. Consistently, the co-inoculation in mice of ISCOMATRIX(TM) adjuvant and engineered exosomes induced a significant increase of TAA-specific CD8⁺ T cells compared to mice immunized with the exosomes alone. This result holds promise for effective usage of exosomes as well as alternative nanovesicles in anti-tumor therapeutic approaches.

Published

2016

4. N-Terminal Fatty Acids of NEF MUT Are Required for the CD8 + T-Cell Immunogenicity of In Vivo Engineered Extracellular Vesicles.

Author

Chiozzini C, Manfredi F, Arenaccio C, Ferrantelli F, Leone P, and Federico M

Abstract

We recently described a cytotoxic CD8 + T lymphocyte (CTL) vaccine platform based on the intramuscular (i.m.) injection of DNA eukaryotic vectors expressing antigens of interest fused at the C-terminus of HIV-1 Nef mut , i.e., a functionally defective mutant that is incorporated at quite high levels into exosomes/extracellular vesicles (EVs). This system has been proven to elicit strong CTL immunity against a plethora of both viral and tumor antigens, as well as inhibit both transplantable and orthotopic tumors in mice. However, a number of open issues remain regarding the underlying mechanism. Here we provide evidence that hindering the uploading into EVs of Nef mut -derived products by removing the Nef mut N-terminal fatty acids leads to a dramatic reduction of the downstream antigen-specific CD8 + T-cell activation after i.m. injection of DNA vectors in mice. This result formally demonstrates that the generation of engineered EVs is part of the mechanism underlying the in vivo induced CD8 + T-cell immunogenicity. Gaining new insights on the EV-based vaccine platform can be relevant in view of its possible translation into the clinic to counteract both chronic and acute infections as well as tumors.

Published

2020

5. The CD8⁺ T Cell-Mediated Immunity Induced by HPV-E6 Uploaded in Engineered Exosomes Is Improved by ISCOMATRIX TM Adjuvant.

Author

Manfredi F, di Bonito P, Ridolfi B, Anticoli S, Arenaccio C, Chiozzini C, Baz Morelli A, and Federico M

Abstract

We recently described the induction of an efficient CD8⁺ T cell-mediated immune response against a tumor-associated antigen (TAA) uploaded in engineered exosomes used as an immunogen delivery tool. This immune response cleared tumor cells inoculated after immunization, and controlled the growth of tumors implanted before immunization. We looked for new protocols aimed at increasing the CD8⁺ T cell specific response to the antigen uploaded in engineered exosomes, assuming that an optimized CD8⁺ T cell immune response would correlate with a more effective depletion of tumor cells in the therapeutic setting. By considering HPV-E6 as a model of TAA, we found that the in vitro co-administration of engineered exosomes and ISCOMATRIX TM adjuvant, i.e., an adjuvant composed of purified ISCOPREP TM saponin, cholesterol, and phospholipids, led to a stronger antigen cross-presentation in both B- lymphoblastoid cell lines ( and monocyte-derived immature dendritic cells compared with that induced by the exosomes alone. Consistently, the co-inoculation in mice of ISCOMATRIX TM adjuvant and engineered exosomes induced a significant increase of TAA-specific CD8⁺ T cells compared to mice immunized with the exosomes alone. This result holds promise for effective usage of exosomes as well as alternative nanovesicles in anti-tumor therapeutic approaches., Competing Interests: The authors declare no conflict of interest.

Published

2016