Your search keyword '"Alfredo, Nicosia"' showing total 5 results

1. Corrigendum: Improved memory CD8 T cell response to delayed vaccine boost is associated with a distinct molecular signature

Author

Ambra Natalini, Sonia Simonetti, Gabriele Favaretto, Lorenzo Lucantonio, Giovanna Peruzzi, Miguel Muñoz-Ruiz, Gavin Kelly, Alessandra M. Contino, Roberta Sbrocchi, Simone Battella, Stefania Capone, Antonella Folgori, Alfredo Nicosia, Angela Santoni, Adrian C. Hayday, and Francesca Di Rosa

Subjects

CD8 T cells, memory, prime-boost interval, transcriptomic profile, vaccination, Immunologic diseases. Allergy, RC581-607

Published

2023

2. Adenovirus Encoded Adjuvant (AdEnA) anti-CTLA-4, a novel strategy to improve Adenovirus based vaccines against infectious diseases and cancer

Author

Anna Morena D’Alise, Linda Nocchi, Irene Garzia, Laura Seclì, Luigia Infante, Fulvia Troise, Gabriella Cotugno, Simona Allocca, Giuseppina Romano, Armin Lahm, Guido Leoni, Emanuele Sasso, Elisa Scarselli, and Alfredo Nicosia

Subjects

vaccine, genetic adjuvants, immune response, cancer, infectious disease, neoantigens, Immunologic diseases. Allergy, RC581-607

Abstract

IntroductionVirus vectored genetic vaccines (Vvgv) represent a promising approach for eliciting immune protection against infectious diseases and cancer. However, at variance with classical vaccines to date, no adjuvant has been combined with clinically approved genetic vaccines, possibly due to the detrimental effect of the adjuvant-induced innate response on the expression driven by the genetic vaccine vector. We reasoned that a potential novel approach to develop adjuvants for genetic vaccines would be to “synchronize” in time and space the activity of the adjuvant with that of the vaccine.MethodsTo this aim, we generated an Adenovirus vector encoding a murine anti-CTLA-4 monoclonal antibody (Ad-9D9) as a genetic adjuvant for Adenovirus based vaccines.ResultsThe co-delivery of Ad-9D9 with an Adeno-based COVID-19 vaccine encoding the Spike protein resulted in stronger cellular and humoral immune responses. In contrast, only a modest adjuvant effect was achieved when combining the vaccine with the same anti-CTLA-4 in its proteinaceous form. Importantly, the administration of the adjuvant vector at different sites of the vaccine vector abrogates the immunostimulatory effect. We showed that the adjuvant activity of Ad-α-CTLA-4 is independent from the vaccine antigen as it improved the immune response and efficacy of an Adenovirus based polyepitope vaccine encoding tumor neoantigens.DiscussionOur study demonstrated that the combination of Adenovirus Encoded Adjuvant (AdEnA) with an Adeno-encoded antigen vaccine enhances immune responses to viral and tumor antigens, representing a potent approach to develop more effective genetic vaccines.

Published

2023

3. Improved memory CD8 T cell response to delayed vaccine boost is associated with a distinct molecular signature

Author

Ambra Natalini, Sonia Simonetti, Gabriele Favaretto, Lorenzo Lucantonio, Giovanna Peruzzi, Miguel Muñoz-Ruiz, Gavin Kelly, Alessandra M. Contino, Roberta Sbrocchi, Simone Battella, Stefania Capone, Antonella Folgori, Alfredo Nicosia, Angela Santoni, Adrian C. Hayday, and Francesca Di Rosa

Subjects

CD8 T cells, memory, prime-boost interval, transcriptomic profile, vaccination, Immunologic diseases. Allergy, RC581-607

Abstract

Effective secondary response to antigen is a hallmark of immunological memory. However, the extent of memory CD8 T cell response to secondary boost varies at different times after a primary response. Considering the central role of memory CD8 T cells in long-lived protection against viral infections and tumors, a better understanding of the molecular mechanisms underlying the changing responsiveness of these cells to antigenic challenge would be beneficial. We examined here primed CD8 T cell response to boost in a BALB/c mouse model of intramuscular vaccination by priming with HIV-1 gag-encoding Chimpanzee adenovector, and boosting with HIV-1 gag-encoding Modified Vaccinia virus Ankara. We found that boost was more effective at day(d)100 than at d30 post-prime, as evaluated at d45 post-boost by multi-lymphoid organ assessment of gag-specific CD8 T cell frequency, CD62L-expression (as a guide to memory status) and in vivo killing. RNA-sequencing of splenic gag-primed CD8 T cells at d100 revealed a quiescent, but highly responsive signature, that trended toward a central memory (CD62L+) phenotype. Interestingly, gag-specific CD8 T cell frequency selectively diminished in the blood at d100, relative to the spleen, lymph nodes and bone marrow. These results open the possibility to modify prime/boost intervals to achieve an improved memory CD8 T cell secondary response.

Published

2023

4. A Novel Vaccine Strategy Employing Serologically Different Chimpanzee Adenoviral Vectors for the Prevention of HIV-1 and HCV Coinfection

Author

Felicity Hartnell, Anthony Brown, Stefania Capone, Jakub Kopycinski, Carly Bliss, Shokouh Makvandi-Nejad, Leo Swadling, Emma Ghaffari, Paola Cicconi, Mariarosaria Del Sorbo, Roberta Sbrocchi, Ilaria Esposito, Ventzislav Vassilev, Paula Marriott, Clair M. Gardiner, Ciaran Bannan, Colm Bergin, Matthias Hoffmann, Bethany Turner, Alfredo Nicosia, Antonella Folgori, Tomáš Hanke, Eleanor Barnes, and Lucy Dorrell

Subjects

HIV-1, HCV (hepatitis C virus), vaccine, coadministration, clinical trial, conserved region, Immunologic diseases. Allergy, RC581-607

Abstract

Background: Nearly 3 million people worldwide are coinfected with HIV and HCV. Affordable strategies for prevention are needed. We developed a novel vaccination regimen involving replication-defective and serologically distinct chimpanzee adenovirus (ChAd3, ChAd63) vector priming followed by modified vaccinia Ankara (MVA) boosts, for simultaneous delivery of HCV non-structural (NSmut) and HIV-1 conserved (HIVconsv) region immunogens.Methods: We conducted a phase I trial in which 33 healthy volunteers were sequentially enrolled and vaccinated via the intramuscular route as follows: 9 received ChAd3-NSmut [2.5 × 1010 vp] and MVA-NSmut [2 × 108 pfu] at weeks 0 and 8, respectively; 8 received ChAdV63.HIVconsv [5 × 1010 vp] and MVA.HIVconsv [2 × 108 pfu] at the same interval; 16 were co-primed with ChAd3-NSmut [2.5 × 1010 vp] and ChAdV63.HIVconsv [5 × 1010 vp] followed at week 8 by MVA-NSmut and MVA.HIVconsv [both 1 × 108 pfu]. Immunogenicity was assessed using peptide pools in ex vivo ELISpot and intracellular cytokine assays. Vaccine-induced whole blood transcriptome changes were assessed by microarray analysis.Results: All vaccines were well tolerated and no vaccine-related serious adverse events occurred. Co-administration of the prime-boost vaccine regimens induced high magnitude and broad T cell responses that were similar to those observed following immunization with either regimen alone. Median (interquartile range, IQR) peak responses to NSmut were 3,480 (2,728–4,464) and 3,405 (2,307–7,804) spot-forming cells (SFC)/106 PBMC for single and combined HCV vaccinations, respectively (p = 0.8). Median (IQR) peak responses to HIVconsv were 1,305 (1,095–4,967) and 1,005 (169–2,482) SFC/106 PBMC for single and combined HIV-1 vaccinations, respectively (p = 0.5). Responses were maintained above baseline to 34 weeks post-vaccination. Intracellular cytokine analysis indicated that the responding populations comprised polyfunctional CD4+ and CD8+ T cells. Canonical pathway analysis showed that in the single and combined vaccination groups, pathways associated with antiviral and innate immune responses were enriched for upregulated interferon-stimulated genes 24 h after priming and boosting vaccinations.Conclusions: Serologically distinct adenoviral vectors encoding HCV and HIV-1 immunogens can be safely co-administered without reducing the immunogenicity of either vaccine. This provides a novel strategy for targeting these viruses simultaneously and for other pathogens that affect the same populations.Clinical trial registration:https://clinicaltrials.gov, identifier: NCT02362217

Published

2019

5. Safety and Immunogenicity of Malaria Vectored Vaccines Given with Routine Expanded Program on Immunization Vaccines in Gambian Infants and Neonates: A Randomized Controlled Trial

Author

Victorine A. Mensah, Sophie Roetynck, Ebrima K. Kanteh, Georgina Bowyer, Amy Ndaw, Francis Oko, Carly M. Bliss, Ya Jankey Jagne, Riccardo Cortese, Alfredo Nicosia, Rachel Roberts, Flavia D’Alessio, Odile Leroy, Babacar Faye, Beate Kampmann, Badara Cisse, Kalifa Bojang, Stephen Gerry, Nicola K. Viebig, Alison M. Lawrie, Ed Clarke, Egeruan B. Imoukhuede, Katie J. Ewer, Adrian V. S. Hill, and Muhammed O. Afolabi

Subjects

vaccines, clinical trials, malaria, cellular immune response, cytokines, Immunologic diseases. Allergy, RC581-607

Abstract

BackgroundHeterologous prime-boost vaccination with chimpanzee adenovirus 63 (ChAd63) and modified vaccinia virus Ankara (MVA) encoding multiple epitope string thrombospondin-related adhesion protein (ME-TRAP) has shown acceptable safety and promising immunogenicity in African adult and pediatric populations. If licensed, this vaccine could be given to infants receiving routine childhood immunizations. We therefore evaluated responses to ChAd63 MVA ME-TRAP when co-administered with routine Expanded Program on Immunization (EPI) vaccines.MethodsWe enrolled 65 Gambian infants and neonates, aged 16, 8, or 1 week at first vaccination and randomized them to receive either ME-TRAP and EPI vaccines or EPI vaccines only. Safety was assessed by the description of vaccine-related adverse events (AEs). Immunogenicity was evaluated using IFNγ enzyme-linked immunospot, whole-blood flow cytometry, and anti-TRAP IgG ELISA. Serology was performed to confirm all infants achieved protective titers to EPI vaccines.ResultsThe vaccines were well tolerated in all age groups with no vaccine-related serious AEs. High-level TRAP-specific IgG and T cell responses were generated after boosting with MVA. CD8+ T cell responses, previously found to correlate with protection, were induced in all groups. Antibody responses to EPI vaccines were not altered significantly.ConclusionMalaria vectored prime-boost vaccines co-administered with routine childhood immunizations were well tolerated. Potent humoral and cellular immunity induced by ChAd63 MVA ME-TRAP did not reduce the immunogenicity of co-administered EPI vaccines, supporting further evaluation of this regimen in infant populations.Clinical Trial RegistrationThe clinical trial was registered on http://Clinicaltrials.gov (NCT02083887) and the Pan-African Clinical Trials Registry (PACTR201402000749217).

Published

2017