Your search keyword '"Scarselli, Elisa"' showing total 6 results

1. Adenoviral-based vaccine promotes neoantigen-specific CD8+ T cell stemness and tumor rejection.

Author

D'Alise, Anna Morena, Brasu, Nadia, De Intinis, Carlo, Leoni, Guido, Russo, Valentina, Langone, Francesca, Baev, Denis, Micarelli, Elisa, Petiti, Luca, Picelli, Simone, Fakih, Marwan, Le, Dung T., Overman, Michael J., Shields, Anthony F., Pedersen, Katrina S., Shah, Manish A., Mukherjee, Sarbajit, Faivre, Thea, Delaite, Patricia, and Scarselli, Elisa

Subjects

T cells, T cell receptors, COMBINED vaccines, IMMUNOLOGIC memory, CANCER vaccines, HOMINIDS, CYTOTOXIC T cells

Abstract

Upon chronic antigen exposure, CD8+ T cells become exhausted, acquiring a dysfunctional state correlated with the inability to control infection or tumor progression. In contrast, stem-like CD8+ T progenitors maintain the ability to promote and sustain effective immunity. Adenovirus (Ad)–vectored vaccines encoding tumor neoantigens have been shown to eradicate large tumors when combined with anti–programmed cell death protein 1 (αPD-1) in murine models; however, the mechanisms and translational potential have not yet been elucidated. Here, we show that gorilla Ad vaccine targeting tumor neoepitopes enhances responses to αPD-1 therapy by improving immunogenicity and antitumor efficacy. Single-cell RNA sequencing demonstrated that the combination of Ad vaccine and αPD-1 increased the number of murine polyfunctional neoantigen-specific CD8+ T cells over αPD-1 monotherapy, with an accumulation of Tcf1+ stem-like progenitors in draining lymph nodes and effector CD8+ T cells in tumors. Combined T cell receptor (TCR) sequencing analysis highlighted a broader spectrum of neoantigen-specific CD8+ T cells upon vaccination compared to αPD-1 monotherapy. The translational relevance of these data is supported by results obtained in the first 12 patients with metastatic deficient mismatch repair (dMMR) tumors vaccinated with an Ad vaccine encoding shared neoantigens. Expansion and diversification of TCRs were observed in post-treatment biopsies of patients with clinical response, as well as an increase in tumor-infiltrating T cells with an effector memory signature. These findings indicate a promising mechanism to overcome resistance to PD-1 blockade by promoting immunogenicity and broadening the spectrum and magnitude of neoantigen-specific T cells infiltrating tumors. Immunotherapy that is not monkeying around: Adenoviral vaccines encoding for tumor neoantigens have shown promise treating solid tumors when combined with anti–programmed cell death protein 1 (αPD-1) preclinically; however, the mechanism is not well understood. To elucidate this, Chen et al. generated Great Ape adenovirus (GAd) vaccines and treated tumor-bearing mice in combination with αPD-1 to elicit an accumulation of Tcf1+ stem-like CD8+ T cell progenitors, improving immunogenicity and antitumor efficacy. In addition, they performed a first-in-human trial on patients with metastatic mismatch repair–deficient tumors and saw a clinical response, suggesting this as a promising therapy to overcome resistance to αPD-1 treatment. [ABSTRACT FROM AUTHOR]

Published

2022

2. Low TCR avidity and lack of tumor cell recognition in CD8+ T cells primed with the CEA-analogue CAP1-6D peptide

Author

Iero, Manuela, Squarcina, Paola, Romero, Pedro, Guillaume, Philippe, Scarselli, Elisa, Cerino, Raffaele, Carrabba, Matteo, Toutirais, Olivier, Parmiani, Giorgio, and Rivoltini, Licia

Published

2007

3. Low TCR avidity and lack of tumor cell recognition in CD8+ T cells primed with the CEA-analogue CAP1-6D peptide.

Author

Iero, Manuela, Squarcina, Paola, Romero, Pedro, Guillaume, Philippe, Scarselli, Elisa, Cerino, Raffaele, Carrabba, Matteo, Toutirais, Olivier, Parmiani, Giorgio, and Rivoltini, Licia

Subjects

T-cell receptor genes, CELLULAR recognition, PEPTIDES, EPITOPES, IMMUNOGENETICS

Abstract

The use of “altered peptide ligands” (APL), epitopes designed for exerting increased immunogenicity as compared with native determinants, represents nowadays one of the most utilized strategies for overcoming immune tolerance to self-antigens and boosting anti-tumor T cell-mediated immune responses. However, the actual ability of APL-primed T cells to cross-recognize natural epitopes expressed by tumor cells remains a crucial concern. In the present study, we show that CAP1-6D, a superagonist analogue of a carcinoembriyonic antigen (CEA)-derived HLA-A*0201-restricted epitope widely used in clinical setting, reproducibly promotes the generation of low-affinity CD8+ T cells lacking the ability to recognized CEA-expressing colorectal carcinoma (CRC) cells. Short-term T cell cultures, obtained by priming peripheral blood mononuclear cells from HLA-A*0201+ healthy donors or CRC patients with CAP1-6D, were indeed found to heterogeneously cross-react with saturating concentrations of the native peptide CAP1, but to fail constantly lysing or recognizing through IFN- γ release CEA+CRC cells. Characterization of anti-CAP1-6D T cell avidity, gained through peptide titration, CD8-dependency assay, and staining with mutated tetramers (D227K/T228A), revealed that anti-CAP1-6D T cells exerted a differential interaction with the two CEA epitopes, i.e., displaying high affinity/CD8-independency toward the APL and low affinity/CD8-dependency toward the native CAP1 peptide. Our data demonstrate that the efficient detection of self-antigen expressed by tumors could be a feature of high avidity CD8-independent T cells, and underline the need for extensive analysis of tumor cross-recognition prior to any clinical usage of APL as anti-cancer vaccines. [ABSTRACT FROM AUTHOR]

Published

2007

4. VENUS, a Novel Selection Approach to Improve the Accuracy of Neoantigens' Prediction.

Author

Leoni, Guido, D'Alise, Anna Morena, Tucci, Fabio Giovanni, Micarelli, Elisa, Garzia, Irene, De Lucia, Maria, Langone, Francesca, Nocchi, Linda, Cotugno, Gabriella, Bartolomeo, Rosa, Romano, Giuseppina, Allocca, Simona, Troise, Fulvia, Nicosia, Alfredo, Lahm, Armin, and Scarselli, Elisa

Subjects

VENUS (Planet), MAJOR histocompatibility complex, T cells

Abstract

Neoantigens are tumor-specific antigens able to induce T-cell responses, generated by mutations in protein-coding regions of expressed genes. Previous studies demonstrated that only a limited subset of mutations generates neoantigens in microsatellite stable tumors. We developed a method, called VENUS (Vaccine-Encoded Neoantigens Unrestricted Selection), to prioritize mutated peptides with high potential to be neoantigens. Our method assigns to each mutation a weighted score that combines the mutation allelic frequency, the abundance of the transcript coding for the mutation, and the likelihood to bind the patient's class-I major histocompatibility complex alleles. By ranking mutated peptides encoded by mutations detected in nine cancer patients, VENUS was able to select in the top 60 ranked peptides, the 95% of neoantigens experimentally validated including both CD8 and CD4 T cell specificities. VENUS was evaluated in a murine model in the context of vaccination with an adeno vector encoding the top ranked mutations prioritized in the MC38 cell line. Efficacy studies demonstrated anti tumoral activity of the vaccine when used in combination with checkpoint inhibitors. The results obtained highlight the importance of a combined scoring system taking into account multiple features of each tumor mutation to improve the accuracy of neoantigen prediction. [ABSTRACT FROM AUTHOR]

Published

2021

5. Novel Human Anti-PD-L1 mAbs Inhibit Immune-Independent Tumor Cell Growth and PD-L1 Associated Intracellular Signalling.

Author

Passariello, Margherita, D'Alise, Anna Morena, Esposito, Annachiara, Vetrei, Cinzia, Froechlich, Guendalina, Scarselli, Elisa, Nicosia, Alfredo, and De Lorenzo, Claudia

Subjects

CANCER cells, IMMUNOTHERAPY, ONCOLOGY, IMMUNE system, T cells, MITOGEN-activated protein kinases, ANTINEOPLASTIC agents

Abstract

The novel antibody-based immunotherapy in oncology exploits the activation of immune system mediated by immunomodulatory antibodies specific for immune checkpoints. Among them, the programmed death ligand-1 (PD-L1) is of particular interest as it is expressed not only on T-cells, but also on other immune cells and on a large variety of cancer cells, such as breast cancer cells, considering its high expression in both ErbB2-positive and Triple Negative Breast Cancers. We demonstrate here that PD-L1_1, a novel anti-PD-L1 T -cell stimulating antibody, inhibits PD-L1-tumor cell growth also by affecting the intracellular MAPK pathway and by activating caspase 3. Similar in vitro results were obtained for the first time here also with the clinically validated anti-PD-L1 mAb Atezolizumab and in vivo with another validated anti-mouse anti-PD-L1 mAb. Moreover, we found that two high affinity variants of PD-L1_1 inhibited tumor cell viability more efficiently than the parental PD-L1_1 by affecting the same MAPK pathways with a more potent effect. Altogether, these results shed light on the role of PD-L1 in cancer cells and suggest that PD-L1_1 and its high affinity variants could become powerful antitumor weapons to be used alone or in combination with other drugs such as the anti-ErbB2 cAb already successfully tested in in vitro combinatorial treatments. [ABSTRACT FROM AUTHOR]

Published

2019

6. A novel minigene scaffold for therapeutic cancer vaccines.

Author

Aurisicchio, Luigi, Fridman, Arthur, Bagchi, Ansuman, Scarselli, Elisa, La Monica, Nicola, and Ciliberto, Gennaro

Subjects

TISSUE scaffolds, CANCER vaccines, T cells, CANCER immunotherapy, CARCINOEMBRYONIC antigen, GENETIC transformation, CANCER cells, EPITOPES

Abstract

Genetic vaccines are emerging as a powerful modality to induce T-cell responses to target tumor associated antigens (TAA). Viral or plasmid DNA or RNA vectors harbor an expression cassette encoding the antigen of choice delivered in vivo by vaccination. In this context, immunizations with minigenes containing selected, highly antigenic, T-cell epitopes of TAAs may have several advantages relative to full-length proteins. The objective of this study was to identify an optimal scaffold for minigene construction. We generated a number of minigenes containing epitopes from the carcinoembryonic antigen (CEA) model TAA and utilized muscle DNA electro-gene-transfer (DNA-EGT) to vaccinate HLA-A*0201 (HHD) and CEA/HHD double transgenic mice. The components utilized to construct the minigenes included CD8+T cell epitopes and (or) anchor modified analogs that were selected on the basis of their predicted binding to HLA-*A0201, their uniqueness in the human proteome, and the likelihood of cancer cell natural processing and presentation via MHC-I. Other candidate components comparatively tested included: helper CD4+T-cell epitopes, flanking regions for optimal epitope processing (including both proteasome-dependent and furin-dependent polypeptide processing mechanisms), and immunoenhancing moieties. Through a series of comparative studies and iterations we have identified an optimal minigene scaffold comprising the following elements: human tissue plasminogen activator (TPA) signal peptide, T-cell epitopes connected by furin sensitive linkers, and theE. Colienterotoxin B subunit. The selected epitope modified minigenes (EMM) delivered by DNA-EGT were able to break immune tolerance in CEA/HHD mice and induce a strong immune response against all epitopes tested, independently of their relative positions within the scaffold. Furthermore, the optimized EMMs delivered via DNA-EGT were more immunogenic and exerted more powerful antitumor effects in a B16-CEA/HHD metastatic melanoma model than a DNA vector encoding the full-length protein or a mixture of the same peptides injected subcutaneously. Our data may shed light on the optimal design of a universal vehicle for epitope-targeted, genetic cancer vaccines. [ABSTRACT FROM PUBLISHER]

Published

2014