PeptiCHIP: a novel microfluidic-based chip platform for tumour antigen landscape identification

Feola, Sara; Haapala, Markus; Peltonen, Karita; Capasso, Cristian; Martins, Beatriz; Antignani, Gabriella; Federico, Antonio; Pietiäinen, Vilja; Chiaro, Jacopo; Feodoroff, Michaela; Rannikko, Antti; Fusciello, Manlio; Koskela, Satu; Partanen, Jukka; Hamdan, Firas; Tähkä, Sari; Ylösmäki, Erkko; Greco, Dario; Grönholm, Mikaela; Kekarainen, Tuija; Eshaghi, Masoumeh; Gurvich, Olga L.; Ylä‐Herttuala, Seppo; Branca, Rui M.; Lehtiö, Janne; Sikanen, Tiina; Cerullo, Vincenzo

doi:10.21203/rs.3.rs-156531/v1

Cited by 1 publication

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“…The analysis of the resected tumor was limited by the scarce biological material available for the analysis, making it impossible to obtain a sufficient number of replicates. In the future, other solutions for the performance of such techniques could be considered, for example, an innovative microscale MHC affinity purification system, PeptiCHIP, which is ideal for small sample sizes (40).…”

Section: Discussionmentioning

confidence: 99%

Development of mesothelioma-specific oncolytic vaccine exploiting immunopeptidomic analysis of murine and human tumors

Chiaro

Antignani

Feola

et al. 2022

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Malignant pleural mesothelioma (MPM) is an aggressive tumor with a poor prognosis. As the available therapeutic options show a lack of efficacy, novel treatments and therapeutic targets are urgently needed. It has been observed that MPM is responsive to immunotherapeutic cancer treatments, and given its T-cell infiltration, we hypothesized that MPM is a suitable target for therapeutic cancer vaccination. To date, research on mesothelioma has focused on the identification of molecular signatures to better classify and characterize the disease, and little is known about therapeutic targets to engage cytotoxic (CD8+) T cells. In this study, for the first time, we explored the immunopeptidomic antigen-presented landscape of MPM in both murine (AB12 cell line), human cell lines (H28, MSTO-211H, H2452, and JL1), and in patients' primary tumors. Applying state-of-art MHC immuno-affinity purification methodologies, we identified MHC-I-restricted peptides presented on the surface of malignant cells. We characterized some newly discovered patients-derived peptides utilizing in vitro co-culturing techniques, demonstrating that eluted peptides showed promising immunogenicity profiles. Additionally, we provided a proof-of-concept for the application of a whole antigen discovery pipeline using immunopeptidomics for cancer vaccine development in a murine model of MPM. Overall, we investigated the antigen landscape of MPM and showed that the discovered peptides show potential to be used for therapeutic cancer vaccine.

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Section: Discussionmentioning

confidence: 99%