# Detection of spontaneous anti-neoepitope T-cell responses in non-metastatic bladder cancer patients

**Authors:** Walther Brochier, Sylvain Nguyen, Valérie Cesson, Orian Bricard, Nicolas van Baren, Gérald Hames, Nicolas Dauguet, Hélène Dano, Bertrand Tombal, Sonia-Cristina Rodrigues-Dias, Audrey Masnada, Raphael Genolet, Alexandre Harari, Beat Roth, Ilaria Lucca, Denise Nardelli-Haefliger, Pierre G. Coulie, Laurent Derré

PMC · DOI: 10.3389/fimmu.2025.1627914 · 2025-11-12

## TL;DR

This study finds that about a third of non-metastatic bladder cancer patients have spontaneous immune responses against tumor-specific mutations, and BCG treatment does not boost these responses.

## Contribution

The study identifies the proportion of non-metastatic bladder cancer patients with spontaneous anti-neoepitope CD8+ T-cell responses and shows BCG treatment does not enhance them.

## Key findings

- 9 out of 24 patients had detectable anti-neoepitope CD8+ T-cell responses in blood or tumor.
- BCG treatment did not increase neoantigen-specific T cells in urine or blood.
- Exhausted CD8+ TILs from one patient recognized multiple neoepitopes, but other TCRs did not.

## Abstract

Bladder carcinomas are immunogenic, and patients with bladder cancer benefit from immune checkpoint therapy. This is correlated to a high tumor mutation burden, which provides a higher number of neoepitopes that can be recognized by tumor-specific CD8+ T cells. Intravesical Bacillus Calmette-Guérin (BCG) is used to treat non-muscle invasive bladder cancer (NMIBC), but its mechanism of action remains elusive. Most lymphocytes appearing in the urine of BCG-treated patients are CD4+ T cells though preclinical studies showed that CD8+ T cells are also necessary for BCG treatment efficacy. It is currently unknown which proportion of patients with non-metastatic bladder cancer develop a spontaneous antitumor CD8+ response, and if BCG treatment influences this response.

In a first cohort of 15 NMIBC and 9 muscle invasive bladder cancer patients, we used IFN-y ELISPOT assays to screen for the presence of anti-neoepitope CD8+ T cells in the blood, tumor and urine. In a second cohort of 4 NMIBC patients, we analyzed the features and specificity of CD8+ T cells infiltrating the tumoral or bladder tissues before and after BCG using single cell transcriptomic analyses. A total of 31 tumor-infiltrating CD8+ clonotypes were screened against neoepitopes and tumor cDNA libraries.

9 out of 24 patients from the first cohort mounted a spontaneous and functional anti-neoepitope T-cell response in blood and/or tumor. In 5 patients from this cohort who were treated with BCG, no neoantigen-specific T cells were detected in urine during treatment. In the second cohort, 6 out of 6 TCRs from exhausted CD8+ TILs from one patient recognized 5 different neoepitopes. T-cell receptor (TCR) repertoire analyses indicated that the frequencies of these tumor-specific T cells did not increase after BCG instillations, neither in the bladder nor in the blood. None of the 25 other TCRs of CD8+ T cells recognized tumor-specific antigens.

We show that one third of patients with non-metastatic bladder cancer mount a spontaneous and functional anti-neoepitope CD8+ T-cell response detectable in blood or tumor. In 4 patients with NMIBC, BCG treatment did not boost or induce the anti-neoepitope response, suggesting alternative mechanisms of action for its efficacy.

## Linked entities

- **Diseases:** bladder cancer (MONDO:0004986)

## Full-text entities

- **Genes:** CD4 (CD4 molecule) [NCBI Gene 920] {aka CD4mut, IMD79, Leu-3, OKT4D, T4}, CD8A (CD8 subunit alpha) [NCBI Gene 925] {aka CD8, CD8alpha, IMD116, Leu2, p32}, TRBV20OR9-2 (T cell receptor beta variable 20/OR9-2 (non-functional)) [NCBI Gene 6962] {aka CDR3, TCRBV20S2, TCRBV2O, TCRBV2S2O}, IFNG (interferon gamma) [NCBI Gene 3458] {aka IFG, IFI, IMD69}
- **Diseases:** NMIBC (MESH:D000093284), tumor (MESH:D009369), Bladder carcinomas (MESH:D001749)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12648094/full.md

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Source: https://tomesphere.com/paper/PMC12648094