Abstract 38P
Background
Tumor-infiltrating lymphocyte (TIL) therapy has emerged as a promising treatment for late-stage solid cancer patients. Most studies use fresh tumor fragments to expand TIL. Limited research exists on cryopreserving and long-term storing of tumors as TIL starting material. The aim of this study was to expand and characterize tumor-infiltrating lymphocytes (TILs) from tumor specimens stored in liquid nitrogen for over 12 months.
Methods
Tumors, resected from 20 patients with colorectal cancer, were immediately cut into small pieces and cryopreserved in liquid nitrogen for 14-20 months until use. Upon thawing tumor fragments were either placed in a TIL expansion media or were first subjected to enzymatic digestion. Serum-free culture media containing 500 units of IL2 was used for TIL expansion. CD3/CD28 antibodies were added at the start of the cultivation and every 7 days to activate TIL. After 10-22 days in culture, expanded TILs were characterized by phenotype. The ability of the expanded TIL to secrete interferon-ɣ (IFNɣ) was measured in the ELISPOT assay. T cell receptor (TCR) repertoire was analyzed on the starting tumor material and expanded TILs.
Results
The average storage time of the tumor starting material was 16 months. The success rate of TIL expansion was 50% and was the same when TILs were grown directly from small fragments or from single-cell tissue suspensions after enzymatic digestion. The mean percentage of CD3+ cells in TIL cultures was 85.31%. The mean percentage of CD4+ cells and CD8+ cells was 81.01% and 10.29% correspondingly. Regardless of the isolation method, 9 TIL cultures exhibited the high production of IFNgamma in the ELISPOT assay upon reactivation following cocultivation with phytohemagglutinin. Extended phenotype characterization and TCR repertoire analysis is ongoing.
Conclusions
Our study demonstrates the feasibility of using long-term cryopreserved tumor fragments for TIL expansion with further assessment of clonality, phenotyping and neoantigen specificity.
Clinical trial identification
Editorial acknowledgement
Legal entity responsible for the study
The authors.
Funding
Federal Medical Biological Agency funding for the «T-kletki» project, 123032900030-7.
Disclosure
All authors have declared no conflicts of interest.
Resources from the same session
1802P - Cost-effectiveness study of atezolizumab (ATZ) vs. durvalumab (DUR) in elderly extensive disease small cell lung cancer (ED-SCLC) patients (pts): Real-world data (RWD) on first-line chemotherapy combined with immune-checkpoint inhibitors (Chemo-ICIs)
Presenter: Ken Yamamoto
Session: Poster session 07
1803P - Analysis of samples from the SCLC REACTION trial: Discovery of biomarkers to optimize treatment
Presenter: Pernelle Lavaud
Session: Poster session 07
1805P - PKD1L1 mutations in small cell lung cancer: A genomic signature for poor prognosis and drug susceptibility
Presenter: Ning Tang
Session: Poster session 07
Resources:
Abstract
1806P - Clinical characteristics and management of small cell lung cancer long survivors
Presenter: Elisa Gobbini
Session: Poster session 07
1807P - Spatial analyses revealed MMP7 as the biomarker of tumor boundary correlated with immune resistance in small cell lung cancer
Presenter: Le Tang
Session: Poster session 07
1809P - Validation of the lung inmune prognostic (LIPI) index in first-line immunotherapy treatment of small cell lung carcinoma
Presenter: Patricia Cruz Castellanos
Session: Poster session 07
1810P - MYC expression defines distinct transcriptomic landscape and affects response to DNA-damaging therapies in SCLC
Presenter: Caterina de Rosa
Session: Poster session 07