Abstract 2282P
Background
The immune system can eliminate malignancy by identifying antigenic peptide epitope presented by neoplastically transformed cells. Immune cells recognize abnormal glycosylation on cancer cells, and this recognition often leads to an inhibitory immune process. We designed a biomedical study to evaluate the role of tissue glycan in predicting immunotherapy response in renal cell carcinoma (RCC) and hepatocellular carcinoma (HCC).
Methods
Thirty-two patients with intermediate/poor risk RCC and advanced HCC (eight respondents and eight non-respondents each) who had received first line immunotherapy-based therapy were identified. The overall survival for RCC and HCC non-respondent cohort was 27.9 months and 8 months respectively but was immature for the respondent cohort. Response criteria to immunotherapy was decided based on the immune related response criteria (iRECIST) where good response is defined as complete or partial response while poor respondent was defined as progression of disease with median survival shorter than reported. Next, we compare the relative abundance and spatial distribution of the glycans in the responder versus non-responder tissue sections given regional characterizations within the tissues. This helps points out the distinct glycans between the responder versus non-responder tissue sections that could serve as potential biomarkers which can then be used in future diagnostic and/or therapeutic intervention. We used the MALDI analysis by rapifleX.
Results
MALDI imaging of HCC and RCC responder versus non-responder tissue section was successfully demonstrated. There was distinct responder versus non responder glycan markers demonstrated by unsupervised segmentation analysis, showing specific layers of glycan organization in the different tissue regions. There are several glycan peaks showing distinctive expression between respondent versus non respondent patients. PCA showed distinguishable variances across each annotated structures derived from segmentation analysis.
Conclusions
Distinct glycan profile markers were observed between both responder and non-responder cohort showing specific layers of glycan organization in the different tissue regions.
Clinical trial identification
NHG DSRB Ref: 2021/01072
Editorial acknowledgement
Legal entity responsible for the study
The authors.
Funding
NMC CG program.
Disclosure
All authors have declared no conflicts of interest.
Resources from the same session
2315P - Clinical and blood immune-inflammatory profiling to decode different patterns of acquired resistance in immunotherapy treated NSCLC patients
Presenter: Giulia Mazzaschi
Session: Poster session 08
2316P - Integrating comprehensive cancer genome profiling into clinical practice in an Italian referral center: Results of the first year of the fpg500 programme
Presenter: Camilla Nero
Session: Poster session 08
2317P - Mutational landscape and therapeutic implications in squamous cell carcinomas
Presenter: Laila Belcaid
Session: Poster session 08
2318P - Value of broad molecular profiling for cancer diagnosis
Presenter: Lars Volker Anton Werstein
Session: Poster session 08
2319P - CADSP: A web tool for comprehensive drug sensitivity analysis in pan-cancer
Presenter: Kexin Li
Session: Poster session 08
2320P - Detection of gene fusion-induced neoepitopes in dedifferentiated liposarcoma
Presenter: Peter Horak
Session: Poster session 08
2321TiP - TEMPLE: Thiopurine enhanced mutations for PD-1/ligand-1 efficacy: A phase Ib/II clinical trial
Presenter: Christine Federspiel Secher
Session: Poster session 08
2322TiP - SOUND: A phase II trial evaluating the efficacy of molecular profiling of circulating ± tumor tissue DNA for salvage-therapy matching in patients with advanced and refractory carcinoma
Presenter: Jakob Riedl
Session: Poster session 08