Abstract 98P
Background
Cell-free DNA (cfDNA) consists of circulating DNA fragments originating from cells throughout the body. It can be found in plasma and urine and is under heavy investigation for its potential to detect cancer both early, and as a minimally invasive biopsy. DNA methylation is strongly associated with tissue and cell type, and in the context of cancer, it is often significantly altered. Tumour derived cfDNA has been shown to contain tumour specific methylation patterns. In this study, we attempt to correlate tissue specific methylation with cfDNA methylation.
Methods
We extracted tumour tissue specific methylation signals from The Cancer Genome Association (TCGA) methylation data and used our RenovaroCube (AI platform) to mine tumour specific CpG sites from Illumina methylation array data. As Illumina methylation array data for liquid biopsies is scarce due to the high input requirements, we investigated an alternative methylation detection method: cell-free Methylation DNA ImmunoPrecipiation (cfMeDIP-seq). cfMeDIP-seq captures solely 5mC methylated cfDNA fragments, which are then sorted into 300bp windows. From 97 publicly available cfDNA plasma cfMeDIP samples (24 control, 23 CRC, 25 lung cancer, 25 BRCA) we extracted the 300bp windows containing mined TCGA CpG sites. Using random forest classifiers, we performed leave-one-out-cross-validations (LOOCV) for the classifcation of cancer types. We further validated the lung cancer model using a cfMeDIP-seq validation set (62 control, 55 lung cancer).
Results
From the TCGA data, we mined 86 NSCLC, 95 BRCA and 139 CRC specific CpG sites, resulting in 72, 74 and 121 300bp panels, respectively. The performance of the panels was evaluated through LOOCV, resulting in (Specificity/Sensitivity/Accuracy): NSCLC model: 0.96/0.59/0.75, BRCA model: 1.00/0.72/0.86, CRC model: 1.00/0.841/0.92. In the validation lung cancer dataset, we obtained a performance of 0.97/0.49/0.74.
Conclusions
It is possible to detect tissue specific methylation levels extracted from methylation array data using RenovaroCube platform in cfDNA using cfMeDIP-seq data.
Clinical trial identification
Editorial acknowledgement
Legal entity responsible for the study
The author.
Funding
Has not received any funding.
Disclosure
The author has declared no conflicts of interest.
Resources from the same session
1781P - Multi-omics of soft tissue sarcomas with complex karyotypes: Investigating genomic and transcriptomic differences between cell lines of the same subtype
Presenter: Miriam Arrulo
Session: Poster session 07
1782P - Assessing the role of denosumab in managing aneurysmal bone cysts: A scoping review
Presenter: Vinesh Sandhu
Session: Poster session 07
1783P - Genetic predisposition in adult sarcoma patients: Beyond TP53
Presenter: Olivia Rohr
Session: Poster session 07
1784TiP - Pasireotide as maintenance treatment in SSTR2/3/5-expressing synovial sarcoma and desmoplastic small round cell tumor: The PAMSARC study
Presenter: Richard Schlenk
Session: Poster session 07
1785TiP - PERELI, a phase II, open label, multicenter study of pemigatinib and retifanlimab in advanced dedifferentiated liposarcoma
Presenter: Helena Nyström
Session: Poster session 07
1787P - Intracranial response in patients (pts) with baseline (BL) brain metastases (BM) and extensive-stage (ES) small cell lung cancer (SCLC) treated with ifinatamab deruxtecan (I-DXd) in the IDeate-Lung01 study
Presenter: Melissa Johnson
Session: Poster session 07
1790P - Phase II data of lurbinectedin (LUR) and irinotecan (IRI) in relapsed small cell lung cancer (SCLC) patients (pts) with chemotherapy-free interval (CTFI)>30 days (d)
Presenter: Jon Zugazagoitia
Session: Poster session 07