TMOD-19. FROM PATIENT TO PETRI DISH: INCREASING PATIENT-DERIVED GLIOBLASTOMA CULTURE EFFICIENCIES TO 95%

Abstract

Abstract INTRODUCTION The search for effective therapies for gliomas is progressively moving towards patient-specific medicine. In order to test patient-tailored therapies, it is vital to develop protocols for reliable establishment of patient-derived glioma cultures. We present a method for reliable culture establishment, with a 95% success rate in 114 consecutive high-grade samples. METHODS Cell cultures were established from either traditionally-resected tumor tissue or ultrasonic surgical aspirator (CUSA) derived tissue fragments, and expanded in serum-free culture, with selection of astrocytic populations if required. Cultures were started from single cells or small tumor fragments of 0.5-3mm (3D). Whole exome and RNA sequencing were carried out with the Illumina Novaseq and HiSeq platforms. Methylation profiling was performed with the Infinium MethylationEPIC array. Cultures and tumors were compared through analysis of single nucleotide polymorphisms and copy number profiles with the Infinium Global Screening Array. Intra-tumoral heterogeneity in cultures was investigated with single-cell transcriptomic sequencing (SORT-seq). We studied tumor-initiating potential by orthotopic injection of cultures in NOD-SCID mice. RESULTS Cultures started from single cells were established from CUSA material more efficiently (92%) than from traditional resection material (70%). 3D-derived cultures had a higher overall efficiency (95% for CUSA, 85% for traditional resection material). We confirmed high concordance in driver mutations, copy number and methylation profiles between tumors and derived cultures. Transcriptomics analysis, comparing tumors and derived cultures, revealed high consistency in gene expression distribution as demonstrated by correlation analysis (r=0.88). Singe-cell RNA-seq shows increased heterogeneity in CUSA derived-cultures, and decreased heterogeneity with passaging over time. Cultures faithfully produce tumors after orthotopic injection in NOD-SCID mice. CONCLUSION We present a highly successful method for the establishment of glioma cultures from patient material, with CUSA-derived cultures revealing greater heterogeneity. Cultures faithfully represent important molecular characteristics of parental tumors and can be used to test potential therapies in vitro.