Abstract
INTRODUCTION: Medulloblastoma is the most common malignant paediatric brain tumour accounting for 20% of all childhood tumours; approximately one-third of patients present with metastatic disease at diagnosis and the outcome for these patients remains very poor. The high frequency of recurrence and metastatic relapse in medulloblastoma supports the idea of intrinsic drug resistance within cells. This work looks at the ATP-binding cassette (ABC) transporters, known to be upregulated in several cancers, and we hypothesise that extracellular vesicles may transfer ABC transporters to surrounding cells, promoting multidrug resistance within tumours. METHODS: The Cavalli dataset, made up of 763 patient samples, was used to assess the gene expression of a number of ABC transporters across medulloblastoma subgroups. ABC transporter gene and protein expression was then further assessed in medulloblastoma cell lines, including drug-tolerant lines, using qPCR and western blot. Cell viability analysis was used to assess changes in drug response. Matched cell and EV protein samples were used for proteomic analysis. RESULTS: Patient gene expression data showed that high expression of two ABC transporters correlated with reduced patient survival in high-risk subgroups. qPCR analysis of medulloblastoma cell lines showed differential subgroup expression patterns. Additionally, qPCR analysis of drug-tolerant cell lines showed significant increases in the expression of specific drug transporters across the subgroups. RNA-seq confirmed the presence of ABC transporter mRNA in exosomes isolated from high-risk medulloblastoma cell lines. Functional studies of EV transference of ABC transporters are ongoing. CONCLUSIONS: Data to date supports the hypothesis that multidrug transporter carrying extracellular vesicles may transfer their multidrug resistant phenotype to surrounding cells in medulloblastoma, promoting drug resistance. Future work will test this hypothesis by knocking down candidate ABC transporters and assessing the effect on transference of drug resistance by extracellular vesicles.
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