RESUMO
Therapy resistance represents an unmet challenge in the treatment of medulloblastoma. Accordingly, the identification of targets that mark drug-resistant cell populations, or drive the proliferation of resistant cells, may improve treatment strategies. To address this, we undertook a targeted approach focused on the multi-functional transcription factor YB-1. Genetic knockdown of YB-1 in Group 3 medulloblastoma cell lines diminished cell invasion in 3D in vitro assays and increased sensitivity to standard-of-care chemotherapeutic vincristine and anti-cancer agents panobinostat and JQ1. For vincristine, this occurred in part by YB-1-mediated transcriptional regulation of multi-drug resistance gene ABCB1, as determined by chromatin immunoprecipitation. Whole transcriptome sequencing of YB-1 knockdown cells identified a role for YB-1 in the regulation of tumourigenic processes, including lipid metabolism, cell death and survival and MYC and mTOR pathways. Stable cisplatin- and vincristine-tolerant Group 3 and SHH cell lines were generated to identify additional mechanisms driving resistance to standard-of-care medulloblastoma therapy. Next-generation sequencing revealed a vastly different transcriptomic landscape following chronic drug exposure, including a drug-tolerant seven-gene expression signature, common to all sequenced drug-tolerant cell lines, representing therapeutically targetable genes implicated in the acquisition of drug tolerance. Our findings provide significant insight into mechanisms and genes underlying therapy resistance in medulloblastoma.
RESUMO
Brain and central nervous system tumors represent the most common childhood solid tumors. Comprising 21% of all pediatric cancers, they remain the leading cause of cancer-related mortality and morbidity in childhood. Due to advances in neurosurgical technique, radiotherapy and the use of combination therapy, survival rates have generally increased. However, by cause of the lesion itself, its surgical removal and subsequent treatment, survivors are at high risk of long-term neurocognitive sequelae and secondary cancer. Clearly, improvements in diagnosis and treatment are needed. Accordingly, current treatment is evolving away from conventional, uniform therapy and towards risk-stratified regimens and molecularly-targeted therapies, with the aim of diminishing adverse side effects while minimizing the risk of disease recurrence. The multifunctional oncoprotein Y-box binding protein 1 (YB-1) may serve as one such molecular target. Increased YB-1 levels have been reported in a number of pediatric brain tumors, where YB-1 appears to facilitate the advancement of malignant phenotypes. These include proliferation, invasion, and resistance to therapy, as well as the maintenance of brain tumor-initiating cells. Here we evaluate the current literature and show how YB-1 modulates signaling pathways driving each of these phenotypes. We also review the regulation of YB-1 at a transcriptional, translational, posttranslational and subcellular level and argue that there is strong and sufficient evidence to support the development of YB-1 as a biomarker and future therapeutic target in childhood brain tumors.
