Abstract
Medulloblastoma is the most common pediatric brain cancer, and sequencing studies identified frequent mutations in DDX3X, a DEAD-box RNA helicase primarily implicated in translation. Forty-two different sites were identified, suggesting that the functional effects of the mutations are complex. To investigate how these mutations are affecting DDX3X cellular function, we constructed a full set of equivalent mutant alleles in DED1, the Saccharomyces cerevisiae ortholog of DDX3X, and characterized their effects in vivo and in vitro. Most of the medulloblastoma-associated mutants in DDX3X/DED1 (ded1-mam) showed substantial growth defects, indicating that functional effects are conserved in yeast. Further, while translation was affected in some mutants, translation defects affecting bulk mRNA were neither consistent nor correlated with the growth phenotypes. Likewise, increased formation of stress granules in ded1-mam mutants was common but did not correspond to the severity of the mutants’ growth defects. In contrast, defects in translating mRNAs containing secondary structure in their 5’ untranslated regions (UTRs) were found in almost all ded1-mam mutants and correlated well with growth phenotypes. We thus conclude that these specific translation defects, rather than generalized effects on translation, are responsible for the observed cellular phenotypes and likely contribute to DDX3X-mutant medulloblastoma. Examination of ATPase activity and RNA binding of recombinant mutant proteins also did not reveal a consistent defect, indicating that the translation defects are derived from multiple enzymatic deficiencies. This work suggests that future studies into medulloblastoma pathology should focus on this specific translation defect, while taking into account the wide spectrum of DDX3X mutations.
Highlights
Cancers of the central nervous system are the second-most prevalent in children, and medulloblastoma is the most common pediatric brain cancer [1]
Because DED1 is an essential gene in yeast, these ded1-mam alleles were introduced into ded1-null yeast on single-copy CEN plasmids via plasmid shuffle, replacing wild-type DED1 as the only copy in cells
The one mutant without a significant effect on the structured reporter, ded1-G488A, did not have a detectable growth phenotype (Table 1). These results indicate that the medulloblastoma-associated mutations in DDX3X/DED1 have a shared, specific effect on translation of mRNAs containing structured 5’untranslated region (UTR), suggesting that this defect may be crucial for medulloblastoma progression
Summary
Hinting that the translational effects of the DDX3X mutations may be complex, ribosome profiling of cells expressing a medulloblastoma-associated DDX3X mutant showed some mRNA-specific effects, on stress-related genes [39]. After an initial screening of the full set of mutants, we further characterized the translational and biochemical defects in a large, representative subset that reflects the spectrum of effects produced by the mutations This analysis revealed that while some mutants had significant defects in bulk translation and particular biochemical properties, the most common and wellcorrelated defects in medulloblastoma-associated mutants of DDX3X/DED1 were in specific translation processes, suggesting that these should be a focus in future studies of DDX3X-driven oncogenesis
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