Abstract
Simple SummaryHere the expression profile of circular RNAs in Hedgehog signaling-dependent cell lines and medulloblastoma cells was interrogated. Using stringent criteria, a reduced expression of seven circular RNAs in Hedgehog-dependent medulloblastoma versus cerebellum was clearly established. Depletion and/or overexpression of these deregulated RNA circles in two medulloblastoma cell lines revealed minimal effects in cellular proliferation based on two independent assays. These findings highlight the complexity of gene expression outcomes and the possibility that gene products may not necessarily have an obvious phenotypic impact on the cellular context where they are present. It is not inconceivable that a substantial number of differentially expressed circular RNAs may represent “passenger molecules” with little impact on a cell, reflecting the stochasticity of the gene expression and splicing processes.Within the past decade, circular RNAs have largely emerged as novel regulators of human biology, including brain function and cancer development. On the other hand, the Hedgehog pathway has established roles in regulating biological processes, including tumorigenesis. Here, the circular RNA transcriptome, in the context of Hedgehog signaling activation of medulloblastoma Daoy and human embryonic palatal mesenchyme HEPM cells, was determined. In total, 29 out of the 30 selected circular RNAs were validated by Sanger sequencing, with some regulated to a limited extent by Hedgehog signaling. Interestingly, back-spliced junctions, the marker of exonic RNA circles, were also identified at a low frequency within poly (A) mRNAs, reflecting exon repetition events. Thirteen circular RNAs had reduced expression in human medulloblastoma tumors in comparison to normal cerebellum. For seven out of these thirteen RNA circles, the linear mRNAs originating from the same genes did not exhibit a reduced expression. Depletion and/or overexpression of these seven circular RNAs minimally affected medulloblastoma cell proliferation. These findings highlight that differential expression of a gene product may not necessarily elicit an obvious phenotypic impact. Consequently, further analysis is required to determine the possible subtle contributions to the development of this cerebellar tumor.
Highlights
Hedgehog signaling has major roles in normal development and homeostasis and its continuous activation is implicated in tumor initiation and growth, including basal cell carcinoma, medulloblastoma, rhabdomyosarcoma, breast, colon, pancreatic, and lung cancers [1,2,3,4,5,6]
As conventional therapies for this cerebellar tumor are implemented through invasive methods, with the current survival rate of medulloblastoma patients reaching plateau levels [12], a better understanding of the biology of medulloblastoma is likely to contribute to the development of novel treatment strategies
We activated Hedgehog signaling in Daoy and HEPM cell lines via administration of purified Sonic Hedgehog (SHH) ligand or the Smoothened agonist SAG, which activates the central signaling molecule of the pathway
Summary
Hedgehog signaling has major roles in normal development and homeostasis and its continuous activation is implicated in tumor initiation and growth, including basal cell carcinoma, medulloblastoma, rhabdomyosarcoma, breast, colon, pancreatic, and lung cancers [1,2,3,4,5,6]. CircRNAs are generated by an alternative splicing event, when the 30 end of an exon is back-sliced to the 50 end of its upstream exon. This is facilitated by inverted repeats in the introns that flank the back-spliced exons [20] and may be linked to a lariat-mediated skipping of the circularized exons [21].
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