PLX179244

GSE147410: Sonic hedgehog accelerates DNA replication to cause replication stress promoting cancer initiation in medulloblastoma (RNA-Seq)

• Organsim mouse
• Type RNASEQ
• Target gene
• Project ARCHS4

Cancer is a multi-stage disease caused by sequential mutations; however, the molecular mechanism generating cancer-initiating mutations for many cancers is not well understood. Using the developing cerebellum as model system, here we delineate a molecular mechanism for tumor initiation in medulloblastoma (MB), the most frequent malignant pediatric brain tumor. Activation of the Sonic hedgehog (SHH) pathway is frequent in MB, with mutations in the tumor suppressor PTCH1 (a negative regulator of SHH signaling) being the most common initiating event for SHH-MB. However, how SHH as a developmental mitogen promotes early carcinogenesis in the cells of origin, granule cerebellar progenitors (GCPs), remains to be determined. Here we report that physiological exposure of GCPs to Shh causes a distinct form of DNA replication stress, altering DNA replication dynamics to increase both origin firing and fork velocity. Shh promotes DNA helicase loading and activation in GCPs, with increased levels of Cdc7-dependent replication origin firing. S-phase duration is reduced and hyper-recombination consequently occurs. Such elevated recombination causes copy-number neutral LOH, an event seen frequently at the PTCH1/ptch1 locus. Moreover, Cdc7 inhibition to attenuate origin firing in a MB mouse model is sufficient to reduce somatic recombination and preneoplastic tumor formation. We therefore establish that tissue-specific replication stress induced by Shh acts to promote LOH, which in tumor-prone Ptch1+/- GCPs can result in loss of this tumor suppressor, as an early cancer initiating event. SOURCE: Amandine Bemmo (amandine.bemmo@ircm.qc.ca) - Dr. Drouin, Dr. Charron IRCM