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Neuroblastoma is the most abundant, solid, extracranial tumor in early childhood and the leading cause of cancer-related childhood deaths worldwide. Patients with high-risk neuroblastoma often show MYCN-amplification and elevated levels of Aurora-A. They have a low overall survival and despite multimodal therapy options a poor therapeutic prognosis. MYCN-amplified neuroblastoma cells depend on Aurora-A functionality. Aurora-A stabilizes MYCN and prevents it from proteasomal degradation by competing with the E3 ligase SCFFBXW7. Interaction between Aurora-A and MYCN can be observed only in S phase of the cell cycle and activation of Aurora-A can be induced by MYCN in vitro. These findings suggest the existence of a profound interconnection between Aurora-A and MYCN in S phase. Nevertheless, the details remain elusive and were investigated in this study.
Fractionation experiments show that Aurora-A is recruited to chromatin in S phase in a MYCN-dependent manner. Albeit being unphosphorylated on the activating T288 residue, Aurora-A kinase activity was still present in S phase and several putative, novel targets were identified by phosphoproteomic analysis. Particularly, eight phosphosites dependent on MYCN-activated Aurora-A were identified. Additionally, phosphorylation of serine 10 on histone 3 was verified as a target of this complex in S phase. ChIP-sequencing experiments reveal that Aurora-A regulates transcription elongation as well as histone H3.3 variant incorporation in S phase. 4sU-sequencing as well as immunoblotting demonstrated that Aurora-A activity impacts splicing. PLA measurements between the transcription and replication machinery revealed that Aurora-A prevents the formation of transcription-replication conflicts, which activate of kinase ATR.
Aurora-A inhibitors are already used to treat neuroblastoma but display dose-limiting toxicity. To further improve Aurora-A based therapies, we investigated whether low doses of Aurora-A inhibitor combined with ATR inhibitor could increase the efficacy of the treatment albeit reducing toxicity. The study shows that the combination of both drugs leads to a reduction in cell growth as well as an increase in apoptosis in MYCN-amplified neuroblastoma cells, which is not observable in MYCN non-amplified neuroblastoma cells. This new approach was also tested by a collaboration partner in vivo resulting in a decrease in tumor burden, an increase in overall survival and a cure of 25% of TH-MYCN mice. These findings indicate indeed a therapeutic window for targeting MYCN-amplified neuroblastoma.
The role of BRCA1 and DCP1A in the coordination of transcription and replication in neuroblastoma
(2021)
The deregulation of the MYC oncoprotein family plays a major role in tumorigenesis and tumour maintenance of many human tumours. Because of their structure and nuclear localisation, they are defined as undruggable targets which makes it difficult to find direct therapeutic approaches. An alternative approach for targeting MYC-driven tumours is the identification and targeting of partner proteins which score as essential in a synthetic lethality screen.
Neuroblastoma, an aggressive entity of MYCN-driven tumours coming along with a bad prognosis, are dependent on the tumour suppressor protein BRCA1 as synthetic lethal data showed. BRCA1 is recruited to promoter regions in a MYCN-dependent manner. The aim of this study was to characterise the role of BRCA1 in neuroblastoma with molecular biological methods.
BRCA1 prevents the accumulation of RNA Polymerase II (RNAPII) at the promoter region. Its absence results in the formation of DNA/RNA-hybrids, so called R-loops, and DNA damage. To prevent the accumulation of RNAPII, the cell uses DCP1A, a decapping factor known for its cytoplasmatic and nuclear role in mRNA decay. It is the priming factor in the removal of the protective 5’CAP of mRNA, which leads to degradation by exonucleases. BRCA1 is necessary for the chromatin recruitment of DCP1A and its proximity to RNAPII. Cells showed upon acute activation of MYCN a higher dependency on DCP1A. Its activity prevents the deregulation of transcription and leads to proper coordination of transcription and replication. The deregulation of transcription in the absence of DCP1A results in replication fork stalling and leads to activation of the Ataxia telangiectasia and Rad3 related (ATR) kinase. The result is a disturbed cell proliferation to the point of increased apoptosis. The activation of the ATR kinase pathway in the situation where DCP1A is knocked down and MYCN is activated, makes those cells more vulnerable for the treatment with ATR inhibitors.
In summary, the tumour suppressor protein BRCA1 and the decapping factor DCP1A, mainly known for its function in the cytoplasm, have a new nuclear role in a MYCN-dependent context. This study shows their essentiality in the coordination of transcription and replication which leads to an unrestrained growth of tumour cells if uncontrolled.