Abstract 2608: The super enhancer-driven long noncoding RNA lncNB promotes neuroblastoma tumorigenesis by interacting with MSI2 protein and is targetable by small molecule compounds

作者: Mayoh, Chelsea ; Cheung, Belamy B. ; Seneviratne, Janith ; Khoo, Poh ; Li, Jinyan ; Mondal, Sujanna ; Trahair, Toby ; Marshall, Glenn M. ; Ziegler, David S. ; Bartonicek, Nenad ; Jin, Lei ; Dinger, Marcel E. ; Liu, Tao ; Maag, Jesper ; Liu, Pei Y. ; Ludlow, Louise E. ; Venkat, Pooja ; Chen, Jingwei ; Wong, Matthew ; Wu, Jing ; Zhang, Xu D. ; Street, Ian ; De Weck, Antoine ; Mestdagh, Pieter

AbstractBackground:While MYCN-amplified neuroblastoma has been the focus of neuroblastoma research in the past three decades, most human neuroblastomas do not harbour MYCN oncogene amplification, and their tumorigenic factors are unknown. Long non-coding RNAs (lncRNAs) regulate tumorigenesis by modulating the expression of molecular targets, however, there is limited literature on therapeutic targeting of lncRNAs with small molecule compounds.Aims:To determine the oncogenic mechanism though which the lncRNA lncNB promotes neuroblastoma cell proliferation, survival and tumour progression; and to identify a small molecule compound that inhibits the interaction between lncNB and its binding protein MSI2 as an effective anticancer strategy.Methods and results:Kaplan Meier analysis showed that high levels of lncNB expression in neuroblastoma tissues correlated with poor prognosis in 476 patients. We identified lncNB as the lncRNA most over-expressed in MYCN non-amplified, compared with MYCN-amplified, neuroblastoma cell lines. lncNB expression was controlled by super-enhancers, and lncNB RNA bound to MSI2 protein. RNA immunoprecipitation and sequencing identified BMX mRNA as the transcript most significantly disrupted from binding to MSI2 protein, after lncNB knockdown. lncNB or MSI2 knockdown reduced, while their over-expression enhanced, BMX mRNA stability and expression, ERK protein phosphorylation and MYCN non-amplified neuroblastoma cell proliferation. lncNB knockdown significantly suppressed neuroblastoma progression in mice. AlphaScreen of a compound library identified NSC617570 as an efficient inhibitor of lncNB RNA and MSI2 protein interaction, and NSC617570 reduced BMX expression, ERK protein phosphorylation, neuroblastoma cell proliferation in vitro and tumor progression in mice.Conclusions:Our study demonstrates that lncNB RNA interacts with MSI2 protein to induce neuroblastoma tumorigenesis, and that targeting lncNB and MSI2 interaction with small molecule compounds is an effective anticancer strategy.Citation Format:Sujanna Mondal, Pei Y. Liu, Janith Seneviratne, Antoine De Weck, Pooja Venkat, Chelsea Mayoh, Jing Wu, Jesper Maag, Jingwei Chen, Matthew Wong, Nenad Bartonicek, Poh Khoo, Lei Jin, Louise E. Ludlow, David S. Ziegler, Toby Trahair, Pieter Mestdagh, Belamy B. Cheung, Jinyan Li, Marcel E. Dinger, Ian Street, Xu D. Zhang, Glenn M. Marshall, Tao Liu. The super enhancer-driven long noncoding RNA lncNB promotes neuroblastoma tumorigenesis by interacting with MSI2 protein and is targetable by small molecule compounds [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2025; Part 1 (Regular Abstracts); 2025 Apr 25-30; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2025;85(8_Suppl_1):Abstract nr 2608.

2025-04-21·Cancer Research

Abstract 2613: The role of the RNA methyltransferase RNAMT1 as a tumorigenic driver and therapeutic target in neuroblastoma

作者: Ip, Kenny ; Cheung, Belamy ; Wong, Justin ; Liu, Tao ; Gadde, Satyanarayana ; Mondal, Sujanna ; Wu, Jing ; Chok, Kian Chung

AbstractNeuroblastoma is the most common extracranial solid tumor in children worldwide. We have found that high expression of the RNAMT1 gene in tumor tissues is associated with poor prognosis in both MYCN-amplified [Overall survival (OS): p = 0.0409 and event-free survival (EFS): p = 0.0061] and MYCN non-amplified neuroblastoma patients (OS: p < 0.0001 and EFS: p < 0.0001). Multivariable Cox regression analysis for neuroblastoma patient prognosis of RNAMT1 gene expression [OS: hazard ratio (HR) = 1.92, p = 0.003 and EFS: HR = 1.72, p = 0.0001] is independent from current prognostic markers: MYCN amplification (OS: HR = 3.39, p = 5.1E-8 and EFS: HR = 1.77, p = 0.0001), age older than 18 months (OS: HR = 2.73, p = 2.9E-5 and EFS: HR = 1.59, p = 0.01), and International Neuroblastoma Staging System stages 3&4 (OS: HR = 5.68, p = 5.00E-6 and EFS: HR = 3.00, p = 6.83E-8). Doxycycline (DOX)-inducible RNAMT1 knockdown in MYCN-amplified and MYCN non-amplified neuroblastoma cells decreased cell viability and colony formation capability, and induced apoptosis in vitro. DOX-inducible RNAMT1 knockdown delayed tumor growth and improved survival in mice bearing SK-N-BE(2)-C shRNA1 (OS: p = 0.0034) and SK-N-AS shRNA2 (OS: p < 0.0001). RNAMT1 regulates protein translation based on previous literatures, we demonstrated that RNAMT1 did not affect global mRNA translation alteration via puromycin incorporation assay and slightly affected polysome profile. The subset of mRNA transcripts after RNAMT1 knockdown and RNAMT1 inhibitor treatment will be analyzed with translating ribosome affinity purification sequencing (TRAP-Seq). RNAMT1 inhibitor was discovered by AlphaScreen of 2952 small molecule compounds provided by National Cancer Institute (NCI). Unravelling the molecular mechanisms of RNAMT1 in neuroblastoma tumorigenesis and mechanism of actions of RNAMT1 inhibitor, may provide novel insights to develop a more effective treatment for neuroblastoma patients.Citation Format:Kian Chung Chok, Kenny Ip, Jing Wu, Satyanarayana Gadde, Sujanna Mondal, Justin Wong, Belamy Cheung, Tao Liu. The role of the RNA methyltransferase RNAMT1 as a tumorigenic driver and therapeutic target in neuroblastoma [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2025; Part 1 (Regular Abstracts); 2025 Apr 25-30; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2025;85(8_Suppl_1):Abstract nr 2613.

2025-04-21·Cancer Research

Abstract 6863: Development of MYCN/MYC inhibitors

作者: Doughty, Larissa ; Ziegler, David ; Chung, Natalie ; Cheung, Belamy ; Wang, Qian ; Gadde, Satyanarayana ; Tsoli, Maria ; Chesler, Louis ; Ng, Sin Wi ; Nero, Tracey ; Marshall, Glenn ; Parker, Michael ; Kumar, Naresh

AbstractBackground:Deregulated expression of MYC family transcription factors is present in more than 70% of human cancers. MYC is an intrinsically disordered protein without known drug binding pockets and is essential for adult cell replication, making clinical development of MYC inhibitors challenging. MYCN amplification and overexpression generate driver signals in the childhood cancers, neuroblastoma (NB), medulloblastoma (MB) and diffuse intrinsic pontine glioma (DIPG).Methods and Results:We previously reported a small molecule compound, SE486-11, which reduced MYCN protein levels in combination with suberoylanilide hydroxamic acid. We developed more potent analogues of SE486-11 with improved single agent potency, selectivity towards cancer cells and solubility (UNSW-SC compounds). Our lead compound, UNSW-SC-22 is highly effective in vitro against MYCN-driven NB and MB cells with sub-micromolar IC50 values and displayed a wide therapeutic index. UNSW-SC-22 displayed MYCN- and c-MYC-dependent cytotoxicity and decreased MYCN and c-MYC protein levels in NB and MB cell lines. MYCN and c-MYC protein half-life was decreased ∼2-fold, while K-48-linked ubiquitination of MYCN protein was increased by UNSW-SC-22. We show UNSW-SC-22 bound to full length MYCN and c-MYC proteins directly, with KDs of 62.7 µM and 60.5 µM, respectively, by surface plasmon resonance. In-cell target engagement was further confirmed by drug affinity responsive target stability and cellular thermal shift assays. Total RNA from NB and MB cells treated with UNSW-SC-22 showed down-regulation of MYC target genes on GSEA analyses. On in-vitro pharmacology profiling against 47 intracellular signalling targets (78 assays) known to cause adverse drug reactions in humans, UNSW-SC-22 demonstrated no significant target activation at <20 µM. UNSW-SC-22 freely crossed the blood-brain barrier, reaching a concentration of 10.8 µM in brain tissue, with a half-life of 1.22 hours. UNSW-SC-22 significantly reduced the tumour burden and improved overall survival of MYCN-driven NB and MB mice. MYCN protein expression was downregulated in tumours collected from mice treated with UNSW-SC-22.Conclusion:Collectively, our data suggest that MYCN and c-MYC are the direct molecular targets of UNSW-SC compounds. These compounds have strong potential to serve as specific targeted therapy to treat MYCN/c-MYC driven paediatric and adult cancers.Citation Format:Satyanarayana Gadde, Sin Wi Ng, Natalie Chung, Qian Wang, Larissa Doughty, Tracey Nero, Maria Tsoli, David Ziegler, Louis Chesler, Michael Parker, Naresh Kumar, Belamy Cheung, Glenn Marshall. Development of MYCN/MYC inhibitors [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2025; Part 1 (Regular Abstracts); 2025 Apr 25-30; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2025;85(8_Suppl_1):Abstract nr 6863.

项与 Children's Cancer Institute Australia 相关的新闻（医药）

2024-06-28

·drugs

Precision-Guided Treatment Improves Outcomes for High-Risk Pediatric Cancer

FRIDAY, June 28, 2024 -- Precision-guided treatment improves outcomes for children with high-risk cancer, according to a study published online June 6 in Nature Medicine . Loretta M.S. Lau, M.B.B.S., Ph.D., from the Children's Cancer Institute at the University of New South Wales Sydney, and colleagues reported data from 384 patients with high-risk pediatric cancer with at least 18 months of follow-up on the ZERO Childhood Cancer Precision Medicine Program PRecISion Medicine for Children with Cancer trial to examine which patients will benefit most from PGT. Overall, 67 and 29 percent of children received PGT recommendations and received a recommended treatment, respectively. The researchers found that the objective response rate was 36 percent with PGT, and two-year progression-free survival was improved with PGT versus standard of care or targeted agents not guided by other molecular findings (26 percent versus 12 and 5.2 percent, respectively). Based on tier 1 evidence, the greatest clinical benefit was seen for PGT targeting fusions or commenced before disease progression. "This study demonstrates that children with high-risk cancers benefit from PGT identified by comprehensive molecular profiling," the authors write. "Treatment strategies should focus on the identification of drivers and early treatment of patients with highly targetable molecular drivers." Several authors disclosed ties to the pharmaceutical industry. Abstract/Full Text Whatever your topic of interest, subscribe to our newsletters to get the best of Drugs.com in your inbox.

临床结果ASCO会议

2019-07-30

·BioPortfolio

New drug provides hope for babies with aggressive acute lymphoblastic leukaemia

A breakthrough new drug is providing hope to tiny babies at risk of dying from an aggressive form of acute lymphoblastic leukaemia and could help all cancer patients. A team from Children's Cancer Institute in Sydney has proven a ferocious form of the...

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