Katarzyna Radke scite author profile

Chemotherapy resistance and relapses are common in high-risk neuroblastoma (NB). Here, we developed a clinically relevant in vivo treatment protocol mimicking the first-line five-chemotherapy treatment regimen of high-risk NB and applied this protocol to mice with MYCN -amplified NB patient-derived xenografts (PDXs). Genomic and transcriptomic analyses were used to reveal NB chemoresistance mechanisms. Intrinsic resistance was associated with high genetic diversity and an embryonic phenotype. Relapsed NB with acquired resistance showed a decreased adrenergic phenotype and an enhanced immature mesenchymal–like phenotype, resembling multipotent Schwann cell precursors. NBs with a favorable treatment response presented a lineage-committed adrenergic phenotype similar to normal neuroblasts. Novel integrated phenotypic gene signatures reflected treatment response and patient prognosis. NB organoids established from relapsed PDX tumors retained drug resistance, tumorigenicity, and transcriptional cell states. This work sheds light on the mechanisms of NB chemotherapy response and emphasizes the importance of transcriptional cell states in chemoresistance.

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Therapeutic targeting of KSP in preclinical models of high-risk neuroblastoma

Hansson

Radke

Aaltonen

et al. 2020

Sci. Transl. Med.

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Neuroblastoma is a childhood malignancy with often dismal prognosis; relapse is common despite intense treatment. Here, we used human tumor organoids representing multiple MYCN-amplified high-risk neuroblastomas to perform a high-throughput drug screen with approved or emerging oncology drugs. Tumor-selective effects were calculated using drug sensitivity scores. Several drugs with previously unreported anti-neuroblastoma effects were identified by stringent selection criteria. ARRY-520, an inhibitor of kinesin spindle protein (KSP), was among those causing reduced viability. High expression of the KSP-encoding gene KIF11 was associated with poor outcome in neuroblastoma. Genome-scale loss-of-function screens in hundreds of human cancer cell lines across 22 tumor types revealed that KIF11 is particularly important for neuroblastoma cell viability. KSP inhibition in neuroblastoma patient-derived xenograft (PDX) cells resulted in the formation of abnormal monoastral spindles, mitotic arrest, up-regulation of mitosis-associated genes, and apoptosis. In vivo, KSP inhibition caused regression of MYCN-amplified neuroblastoma PDX tumors. Furthermore, treatment of mice harboring orthotopic neuroblastoma PDX tumors resulted in increased survival. Our results suggested that KSP inhibition could be a promising treatment strategy in children with high-risk neuroblastoma.

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Anti‐tumor effects of PIM / PI 3K/ mTOR triple kinase inhibitor IBL ‐302 in neuroblastoma

et al. 2019

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The PI 3K pathway is a major driver of cancer progression. However, clinical resistance to PI 3K inhibition is common. IBL ‐302 is a novel highly specific triple PIM , PI 3K, and mTOR inhibitor. Screening IBL ‐302 in over 700 cell lines representing 47 tumor types identified neuroblastoma as a strong candidate for PIM / PI 3K/ mTOR inhibition. IBL ‐302 was more effective than single PI 3K inhibition in vitro, and IBL ‐302 treatment of neuroblastoma patient‐derived xenograft ( PDX ) cells induced apoptosis, differentiated tumor cells, and decreased N‐Myc protein levels. IBL ‐302 further enhanced the effect of the common cytotoxic chemotherapies cisplatin, doxorubicin, and etoposide. Global genome, proteome, and phospho‐proteome analyses identified crucial biological processes, including cell motility and apoptosis, targeted by IBL ‐302 treatment. While IBL ‐302 treatment alone reduced tumor growth in vivo , combination therapy with low‐dose cisplatin inhibited neuroblastoma PDX growth. Complementing conventional chemotherapy treatment with PIM / PI 3K/ mTOR inhibition has the potential to improve clinical outcomes and reduce severe late effects in children with high‐risk neuroblastoma.

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Anti-tumor effects of rigosertib in high-risk neuroblastoma

Radke

Hansson

Sjölund

et al. 2021

Translational Oncology

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Highlights Analysis of multiple tumor types reveal neuroblastoma sensitivity to rigosertib. Neuroblastoma 2D and 3D organoid models are sensitive to rigosertib. Rigosertib causes G2M cell cycle arrest rather than inhibition of Ras binding domains. Rigosertib prolongs survival of MYCN - amplified patient-derived xenograft tumors. Combination of rigosertib and vincristine is synergistic against neuroblastoma.

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Patient-derived models: Advanced tools for precision medicine in neuroblastoma

et al. 2023

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Neuroblastoma is a childhood cancer derived from the sympathetic nervous system. High-risk neuroblastoma patients have a poor overall survival and account for ~15% of childhood cancer deaths. There is thus a need for clinically relevant and authentic models of neuroblastoma that closely resemble the human disease to further interrogate underlying mechanisms and to develop novel therapeutic strategies. Here we review recent developments in patient-derived neuroblastoma xenograft models and in vitro cultures. These models can be used to decipher mechanisms of metastasis and treatment resistance, for drug screening, and preclinical drug testing. Patient-derived neuroblastoma models may also provide useful information about clonal evolution, phenotypic plasticity, and cell states in relation to neuroblastoma progression. We summarize current opportunities for, but also barriers to, future model development and application. Integration of patient-derived models with patient data holds promise for the development of precision medicine treatment strategies for children with high-risk neuroblastoma.

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Katarzyna Radke

Clinically relevant treatment of PDX models reveals patterns of neuroblastoma chemoresistance

Therapeutic targeting of KSP in preclinical models of high-risk neuroblastoma

Anti‐tumor effects of PIM / PI 3K/ mTOR triple kinase inhibitor IBL ‐302 in neuroblastoma

Anti-tumor effects of rigosertib in high-risk neuroblastoma

Patient-derived models: Advanced tools for precision medicine in neuroblastoma

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