TY  - JOUR
AU  - Herter, Sonja
AU  - Emperador, Marta
AU  - Smyrilli, Kyriaki
AU  - Kocher, Daniela
AU  - Celikyürekli, Simay
AU  - Zeiser, Constantia
AU  - Gerloff, Xenia
AU  - Kreth, Sina
AU  - Henrich, Kai-Oliver
AU  - Maaß, Kendra K
AU  - Rettenmeier, Johanna
AU  - Grünewald, Thomas
AU  - Peterziel, Heike
AU  - Westermann, Frank
AU  - Hamacher-Brady, Anne
AU  - Witt, Olaf
AU  - Oehme, Ina
TI  - High content-imaging drug synergy screening identifies specific senescence-related vulnerabilities of mesenchymal neuroblastomas.
JO  - Cell death & disease
VL  - 16
IS  - 1
SN  - 2041-4889
CY  - London [u.a.]
PB  - Nature Publishing Group
M1  - DKFZ-2025-01774
SP  - 644
PY  - 2025
N1  - #EA:B310#LA:B310#
AB  - Neuroblastomas encompass malignant cells with varying degrees of differentiation, ranging from adrenergic (adr) cells resembling the sympathoadrenal lineage to undifferentiated, stem-cell-like mesenchymal (mes) cancer cells. Relapsed neuroblastomas, which often have mesenchymal features, have a poor prognosis and respond less to anticancer therapies, necessitating the development of novel treatment strategies. To identify novel treatment options, we analyzed the sensitivity of 91 pediatric cell models, including patient-derived tumoroid cultures, to a drug library of 76 anti-cancer drugs at clinically relevant concentrations. This included 24 three-dimensionally cultured neuroblastoma cell lines representing the range of mesenchymal to adrenergic subtypes. High-throughput ATP-based luminescence measurements were compared to high-content confocal imaging. With machine learning-supported imaging analysis, we focused on changes in the lysosomal compartment as a marker for therapy-induced senescence and assessed the basal lysosomal levels in a subset of untreated mesenchymal versus adrenergic cells. We correlated these findings with pathway activity signatures based on bulk RNA and scRNAseq. Comprehensive image-based synergy screens with spheroid cultures validated the combined effects of selected drugs on proliferation and cytotoxicity. Mesenchymal models presented high basal lysosomal levels correlating with senescence-associated secretory phenotype (SASP) and sphingolipid metabolism pathways. Chemotherapy treatment further increased lysosome numbers, indicative of therapy-induced senescence. Furthermore, the mesenchymal subtypes correlated with MAPK activity and sensitivity to MAPK pathway inhibitors. Lysosomal and SASP signaling is druggable by inhibitors of lysosomal acid sphingomyelinase (SLMi) or senolytics, including BCL2-family inhibitors. Especially the sequential combination of MEK inhibitors (MEKi) with BCL2-family inhibitors was the most effective on relapsed neuroblastoma cell lines. Gene expression analysis of 223 patient samples, drug sensitivity profiling of five patient-derived fresh tissue cultures, and in vivo zebrafish embryo neuroblastoma xenograft models confirmed these findings. Inhibition of MAPK signaling in combination with BCL2-family inhibitors is a novel treatment option for patients suffering from relapsed neuroblastomas.
KW  - Humans
KW  - Neuroblastoma: pathology
KW  - Neuroblastoma: drug therapy
KW  - Neuroblastoma: metabolism
KW  - Neuroblastoma: genetics
KW  - Cellular Senescence: drug effects
KW  - Cell Line, Tumor
KW  - Animals
KW  - Antineoplastic Agents: pharmacology
KW  - Drug Synergism
KW  - Mesenchymal Stem Cells: drug effects
KW  - Mesenchymal Stem Cells: metabolism
KW  - Mesenchymal Stem Cells: pathology
KW  - Cell Proliferation: drug effects
KW  - Lysosomes: metabolism
KW  - Lysosomes: drug effects
KW  - Zebrafish
KW  - Antineoplastic Agents (NLM Chemicals)
LB  - PUB:(DE-HGF)16
C6  - pmid:40854877
C2  - pmc:PMC12379013
DO  - DOI:10.1038/s41419-025-07933-1
UR  - https://inrepo02.dkfz.de/record/304111
ER  -