Clinically relevant treatment of PDX models reveals patterns of neuroblastoma chemoresistance.
Adriana MañasKristina AaltonenNatalie AnderssonKarin HanssonAleksandra AdamskaAlexandra SegerHiroaki YasuiHilda van den BosKatarzyna RadkeJavanshir EsfandyariMadhura Satish BhaveJenny KarlssonDiana Carolina Johanna SpieringsFloris FoijerDavid GisselssonDaniel BexellPublished in: Science advances (2022)
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.