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  • Single-cell analysis of hepatoblastoma identifies tumor signatures that predict chemotherapy susceptibility using patient-specific tumor spheroids.

Single-cell analysis of hepatoblastoma identifies tumor signatures that predict chemotherapy susceptibility using patient-specific tumor spheroids.

Nature communications (2022-08-26)
Hanbing Song, Simon Bucher, Katherine Rosenberg, Margaret Tsui, Deviana Burhan, Daniel Hoffman, Soo-Jin Cho, Arun Rangaswami, Marcus Breese, Stanley Leung, María V Pons Ventura, E Alejandro Sweet-Cordero, Franklin W Huang, Amar Nijagal, Bruce Wang
RÉSUMÉ

Pediatric hepatoblastoma is the most common primary liver cancer in infants and children. Studies of hepatoblastoma that focus exclusively on tumor cells demonstrate sparse somatic mutations and a common cell of origin, the hepatoblast, across patients. In contrast to the homogeneity these studies would suggest, hepatoblastoma tumors have a high degree of heterogeneity that can portend poor prognosis. In this study, we use single-cell transcriptomic techniques to analyze resected human pediatric hepatoblastoma specimens, and identify five hepatoblastoma tumor signatures that may account for the tumor heterogeneity observed in this disease. Notably, patient-derived hepatoblastoma spheroid cultures predict differential responses to treatment based on the transcriptomic signature of each tumor, suggesting a path forward for precision oncology for these tumors. In this work, we define hepatoblastoma tumor heterogeneity with single-cell resolution and demonstrate that patient-derived spheroids can be used to evaluate responses to chemotherapy.

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Etoposide, A cell-permeable derivative of podophyllotoxin that acts as a topoisomerase II inhibitor (IC₅₀ = 59.2 µM) has major activity against a number of tumors, including germ cell neoplasms, small cell lung cancer, and malignant lymphoma.
Vincristine sulfate, European Pharmacopoeia (EP) Reference Standard