DFMO inhibition of neuroblastoma tumorigenesis

Background Most high‐risk neuroblastoma patients who relapse succumb to disease despite the existing therapy. We recently reported increased event‐free and overall survival in neuroblastoma patients receiving difluoromethylornithine (DFMO) during maintenance therapy. The effect of DFMO on cellular p...

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Published in:Cancer medicine (Malden, MA) MA), 2024-05, Vol.13 (9), p.e7207-n/a
Main Authors: Gandra, Divya, Mulama, David H., Foureau, David M., McKinney, Kimberly Q., Kim, Elizabeth, Smith, Kaitlyn, Haw, Jason, Nagulapally, Abhinav, Saulnier Sholler, Giselle L.
Format: Article
Language:English
Subjects:
Animal models
Animals
Antineoplastic Agents - pharmacology
Antineoplastic Agents - therapeutic use
Apoptosis
Apoptosis - drug effects
Biosynthesis
Carcinogenesis - drug effects
Cell culture
Cell cycle
Cell Cycle - drug effects
Cell growth
Cell Line, Tumor
Cell Proliferation - drug effects
Cell Survival - drug effects
Cell viability
Children & youth
Cytotoxicity
DFMO
Drug dosages
Eflornithine
Eflornithine - pharmacology
Eflornithine - therapeutic use
ELDA
Female
Gene amplification
Humans
Laboratories
Mathematical models
Medical prognosis
Metabolism
Mice
Neuroblastoma
Neuroblastoma - drug therapy
Neuroblastoma - metabolism
Neuroblastoma - pathology
neurosphere
Neurospheres
Penicillin
Polyamines
Proteins
S phase
Senescence
Statistical analysis
Tumor cell lines
Tumorigenesis
Tumors
xenograft
Xenograft Model Antitumor Assays
β-Galactosidase
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Summary:Background Most high‐risk neuroblastoma patients who relapse succumb to disease despite the existing therapy. We recently reported increased event‐free and overall survival in neuroblastoma patients receiving difluoromethylornithine (DFMO) during maintenance therapy. The effect of DFMO on cellular processes associated with neuroblastoma tumorigenesis needs further elucidation. Previous studies have shown cytotoxicity with IC50 values >5–15 mM, these doses are physiologically unattainable in patients, prompting further mechanistic studies at therapeutic doses. Methods We characterized the effect of DFMO on cell viability, cell cycle, apoptosis, neurosphere formation, and protein expression in vitro using five established neuroblastoma cell lines (BE2C, CHLA‐90, SHSY5Y, SMS‐KCNR, and NGP) at clinically relevant doses of 0, 50, 100, 500, 1000, and 2500 μM. Limiting Dilution studies of tumor formation in murine models were performed. Statistical analysis was done using GraphPad and the level of significance set at p = 0.05. Results There was not a significant loss of cell viability or gain of apoptotic activity in the in vitro assays (p > 0.05). DFMO treatment initiated G1 to S phase cell cycle arrest. There was a dose‐dependent decrease in frequency and size of neurospheres and a dose‐dependent increase in beta‐galactosidase activity in all cell lines. Tumor formation was decreased in xenografts both with DFMO‐pretreated cells and in mice treated with DFMO. Conclusion DFMO treatment is cytostatic at physiologically relevant doses and inhibits tumor initiation and progression in mice. This study suggests that DFMO, inhibits neuroblastoma by targeting cellular processes integral to neuroblastoma tumorigenesis at clinically relevant doses.
ISSN:2045-7634
2045-7634
DOI:10.1002/cam4.7207