Radiation-Induced Cellular Plasticity: A Strategy for Combatting Glioblastoma

He, Ling; Azizad, Daria; Bhat, Kruttika; Ioannidis, Angeliki; Hoffmann, Carter J.; Arambula, Evelyn; Bhaduri, Aparna; Kornblum, Harley I.; Pajonk, Frank

doi:10.1101/2024.05.13.593985

2024

DOI: 10.1101/2024.05.13.593985

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Radiation-Induced Cellular Plasticity: A Strategy for Combatting Glioblastoma

Ling He,

Daria Azizad,

Kruttika Bhat

et al.

Abstract: Glioblastoma is the deadliest brain cancer in adults and almost all patients succumb to the tumor. While surgery followed by chemo-radiotherapy significantly delays disease progression, these treatments do not lead to long-term tumor control and targeted therapies or biologics have so far failed to further improve survival. Utilizing a transient radiation-induced state of multipotency we used the adenylcyclase activator forskolin to alter the cellular fate of glioma cells in response to radiation. The combined… Show more

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References 60 publications

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Transcriptome of the murine duodenum during recovery after a lethal dose of total body irradiation

He,

Bhat,

Pajonk

2024

Preprint

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In the aftermath of 9/11, the radiobiology community sought novel radiation mitigators capable of preventing death when administered 24 hours or later after exposure to lethal ionizing radiation. The survival and expansion of normal stem cells are crucial for restoring tissue integrity in time to prevent mortality. While FDA-approved drugs for acute radiation syndrome primarily target the hematopoietic system, restoring the integrity of the intestinal lining is equally important for survival. However, the radiation response of the intestinal stem cell (ISC) population and its niche environment is not as well understood as that of the bone marrow. The aim of this study was to explore early transcriptomic changes in the small intestine after a lethal dose of total body irradiation (TBI), and during subsequent recovery. C3H/Sed/Kam mice were irradiated with a TBI dose of 16 Gy, the published LD70/10. The compound 1-[(4-Nitrophenyl)sulfonyl]-4-phenylpiperazine (NSPP) was administered 24 hours post irradiation. RNAs from the proximal duodenum were extracted at 28, 72, and 96 hours post-irradiation and subjectedto RNA-sequencing. Differentially expressed genes were analyzed using gene-set enrichment analysis.Radiation induced significant transcriptomic changes known to precede the death of lymphatic endothelial and epithelial cells. Upregulation of Lgr5+ ISC gene signature was observed during recovery. NSPP treatment further amplified the activation of ISC-associated genes and other regenerative markers. Notably, gene Psrc1 showed strong activation throughout the recovery process, highlighting its potential role in this regenerative response. These findings suggest additional points of intervention for radiation mitigation in the intestines beyond targeting programmed cell death.

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Transcriptome of the murine duodenum during recovery after a lethal dose of total body irradiation

He,

Bhat,

Pajonk

2024

Preprint

View full text Add to dashboard Cite

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Radiation-Induced Cellular Plasticity: A Strategy for Combatting Glioblastoma

Cited by 1 publication

References 60 publications

Transcriptome of the murine duodenum during recovery after a lethal dose of total body irradiation

Transcriptome of the murine duodenum during recovery after a lethal dose of total body irradiation

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