Proton therapy induces a local microglial neuroimmune response.

Background And Purpose: Although proton therapy is increasingly being used in the treatment of paediatric and adult brain tumours, there are still uncertainties surrounding the biological effect of protons on the normal brain. Microglia, the brain-resident macrophages, have been shown to play a role in the development of radiation-induced neurotoxicity. However, their molecular and hence functional response to proton irradiation remains unknown.

Mitophagy induction improves salivary gland stem/progenitor cell function by reducing senescence after irradiation.

Background And Purpose: Patients undergoing radiotherapy for head and neck cancer often experience a decline in their quality of life due to the co-irradiation of salivary glands. Radiation-induced cellular senescence is a key factor contributing to salivary gland dysfunction. Interestingly, mitochondrial dysfunction and cellular senescence have been reported to be strongly interconnected and thus implicated in several aging-related diseases.

The Hippo signaling pathway effector YAP promotes salivary gland regeneration after injury.

Salivary glands are damaged by radiotherapy for head and neck cancers, which often culminates in radiation-induced hyposalivation and xerostomia that may be permanent. Here, we identified a central role for YAP in the regenerative response of the salivary gland. Activation of the Hippo signaling pathway inhibits the phosphorylation of YAP, leading to its nuclear translocation and transcriptional activity.

DNA Damage-Induced Inflammatory Microenvironment and Adult Stem Cell Response.

Adult stem cells ensure tissue homeostasis and regeneration after injury. Due to their longevity and functional requirements, throughout their life stem cells are subject to a significant amount of DNA damage. Genotoxic stress has recently been shown to trigger a cascade of cell- and non-cell autonomous inflammatory signaling pathways, leading to the release of pro-inflammatory factors and an increase in the amount of infiltrating immune cells.

Mouse parotid salivary gland organoids for the in vitro study of stem cell radiation response.

Objective: Hyposalivation-related xerostomia is an irreversible, untreatable, and frequent condition after radiotherapy for head and neck cancer. Stem cell therapy is an attractive option of treatment, but demands knowledge of stem cell functioning. Therefore, we aimed to develop a murine parotid gland organoid model to explore radiation response of stem cells in vitro.