Researchers have developed a human in vitro model that closely mimics the complexities of radiation-induced lung injury (RILI) and radiation dose sensitivity of the human lung. Using a previously developed microfluidic human Lung Alveolus Chip lined by human lung alveolar epithelial cells interfaced with lung capillary cells to recreate the alveolar-capillary interface in vitro, the researchers recapitulated many of the hallmarks of RILI, including radiation-induced DNA damage in lung tissue, cell-specific changes in gene expression, inflammation, and injury to both the lung epithelial cells and blood vessel-lining endothelial cells. By also evaluating the potential of two drugs to suppress the effects of acute RILI, the researchers demonstrated their model's capabilities as an advanced, human-relevant, preclinical, drug discovery platform.
Read more …Human Lung Chip leveraged to faithfully model radiation-induced lung injury
Glioblastoma is the most common type of brain tumor that affects adults and, unfortunately, still remains incurable. In a new study, researchers have demonstrated that a specific mitochondrial protein plays an important role in glioblastoma, and can therefore be used as a potential target to reduce tumors.
Read more …Mitochondrial protein plays key role in glioblastoma and therapeutic resistance