Effects of minocycline and rapamycin in gamma-irradiated human embryonic stem cells-derived cerebral organoids.

Antos Shakhbazau Natalya Danilkovich Ihar Seviaryn Tatyana Ermilova Svetlana Kosmacheva

Mol Biol Rep

Republican Scientific and Practical Centre of Transfusion and Medical Biotechnology, Minsk, Belarus.

Published: February 2019

Radiation induces DNA and protein damage and free radical formation, effectively establishing cellular senescence in a variety of models. We demonstrate the effects of two known pleiotropic drugs following gamma radiation damage in neurosphere/cerebral organoid system based on human embryonic stem cells. mTORC1 repression by rapamycin prior to irradiation, or metabolic activation by minocycline after irradiation, partially rescues neuroepithelium integrity, neurite-growing capacity, ventricle formation and extracellular acidification rate as an integral measure of metabolic output. Cerebral organoid model thus provides valid and robust readouts for radiation studies in a complex 3D setting.

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http://dx.doi.org/10.1007/s11033-018-4552-6	DOI Listing

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