γ-radiation reduces phosphorylated-tau in rhesus macaque brains: potential implications for Alzheimer’s disease and other tauopathies
摘要
Studies on the effects of γ-radiation on nonhuman primate (NHP) brains are limited, despite the critical need to understand the impact of radiation exposure on the brain from various sources like radiotherapy equipment, space travel, and potential nuclear events.
MethodsWe investigated molecular and neuropathological changes in rhesus macaque brains after a single 5.8 Gy total-body γ-radiation exposure. We analyzed samples dissected from frontal cortex (FCtx), hippocampus (Hippo), and cerebellum (CRB) of irradiated (RAD) vs. unirradiated/control (CTRL) animals. Western blotting and digital PCR (dPCR) analyses were used to measure different phosphorylated-Tau (pTau) forms and neurodegeneration markers (i.e., amyloid protein precursor [APP], neurofilament-light chain [NFL], glial fibrillary acidic protein [GFAP], ionized calcium-binding adapter molecule 1 [IBA1/AIF1], and myelin basic protein [MBP]).
ResultsWe detected lower levels of different forms of soluble pTau species (pTau181, and pTau217, among others) in RAD vs. CTRL animals across all three examined brain regions. While APP and GFAP levels were unchanged in the FCtx, increased IBA1 and NFL levels were detected alongside decreased MBP levels. Moreover, dPCR data identified decreased expression of GFAP and MBP in the FCtx. Importantly, the molecular changes observed were not accompanied by overt signs of neurodegeneration or cellular abnormalities upon neuropathological assessment.
ConclusionsThese findings in irradiated NHPs’ brains are novel and indicate that a single total-body γ-radiation exposure significantly alters soluble pTau levels after a few weeks from irradiation without causing obvious neurohistological damage. These results open intriguing new possibilities of exploring γ-radiation-based strategies to modulate the progression of tauopathies, including Alzheimer’s disease.