- Desai, Rajeev I;
- Kangas, Brian D;
- Luc, Oanh T;
- Solakidou, Eleana;
- Smith, Evan C;
- Dawes, Monica H;
- Ma, Xiaoyu;
- Makriyannis, Alexandros;
- Chatterjee, Subhamoy;
- Dayeh, Maher A;
- Muñoz-Jaramillo, Andrés;
- Desai, Mihir I;
- Limoli, Charles L
Astronauts will encounter extended exposure to galactic cosmic radiation (GCR) during deep space exploration, which could impair brain function. Here, we report that in male mice, acute or chronic GCR exposure did not modify reward sensitivity but did adversely affect attentional processes and increased reaction times. Potassium (K+)-stimulation in the prefrontal cortex (PFC) elevated dopamine (DA) but abolished temporal DA responsiveness after acute and chronic GCR exposure. Unlike acute GCR, chronic GCR increased levels of all other neurotransmitters, with differences evident between groups after higher K+-stimulation. Correlational and machine learning analysis showed that acute and chronic GCR exposure differentially reorganized the connection strength and causation of DA and other PFC neurotransmitter networks compared to controls which may explain space radiation-induced neurocognitive deficits.