Combined irradiation by gamma-rays and carbon-12 nuclei caused hyperlocomotion and change in striatal metabolism of rats.

Exposure to ionizing radiation during manned deep space missions to Mars could lead to functional impairments of the central nervous system, which may compromise the success of the mission and affect the quality of life for returning astronauts. Along with radiation-induced changes in cognitive abilities and emotional status, the effects of increased motor activity were observed. The mechanisms behind these phenomena still remain unresolved. We conducted a study on grip strength, locomotor activity and intrasession habituation to novelty in 5-month-old rats after exposure to radiation (combined 0.4 Gy gamma-rays and 0.14 Gy C nuclei). At the same time, we carried out neurochemical and molecular analysis of the nucleus accumbens (NAc) and the dorsal striatum (dST). The study revealed radiation-induced hyperlocomotion and enhanced habituation. It also showed an increase in choline concentration and a decreased in 5-hydroxyindoleacetic acid concentration in the NAc after irradiation. In addition to this, a down-regulation of syntaxin 1A in NAc and dST as well as up-regulation α-synuclein in NAc were observed. The obtained data indicate both the damaging effect of irradiation on striatum tissues and the initiation of neuronal/axonal regeneration processes. It is hypothesized that the increase in choline concentration in NAc and the decreased content of syntaxin 1A in dST may be the part of the mechanism responsible for the radiation-induced hyperlocomotion.