Effects of selective doses of x-irradiation on the levels of several amino acids in the cerebellum of the rat

Abstract

The cerebella of rats were exposed to selective doses of low levels of x-irradiation beginning on day 4, 8, or 12 following birth. The doses of x-irradiation given on days 12, 13, and 15 (12–15X group) resulted in a 24% reduction in the wet weight of the cerebella; the doses given on days 8, 9, 11, 13, and 15 (8–15X group) resulted in a 57% weight reduction; the doses given on days 4, 5, 7, 9, 11, 13, and 15 (4–15X group) resulted in a 67% weight reduction. The schedule of x-irradiation begun on day 12, which prevented the acquisition of the late-forming granule cells, reduced the levels (nmole/mg dry tissue weight) of alanine (22%) and glutamate (10%), and increased the levels of glycine (15%), GABA (13%), and taurine (71%), with respect to control values. The schedule begun on day 8, which prevented the acquisition of stellate and granule cells, reduced the levels of alanine (15%), glutamate (12%), and taurine (21%), and increased the levels of glycine (102%) and GABA (56%). The schedule begun on day 4, which prevented the acquisition of basket, stellate, and granule cells, reduced the level of glutamate (15%) and increased the levels of glycine (186%) and GABA (78%). The levels of alanine and taurine in the cerebella of the 4–15X group were the same as control values. The level of aspartate in the cerebella of the 3 groups of x-irradiated animals was not significantly different from control values. The consistent reduction in the level of glutamate as a function of the number of doses of x-irradiation is suggestive that glutamate may have a higher level in the granule cells than in other cells in the cerebellum, and that the higher level may be a reflection of a possible excitatory transmitter role for glutamate. In addition, the data are interpreted in terms of taurine being associated with the stellate cells and possibly serving as a transmitter for these inhibitory interneurons.