Huperzine aggravated neurochemical and volumetric changes induced by D-galactose in the model of neurodegeneration in rats

The multimodal MRI and 1H MRS study was designed to provide a structural and neurochemical view of D-galactose induced rat brain degeneration and its treatment with huperzine A. The volume changes were captured using MRI focused on the hippocampal region and a neurochemical profile was obtained from the same area using in vivo localized 1H MRS, which was compared with in vitro 1H MRS hippocampal spectra at the high field after the animals were culled. At the four week point, we observed a small decrease in N-acetylaspartate/creatine (NAA/tCr), myo-inositol/creatine (mIns/tCr) and glutamine/creatine (Gln/tCr) in the group in which neurodegeneration was induced. At the eight week point, we found only slight but statistically significant decreases in NAA/tCr, mIns/tCr and glutamate/creatine (Glu/tCr) in this group in vivo. However, in the treated group, the decrease in NAA/tCr and Glu/tCr was much more pronounced compared to the D-gal group. In vitro 1H MRS analysis from rat hippocampal samples showed very similar changes in metabolites, which were also much more pronounced in the treated group. Neurodegeneration was also confirmed by a significant decrease in γ-aminobutyrate/creatine (GABA/tCr) observed only in the treated group, but not in the D-gal group. MRI image data and subsequent volumetric quantification showed mild hippocampal degeneration at the four week point in D-gal group. At the eight week point, we observed a decrease in hippocampal volume in both experimental groups, with a more pronounced decrease in the huperzine-treated group. In conclusion, in our experimental design huperzine A treatment worsened the neurodegeneration of the rat brain, which was supported by all of the used MRI and 1H MRS methods.