Tanshinone IIa alleviates the biochemical changes associated with hypoxic ischemic brain damage in a rat model.

This study aimed to investigate the effects of Tanshinone IIa (TanIIa) on the biochemical changes associated with hypoxic ischemic brain damage (HIBD) in a rat model. Neonatal SD rats were randomized into normal control, HIBD and TanIIa + HIBD groups. At different time points after HIBD, TanIIa was given at 1 µg/g. The intracellular free calcium concentration and the expression of phospho-NR1 S897 was determined. The intracellular free calcium concentration in the HIBD group was significantly increased. The induction of intracellular free calcium concentration in the TanIIa + HIBD group was less than that in the HIBD group. Large amounts of phospho-NR1 S897 positive cells were distributed in the cortex in the normal control group; the number of phospho-NR1 S897 positive cells in the ipsilateral cortex was dramatically decreased at 24 h after HIBD. Both the number of phospho-NR1 S897 positive cells and the FITC fluorescent density in the HIBD + TanIIa group were less than those in the normal control group at every time point after HIBD, but more than those in the HIBD group. TanIIa alleviated the down-regulation of phospho-NR1 S897 and the elevated intracellular free calcium concentration in the cerebral cortex in the HIBD model. TanIIa could exert a neuroprotective effect through affecting NMDA receptor expression, inhibiting calcium transportation and decreasing the intracellular free calcium concentration.