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. 2016 Jul 1:1642:270-277.
doi: 10.1016/j.brainres.2016.04.005. Epub 2016 Apr 6.

Pyruvate treatment attenuates cerebral metabolic depression and neuronal loss after experimental traumatic brain injury

Nobuhiro Moro  1 Sima S Ghavim  2 Neil G Harris  3 David A Hovda  4 Richard L Sutton  5
Affiliations

Pyruvate treatment attenuates cerebral metabolic depression and neuronal loss after experimental traumatic brain injury

Nobuhiro Moro et al. Brain Res. .

Abstract

Experimental traumatic brain injury (TBI) is known to produce an acute increase in cerebral glucose utilization, followed rapidly by a generalized cerebral metabolic depression. The current studies determined effects of single or multiple treatments with sodium pyruvate (SP; 1000mg/kg, i.p.) or ethyl pyruvate (EP; 40mg/kg, i.p.) on cerebral glucose metabolism and neuronal injury in rats with unilateral controlled cortical impact (CCI) injury. In Experiment 1 a single treatment was given immediately after CCI. SP significantly improved glucose metabolism in 3 of 13 brain regions while EP improved metabolism in 7 regions compared to saline-treated controls at 24h post-injury. Both SP and EP produced equivalent and significant reductions in dead/dying neurons in cortex and hippocampus at 24h post-CCI. In Experiment 2 SP or EP were administered immediately (time 0) and at 1, 3 and 6h post-CCI. Multiple SP treatments also significantly attenuated TBI-induced reductions in cerebral glucose metabolism (in 4 brain regions) 24h post-CCI, as did multiple injections of EP (in 4 regions). The four pyruvate treatments produced significant neuroprotection in cortex and hippocampus 1day after CCI, similar to that found with a single SP or EP treatment. Thus, early administration of pyruvate compounds enhanced cerebral glucose metabolism and neuronal survival, with 40mg/kg of EP being as effective as 1000mg/kg of SP, and multiple treatments within 6h of injury did not improve upon outcomes seen following a single treatment.

Keywords: (14)C-2DG; Controlled cortical impact; Fluoro-Jade B; Pyruvate; Rat.

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Figures

Fig. 1
Fig. 1
Mean (bars represent SEM) asymmetry scores [((L−R)/L+R)*100] for CMRGlc in brain regions 24 h after Sham or CCI injury and a single treatment of saline (SAL), sodium pyruvate (SP) or ethyl pyruvate (EP). # p < 0.001 compared to Sham injury; a p < 0.05, b p < 0.01, c p < 0.001 compared to CCI-SAL.
Fig. 2
Fig. 2
Diagram illustrating regions for counts of FJB+ neurons within the midline peri-contusional cortex (dark grey fill) and in the dorsal and ventral CA3 (light grey fill) and hilus (black fill). Numbers indicate the mm posterior to Bregma.
Fig. 3
Fig. 3
Shows the mean (bars represent SEM) cell densities for dead/dying neurons in the left peri-contusional cortex, hilus and CA3 subsector of the hippocampus 24 h after CCI injury and a single treatment of saline (SAL), sodium pyruvate (SP) or ethyl pyruvate (EP). * p ≤ 0.05, ** p < 0.01 compared to CCI-SAL.
Fig. 4
Fig. 4
Mean (bars represent SEM) asymmetry scores [((L−R)/L+R)*100] for CMRGlc in brain regions 24 h after Sham or CCI injury and four treatments of saline (SAL), sodium pyruvate (SP) or ethyl pyruvate (EP). SHAM denotes pooled data for Sham-SAL, Sham-SP and Sham-EP groups. # p < 0.001 compared to SHAM; a p ≤ 0.05, b p < 0.01, c p < 0.001 compared to CCI-SAL; d p < 0.05 compared to CCI-EP.
Fig. 5
Fig. 5
Mean (bars represent SEM) cell densities for dead/dying neurons in the left peri-contusional cortex, hilus and CA3 subsector of the hippocampus 24 h after CCI injury and four treatments of saline (SAL), sodium pyruvate (SP) or ethyl pyruvate (EP). * p < 0.05, ** p < 0.01, *** p ≤ 0.001 compared to CCI-SAL.
See this image and copyright information in PMC

References

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