کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
---|---|---|---|---|
2200809 | 1099978 | 2013 | 10 صفحه PDF | دانلود رایگان |
![عکس صفحه اول مقاله: Acetate supplementation increases brain phosphocreatine and reduces AMP levels with no effect on mitochondrial biogenesis Acetate supplementation increases brain phosphocreatine and reduces AMP levels with no effect on mitochondrial biogenesis](/preview/png/2200809.png)
Acetate supplementation in rats increases plasma acetate and brain acetyl-CoA levels. Although acetate is used as a marker to study glial energy metabolism, the effect that acetate supplementation has on normal brain energy stores has not been quantified. To determine the effect(s) that an increase in acetyl-CoA levels has on brain energy metabolism, we measured brain nucleotide, phosphagen and glycogen levels, and quantified cardiolipin content and mitochondrial number in rats subjected to acetate supplementation. Acetate supplementation was induced with glyceryl triacetate (GTA) by oral gavage (6 g/kg body weight). Rats used for biochemical analysis were euthanized using head-focused microwave irradiation at 2, and 4 h following treatment to immediately stop metabolism. We found that acetate did not alter brain ATP, ADP, NAD, GTP levels, or the energy charge ratio [ECR, (ATP + ½ ADP)/(ATP + ADP + AMP)] when compared to controls. However, after 4 h of treatment brain phosphocreatine levels were significantly elevated with a concomitant reduction in AMP levels with no change in glycogen levels. In parallel studies where rats were treated with GTA for 28 days, we found that acetate did not alter brain glycogen and mitochondrial biogenesis as determined by measuring brain cardiolipin content, the fatty acid composition of cardiolipin and using quantitative ultra-structural analysis to determine mitochondrial density/unit area of cytoplasm in hippocampal CA3 neurons. Collectively, these data suggest that an increase in brain acetyl-CoA levels by acetate supplementation does increase brain energy stores however it has no effect on brain glycogen and neuronal mitochondrial biogenesis.
► Direct evidence for acetate supplementation stimulating brain bioenergetics.
► Following 4 h of acetate supplementation rat brain phosphocreatine levels increase.
► In parallel it reduces brain AMP levels without altering other nucleotides.
► Long-term acetate supplementation does not alter mitochondrial biogenesis.
Journal: Neurochemistry International - Volume 62, Issue 3, February 2013, Pages 296–305