%0 Journal Article
%T D-Lactate altered mitochondrial energy production in rat brain and heart but not liver
%A Binbing Ling
%A Fei Peng
%A Jane Alcorn
%A Katharina Lohmann
%A Brian Bandy
%A Gordon A Zello
%J Nutrition & Metabolism
%D 2012
%I BioMed Central
%R 10.1186/1743-7075-9-6
%X Respiration rates in rat brain, heart and liver mitochondria were measured using DLA, LLA and pyruvate independently and in combination.In brain mitochondria, state 3 respiration was 53% and 75% lower with DLA as substrate when compared with LLA and pyruvate, respectively (p < 0.05). Similarly in heart mitochondria, state 3 respiration was 39% and 86% lower with DLA as substrate when compared with LLA or pyruvate, respectively (p < 0.05). However, state 3 respiration rates were similar between DLA, LLA and pyruvate in liver mitochondria. Combined incubation of DLA with LLA or pyruvate markedly impaired state 3 respiration rates in brain and heart mitochondria (p < 0.05) but not in liver mitochondria. DLA dehydrogenase activities were 61% and 51% lower in brain and heart mitochondria compared to liver, respectively, whereas LLA dehydrogenase activities were similar across all three tissues. An LDH inhibitor blocked state 3 respiration with LLA as substrate in all three tissues. A monocarboxylate transporter inhibitor blocked respiration with all three substrates.DLA was a poor respiratory substrate in brain and heart mitochondria and inhibited LLA and pyruvate usage in these tissues. Further studies are warranted to evaluate whether these findings support, in part, the possible neurological and cardiac toxicity caused by high DLA levels.Lactate exists as two stereoisomers, L-lactate and D-lactate. Under healthy physiological conditions, L-lactate is the major enantiomer found in blood whereas D-lactate is normally present in very low concentrations [1]. However, supra-physiological levels of D-lactate have been found in several disease states such as diarrhea, short bowel syndrome, and diabetes [2,3]. Most research in this area focus on the cause and the consequences of extremely high levels of D-lactate (> 3 mM D-lactate in plasma, resulting in D-lactic acidosis) in the body [3-7]. Although sub-clinical levels of D-lactate (high D-lactate levels, no acidosis) have b
%K D-Lactate
%K Mitochondrial function
%K Rat
%K Brain
%K Heart
%U http://www.nutritionandmetabolism.com/content/9/1/6