THE EFFECTS OF ALIPHATIC ALDEHYDES ON THE RESPIRATION OF RAT BRAIN CORTEX SLICES AND RAT BRAIN MITOCHONDRIA

Abstract

A study has been made of the effects of acetaldehyde and n-valeric aldehyde on the respiration of rat brain cortex slices in the presence and absence of 0.1 M KCl. Acetaldehyde at low concentrations (1–2 mM) brings about a marked inhibition of potassium-stimulated respiration of brain cortex slices. The inhibition by acetaldehyde occurs at 1/200th the concentration at which ethanol produces the same effects. The stimulation of brain respiration due to potassium ions is abolished by acetaldehyde at concentrations that have no observable effect on the unstimulated respiration. Acetaldehyde and n-valeric aldehyde, at equivalent concentrations, have almost equal inhibitory effects on potassium-stimulated rat brain cortex respiration. The inhibitory effects of the aldehydes do not increase sharply with increase of their concentrations, in contrast to the effects of the corresponding alcohols. The aldehydes, in contrast to the corresponding alcohols, inhibit brain mitochondrial respiration as markedly as they inhibit brain cortex respiration. The inhibitory effect of the aldehyde on mitochondrial respiration with pyruvate as substrate is greater in the presence of small quantities of malate than in the absence of malate. The acetaldehyde inhibition is abolished on the addition of DPN. The results obtained with the aldehydes do not support the view that the corresponding alcohols exercise their inhibitive effects on brain respiration by preliminary conversion to the aldehydes. It is suggested that the aldehydes exercise their inhibitory effects on brain respiration by rapid attainment of equilibrium with a constituent of the brain respiratory system associated with a rate-limiting step in the citric acid cycle.