Methylmalonate (MMA) and propionate effects on glucose and ketone body uptake in vitro by brain of fed and 30-hour-fasted 15-day-old rats were studied. In some experiments cerebrum prisms were incubated in the presence of glucose and either MMA or propionate in Krebs-Ringer bicarbonate buffer, pH 7.0. In others, the incubation medium contained beta-hydroxybutyrate (HBA) or acetoacetate (AcAc) instead of glucose. We verified that MMA increased glucose uptake by brain of fasting animals, whereas propionate had no effect. In addition, MMA diminished HBA but not AcAc incorporation into brain prisms, whereas propionate provoked a diminished utilization of both ketone bodies by brain. The in vitro effect of MMA and propionate on brain and liver beta-hydroxybutyrate dehydrogenase activity was also investigated. It was shown that MMA but not propionate significantly inhibited this activity. Rats were also injected subcutaneously three times with a MMA buffered solution, and the in vivo effects of MMA on the above-mentioned parameters assessed. Results from these experiments confirmed the previously found in vitro MMA effects. Methylmalonic acidemic patients accumulate primarily methylmalonate and secondarily propionate and other metabolites in their tissues at levels comparable to those we used in our assays. Most patients who survive early stages of the disease show a variable degree of neuromotor delay. Since glucose and sometimes ketones are the vital substrates for brain metabolism, it is possible that our findings may contribute to a certain extent to an understanding of the biochemical basis of mental retardation in these patients.