Protein synthesis by brain-cortes mitochondria. Characterization of a 55S mitochondrial ribosome as the functional unit in protein synthesis by cortex mitochondria and its distinction from a contaminant cytoplasmic protein-synthesizing system.

Homogenates of rat brain cortex were fractionated by conventional methods of velocity sedimentation and separated into a microsomal and a washed mitochondrial fraction. By electron microscopy the mitochondrial fraction was shown to be rich in synaptosomes. The mitochondria-synaptosome fraction synthesized protein in vitro by a route that was partially inhibited by cycloheximide and partly by chloramphenicol. The relative effectiveness of the two inhibitors varied greatly with the medium used. In the mitochondria-synaptosome fraction active 80S cytoplasmic ribosomes and active 55S mitochondrial ribosomes were detected; these were also seen in the electron microscope. Mild osmotic shock of the mitochondria-synaptosome fraction followed by velocity sedimentation in sucrose-EDTA allowed isolation of a mitochondrial fraction free of synaptosomes. Protein synthesis in this fraction was entirely inhibited by chloramphenicol, but was completely resistant to cycloheximide both in a medium promoting oxidative phosphorylation and in ATP-generating medium. Ouabain had no inhibitory effect on protein synthesis in a purified mitochondrial preparation. It is concluded that brain-cortex mitochondria synthesize protein entirely on 55S mitochondrial ribosomes.