Vitro synthesis of the four mouse myelin basic proteins: evidence for the lack of a metabolic relationship.

Abstract

Abstract: Studies on the synthesis of the four immunologically related mouse myelin basic proteins (MBPs) were carried out to determine if these proteins were metabolically related. Two in vitro systems were used: (a) a homologous brain system consisting of free polysomes, pH 5 enzymes, and initiation factors; and (b) a reticulocyte lysate system directed with mRNA and supplemented with brain factors. Incorporation of [35S]methionine into the four MBPs (14K, 17K, 18.5K, and 21.5K) was detected by immunoprecipitation of the in vitro products of synthesis followed by sodium dodecyl sulfate (SDS)‐polyacrylamide gel electrophoresis. The four MBPs were identified by cross‐reactivity with purified anti‐MBP antibodies and their apparent molecular weights in SDS gels. Synthesis of all four proteins was detected in both systems soon after the incubations were begun. The kinetics of the labeling of the proteins showed no evidence of a precursor‐product relationship (i.e., 21.5K→ 18.5K; 17K → 14K) in either system. Inhibition studies with puromycin and “chase” experiments with unlabeled methionine demonstrated that neither system contained posttranslational “processing” activity. Thus, the 21.5K and 17K proteins were not being processed into the 18.5K and 14K MBPs by either . in vitro system. Detection of the synthesis of all four proteins in the reticulocyte system programmed with brain mRNA indicates that the four proteins are probably coded for by separate mRNAs. This conclusion was supported by studies using polyribosomes separated into different size classes, which suggest that the mRNAs for the four proteins may be translated on proteins of differing size class. It is proposed, therefore, that the four MBPs are the primary translation products of independent brain mRNAs and are not metabolically related.