Heterogeneity of microtubule-associated proteins and brain development.

Abstract

Developmental changes in the composition of brain microtubule-associated proteins have been studied in three species: the rat and the mouse, which are characterized by post-natal brain development, and the guinea-pig, whose brain is mature at birth. 1. At an adult stage, and whatever the species, two major microtubule-associated proteins, which have been referred to MAP2 and tau, have been identified by polyacrylamide gel electrophoresis. Rat tau is composed of four closely spaced bands; mouse tau contains only three components with one of them being present in higher proportion than the others; adult guinea-pig tau is essentially present as a single band. 2. Microtubule-associated proteins were also prepared at different stages of brain development. In the three species only two bands were seen in the tau region at immature stages of development (fast tau and slow tau). However adult tau factors progressively replace the young entities. In contrast, only small changes were seen in the proportion of MAP2. 3. Peptide mapping analysis of the purified tau entities confirmed that the four adult rat proteins are very similar. In contrast, peptide mapping of the two young rat tau proteins were very different from each other and from those of the adult ones. Peptide mappings of young and adult MAP2 were only slightly different. 4. The activities of young tau proteins and young MAP2 in promoting pure tubulin assembly were much lower than those of the adult ones. Young fast tau and young slow tau were purified and both show to be active in promoting pure tubulin polymerization. 5. These data demonstrate the existence of two types of heterogeneity of microtubule-associated proteins: plurality of protein species at every stage of brain development and changes in composition and activity dependent on development.