The brain 68-kilodalton microtubule-associated protein is a cognate form of the 70-kilodalton mammalian heat-shock protein and is present as a specific isoform in synaptosomal membranes.

The relationship between the 68-kilodalton microtubule-associated protein (68KMAP) and the major heat-induced protein (HSP70) in rat and human cells was investigated by comparison of their heat induction properties and by tryptic and Cleveland peptide mapping procedures. HSP70 synthesis was induced by heat shock of rat and human cells, whereas 68KMAP was a major synthesised protein in the absence of heat shock, with its synthesis being only slightly increased on heat shock. Tryptic peptide mapping, however, indicated strong peptide homology between the two proteins. These data, therefore, confirm that 68KMAP represents a constitutively expressed, heat-shock cognate gene. Two-dimensional gel electrophoretic analysis of subcellular fractions of rat brain, combined with peptide mapping procedures, indicated that 68KMAP exists as at least two isoforms separable by isofocussing, the more acidic of which (alpha 68KMAP) is present in fractions enriched in microtubules, cytosol, microsomes, synaptosomal plasma membranes, and synaptic vesicles, and the more basic of which (beta 68KMAP) is present predominantly in fractions enriched in synaptic vesicles and synaptosomal plasma membranes. These two forms are distinguishable in terms of changes in Cleveland peptide maps, and we conclude that alpha- and beta 68KMAP, therefore, represent distinct forms. The significance of these findings to the molecular pathogenesis of Down's syndrome in the human brain is discussed.