Exploring the Microtubule-Binding Region of Bovine Microtubule-Associated Protein-2 (MAP-2): cDNA Sequencing, Bacterial Expression, and Site-Directed Mutagenesis

Abstract

A 1.1 kilobase fragment of bovine microtubule-associated protein-2 (MAP-2) cDNA coding for bovine MAP-2 microtubule-binding region (MTBR) was sequenced. Relative to mouse, rat, and human MAP-2, we observed striking preservation of primary structure, even beyond the sequence and spacing of the three nonidentical peptide repeats responsible for microtubule-binding interactions. For further analysis of microtubule-MAP interactions using site-directed mutagenesis, we developed a bacterial expression system coding for the MT-binding fragment of MAP-2 starting at the thrombin cleavage site (position 1629) and continuing to the C-terminus. This MT-binding fragment was purified to homogeneity by taking advantage of the unusual heat-stability and isoelectric properties of this cytomatrix component. We found that the MT-binding domain readily promoted tubulin polymerization, and the critical tubulin concentration was reduced in the presence of this recombinant protein. Because a second repeated sequence analogue can promote tubulin polymerization as well as displace the MT-binding region of MAP-2, this study was designed to learn more about the importance of each repeated sequence in MT binding. Accordingly, we mutated the first and third sequences to resemble the second repeated sequence, thereby generating the mutants designed m12-m2-m3, m1-m32, and m12-m2-m32. These recombinant proteins bound with an affinity comparable to or slightly better than equal concentrations of wild-type MT-binding fragment. Likewise, when the first or third sequence was replaced by an exact copy of the second octadecapeptide repeat, there was little, if any, increase in binding affinity, as reflected in the ability of mutant MT-binding fragments to promote tubulin polymerization.(ABSTRACT TRUNCATED AT 250 WORDS)