Taxol-induced assembly and characterization of microtubule proteins from developing brine shrimp (Artemia)

Abstract

Incubation of Artemia cell-free extracts with taxol, followed by centrifugation through sucrose cushions, yielded pellets composed of short, morphologically normal microtubules which exhibited a tendency to fray at their ends. Immunological staining of protein blots with polyclonal or monoclonal antibodies revealed that the major pellet protein is tubulin and that bovine neural tubulin and Artemia tubulin are antigenically distinct. By several criteria, but prinicipally by their taxol-induced coassembly with tubulin, many of the nontubulin pellet proteins are microtubule-associated proteins (MAP). In spite of extensive morphogenesis, hatching, and the eventual resumption of mitosis during development, no new MAP appear, with reduction in the number of MAP after hatching the only observable change in these proteins. We have yet to demonstrate a function for Artemia MAP but have shown that the rate and extent of assembly of Artemia tubulin, which polymerizes readily in vitro in the absence of MAP, are stimulated by bovine MAP. Electrophoretic analysis revealed that the taxol-assembled microtubules were composed of several isotubulins, these being identical to the isoforms in biochemically purified Artemia tubulin. In addition, a new Artemia α-tubulin was observed, and it was shown that the isotubulin population does not change during the period of development examined. Maintenance of identical isotubulin populations in developing organisms for extended periods, which suggests that all tubulins are functional, in concert with the lack of change in tubulin during cell differentiation, runs counter to the proposal that chemically distinct isotubulins are required for assembly of functionally specific microtubules.