Tubulin isotype usage in vivo: a unique spatial distribution of the minor neuronal-specific beta-tubulin isotype in pheochromocytoma cells.

The neuronal cells of vertebrates express two beta-tubulin isotypes, called Class II and Class III, that are neuronal specific. In order to determine the distribution of the minor Class III isotype, site-directed antibodies were raised to synthetic peptides representing the carboxyl terminal, isotype-defining domains of the tubulins. These antibodies were applied to PC12 cells at various stages of differentiation. The Class III isotype was found to be expressed in undifferentiated PC12 cells as well as in cells at every stage of differentiation. The concentration of the Class III isotype, relative to the total beta-tubulin complement, did not change significantly. Indirect double immunofluorescence microscopy demonstrated that the Class III isotype was found in the soma and the neurites of differentiated PC12 cells; this spatial pattern of Class III expression paralleled the total beta-tubulin pattern. Although the anti-Class III antiserum could stain in vitro assembled neuronal microtubules in a filamentous pattern, a close examination of the Class III staining pattern in flattened PC12 cells revealed that this isotype was not incorporated into the nonaxoplasmic array of microtubules. Rather, the Class III isotype was localized in a nonfilamentous, granular pattern that was not readily extracted with nonionic detergent. Cells treated with taxol and then flattened and stained showed that the Class III isotype could be induced to assemble into microtubule bundles by taxol. Thus, the minor neuronal beta-tubulin isotype appears to be spatially specialized in its pattern of expression.