The protein kinase C activator phorbol 12-myristate 13-acetate (PMA) induces rapid and reversible shape changes in cultured fibrobasts: extension of motile lamellas is followed by transformation of these lameilas into nonmoile stalklke processes. This "lamefla-to-stalk" tranformation was found to be associated with the formation of microtubules enriched in detyrosinated a-tubulin. This change was local: microtubules in motile lameflas at the distal ends of the processes and in the cell bodies were not enriched in detyrosinated a-tubulin. Detyrosinated microtubules in the processes were more resistant to Colcemid treatment than other microtubules of PMA-treated and control cells. The effects of PMA were reversible and could be abolished by sphingosi e, a specific inhibitor of protein kinase C. Besides modification of microtubules, lamella-to-stalk transformation is associated with the ingrowth of intermediate fiaments into the extensions. Earlier it was found that this transformation is also associated with the profound reorganization of the system of actin microfilaments. Thus, all three cytoskeletal systems are altered simultaneously during PMA-induced formation of processes. Similar "cytoskeletal synergies" may play essential roles in many morphogenetic processe-e.g., in the growth of neurites.Transformation of motile lamellas into stalk-like processes is an essential component of many important morphogenetic reorganizations (1). For instance, extension of neurites by neurons involves transformation of proximal parts of motile lamellar growth cones at the ends of these neurites into nonmotile shafts ("stalks"; see, e.g., ref. 2). Cultured fibroblasts treated with the protein kinase C (PKC) activator phorbol 12-myristate 13-acetate (PMA) provide a convenient system for the investigation of mechanisms of lamella-tostalk transformations: PMA rapidly induces in these cells extensions of lamellas and their further transformation into narrow nonmotile processes (3). Our previous studies have shown that the microfilament system undergoes drastic changes during reorganization of lamellas into stalks in PMA-treated cells: the well-developed microfilament network collapses and loses its contractility (4). The aim of experiments described in this paper was to investigate the alterations of other cytoskeletal systems-i.e., microtubules and intermediate filaments-in the course of lamella-to-stalk transformation in PMA-treated fibroblasts. In particular, we had previously investigated the alterations in the degree of detyrosination of a-tubulin in the microtubules. Detyrosination is a characteristic post-translational modification of a-tubulin in polymerized microtubules performed by a special enzyme (for a review, see ref. 5). Microtubules enriched in detyrosinated a-tubulin were found to characterize several types of stable cytoplasmic extensions, especially neurites of cultured neurons (6, 7). Results presented in this paper show that PMA-induced lamella-to-stalk transformation is accompanied by a considerable i...