THE ENDLESS STORY OF THE GLIAL FIBRILLARY ACIDIC PROTEIN

All intermediate filament proteins consist of an a-helical rod domain flanked by non-helical N-terminal head and C-terminal tail domains. The roles of the non-helical domains of various intermediate filament proteins in the assembly and co-assembly of higher-order filamentous structures have been studied by many groups but with quite contradictory results. Type III intermediate filaments are unique in that they can form homopolymers both in vitro and in vivo. The expression and assembly characteristics of carboxy- and amino-terminal deletion mutants of glial fibrillary acidic protein (GFAP), an astrocyte-specific type III intermediate filament protein, were examined by transient transfections of either vimentin-positive or vimentin-negative variants of human adrenocarcinoma-derived SW13 cell lines. Whereas complete deletion of the C-terminal tail domain of GFAP results in the formation of polymorphic aggregates, both intranuclear and cytoplasmic in self-assembly experiments, efficient co-assembly of these tail-less GFAP mutants with vimentin can be achieved as long as the KLLEGEE sequence at the C-terminal end of the rod domain is preserved. Up to one-fifth of the C-terminal end of the tail domain can be deleted without affecting the capability of GFAP to self-assemble. The highly conserved RDG-containing motif in the tail domain may be important for self-assembly but is not sufficient. The entire head domain seems to be required for self-assembly. All N-terminal deletion mutants of GFAP share the same phenotype of diffuse cytoplasmic staining when expressed in vimentin-negative SW13 cells. Although co-assembly with vimentin can still be achieved with completely head-less GFAP, preservation of some of the head domain greatly enhanced the efficiency. Our results form the basis for further, more detailed mapping of the essential regions in filament assembly of GFAP and other type III IFs.