Some intermediate filament (IF) proteins expressed in the development of glia include nestin, vimentin, and glial fibrillary acidic protein (GFAP). Yet GFAP is the major intermediate filament protein of mature astrocytes. To determine the organization of GFAP in glial cells, the rat GFAP cDNA tagged with enhanced green fluorescent protein (EGFP) was transfected into rat C6 glioma cell line. After selection of neomycin analogue G418, two stable C6-EGFP-GFAP cell lines were established under. Stable C6-EGFP-GFAP cell lines with or without heat shock treatment were analyzed by immunocytochemistry, electron microscopy, and Western blot analysis. In transient transfection study, EGFP-GFAP transiently expressed in C6 cells formed punctate aggregations in the cytoplasm right after transfection, but gradually the filamentous structure of EGFP-GFAP was observed. Comparing the C6-EGFP-GFAP stable clone with pEGFP-C1 transfected C6 stable clones and non-transfected C6 cells, the protein level of nestin in C6-EGFP-GFAP was similar to others; where as the level of vimentin was reduced in Western blotting. Interestingly, the expression level of small heat shock protein αB-crystallin in C6-EGFP-GFAP cells was also enhanced after transfection. Immunostaining patterns of C6-EGFP-GFAP cells showed that the distribution of GFAP was dispersed, as a pattern of little fine filamentous structure. However, after heat shock treatment, GFAP formed IF bundles in C6-EGFP-GFAP cells significantly. Meantime, αB-crystallin also colocalized with IF bundles of GFAP in C6-EGFP-GFAP cells. From our observations in this study, it could be suggested that the organization of GFAP in glial cells was dynamic and regulated by several different mechanisms. The heat-induced GFAP reorganization we found suggested that small heat shock protein aB-crystallin may play a functional role to regulate the cytoarchitecture of GFAP.