Loss of RCC1 leads to suppression of nuclear protein import in living cells.

The role of RCC1-Ran/TC4 in nuclear protein import was examined in living cells using a temperature-sensitive RCC1 mutant cell line, tsBN2, and tsBN2 transformed with a RCC1 cDNA lacking the nuclear localization sequence domain, delta 8-29. Substrate, containing a small number of SV40 T antigen nuclear localization sequence peptides, injected into the cytoplasm of tsBN2 cells cultured at the non-permissive temperature of 39.5 degrees C did not accumulate efficiently in the nucleus. When the same substrate was injected into the cytoplasm of heterokaryons of tsBN2 and wild type BHK21 cells, import efficiency into the tsBN2 nuclei was not restored. Import into the BHK21 nuclei gradually decreased after fusion. In contrast, import efficiency into tsBN2 nuclei gradually recovered after fusion with tsBN2 cells transformed with delta 8-29 in which functional RCC1 was diffusely distributed in both the nuclei and cytoplasm. Substrate did not accumulate in the nuclei of digitonin-permeabilized tsBN2 cells cultured at 39.5 degrees C even in the presence of normal cytosol. These results suggest that loss of RCC1 function leads to the decline of import competence of the nucleus and accumulation of a factor in the cytoplasm that suppresses nuclear import. These results indicate that the RCC1-Ran/TC4 system may regulate nuclear import.