Premature chromatin condensation induced by loss of RCC1 is inhibited by GTP- and GTPgammaS-Ran, but not GDP-Ran

Abstract

RCC1 is a guanine nucleotide exchanging factor acting on nuclear G protein Ran. Premature chromatin condensation occurs in the temperature-sensitive rcc1- mutant of the BHK21 cell line, tsBN2, at the restrictive temperature. This observation can be explained if the premature activation of MPF is normally inhibited by GTP-Ran. In the absence of RCC1, GDP-Ran predominates, resulting in MPF activation. However, experiments with Ran mutants to determine whether GTP- or GDP-Ran prevents activation of MPF have yielded conflicting results. In order to clarify this point, we have microinjected nucleotide-bound Ran, instead of mutated Ran, into the nuclei of tsBN2 cells treated to reduce RCC1-mediated guanine nucleotide exchange. GTP-Ran, GTPgammaS-Ran, and GDP-Ran all inhibited chromatin condensation. However, the inhibition of chromatin condensation by GDP-Ran could be completely abolished by co-injection with GDP, but not GTP. Thus, we conclude that GTP-Ran blocks the activation of MPF and that hydrolysis of GTP is not required to prevent MPF activation.