We have previously shown that both Smg GDP dissociation stimulator (GDS) and mammalian Cdc25 (mCdc25) stimulate the GDP/GTP exchange reaction of Ki-Ras and that Smg GDS is active only on the post-translationally lipid-modified form of Ki-Ras, whereas mCdc25 is active on both the lipid-modified and unmodified forms but is more active on the lipid-modified form. In the present study, we compared more detailed kinetic properties of Smg GDS and mCdc25 by use of the lipid-modified form of Ki-Ras as a common substrate. Both Smg GDS and mCdc25 stimulated the dissociation of GDP from Ki-Ras and formed the stable binary complex with Ki-Ras. In the presence of guanosine 5'-(3-O-thio) triphosphate (GTP gamma S), the stable ternary complex of Smg GDS-GTP gamma S-Ki-Ras was produced, whereas GTP gamma S induced the dissociation of mCdc25 from mCdc25-Ki-Ras complex, yielding GTP gamma S-Ki-Ras. mCdc25 stimulated the dissociation of GDP from both the membrane-bound and soluble forms of Ki-Ras, whereas Smg GDS was far less active on the membrane-bound form than on the soluble form. Moreover, Smg GDS translocated the GTP gamma S-bound form of membrane-bound Ki-Ras to the soluble fraction as the stable ternary complex of Smg GDS-GTP gamma S-Ki-Ras, whereas mCdc25 did not show this activity. These results suggest that Smg GDS and mCdc25 play different roles in the regulation of Ki-Ras.

• PMID: 8195145
• PubMed
• PubTator

Reference Type

Journal Article | Research Support, Non-U.S. Gov't

Authors

Nakanishi H, Kaibuchi K, Orita S, Ueno N, Takai Y

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