Abstract

The alpha-subunit of Gi-2, in addition to that of Gs (GTP-binding proteins involved in adenylate cyclase inhibition and stimulation, respectively) was ADP-ribosylated by cholera toxin in HL-60 cell membranes when a chemotactic receptor was stimulated by formyl-Met-Leu-Phe (fMLP), and the sites modified by cholera and pertussis toxins on the alpha-subunit of Gi-2 were different (Iiri, T., Tohkin, M., Morishima, N., Ohoka, Y., Ui, M., and Katada, T. (1989) J. Biol. Chem. 264, 21394-21400). In order to investigate how the functions of Gi-2 were modified by cholera toxin, the ADP-ribosylated and unmodified proteins were purified from HL-60 cell membranes that had been incubated in the presence and absence of cholera toxin, respectively. The modified Gi-2 displayed unique properties as follows. 1) The ADP-ribosylated alpha-subunit had a more acidic pI than the unmodified one, leading to a partial resolution of the modified Gir2 trimer from the unmodified protein by an anion column chromatography. 2) When the purified proteins were incubated with [gamma-32P]GTP, the radioactivity was more greatly retained in the modified Gi-2 than in the unmodified protein. 3) The actual catalytic rate (kcat) of GTP hydrolysis was, indeed, markedly inhibited by cholera toxin-induced modification. 4) There was an increase in the apparent affinity of Gi-2 for GDP by cholera toxin-induced modification. 5) The modified Gi-2 exhibited a low substrate activity for pertussis toxin-catalyzed ADP-ribosylation. 6) A high-affinity fMLP binding to HL-60 cell membranes was more effectively reconstituted with the ADP-ribosylated Gi-2 than with the unmodified protein. These results suggested that the agonist-fMLP receptor complex was effectively coupled with the ADP-ribosylated Gi-2, resulting in the GTP-bound form, and that the hydrolysis of GTP on the modified alpha-subunit was selectively attenuated. Thus, cholera toxin ADP-ribosylated Gi-2 appeared to be not only a less sensitive pertussis toxin substrate but also an efficient signal transducer between receptors and effectors.

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