J. Gillongo et al., G-PROTEINS IN AORTIC ENDOTHELIAL-CELLS AND BRADYKININ-INDUCED FORMATION OF NITRIC-OXIDE, European journal of pharmacology. Molecular pharmacology section, 247(2), 1993, pp. 119-125
In bovine aortic endothelial cells (BAEC), pertussis toxin (PTx) ADP-r
ibosylated two major substrates with apparent molecular masses of 40 a
nd 41 kDa, whereas cholera toxin (CTx) ADP-ribosylated two other subst
rates of 44 and 50 kDa. [alpha-P-32]GTP bound to three bands in the 22
-27 kDa range. Immunoblot analysis revealed the simultaneous presence
of G(alphai1), G(alphai2), G(alphai3), G(alphaq) or G(alpha11) and of
different forms of G(alphas) but did not detect significant levels of
G(alpha0). Bradykinin caused a 9-fold increase in intracellular cyclic
-GMP level in BAEC (measured as an index of NO production). Preincubat
ion of BAEC with CTx, but not with PTx, inhibited bradykinin-dependent
production of cyclic GMP. These results show that G(alphas, G(alphaq
or alpha11), G(i) and small GTP-binding proteins are present in BAE-C
and suggest that a CTx-sensitive G-protein (possibly either small G-pr
otein, G(alphaq) or G(alpha11)) could be associated with the bradykini
n-mediated NO formation.