Functional characterization of cAMP-binding mutations in type I protein kinase

Abstract

A mutant form of the type I regulatory subunit (RI) of cAMP-dependent protein kinase has been cloned and sequenced (Clegg, C. H., Correll, L. A., Cadd, G. C., and McKnight, G. S. (1987) J. Biol. Chem. 262, 13111-13119) which contains two point mutations in the site B cAMP-binding site, a Gly to Asp at position this report, the effect of each independent mutation on the rate of dissociation of cAMP from RI, the cAMP-mediated activation of holoenzyme and the inducibility of cAMP-responsive genes has been characterized. Dissociation of cAMP from either recombinant wild type RI or the B1 mutant demonstrated biphasic kinetics, indicating two sites with different affinities for cAMP. Dissociation from the B2 subunit, however, was monophasic and very rapid indicating that site B had been destroyed and that the rate of dissociation from site A was increased. The cAMP activation constants (Ka) of the wild type and B1 holoenzymes were 40 and 188 nM, respectively, and demonstrated positive cooperativity, with Hill coefficients of 1.61 for the wild type and 1.67 for B1. The B2 holoenzyme required much greater concentrations of cAMP, 4.7 microM, for half-maximal activation and did not display positive cooperativity. Constitutive expression in mouse AtT20 pituitary cells of the B1 mutant resulted in only a small shift in the Ka for kinase activation in these cells compared with B2 expression which increased the Ka by more than 100-fold. Transient expression of the B1 subunit in human JEG-3 choriocarcinoma cells inhibited forskolin activation of a cAMP-responsive promoter by 35% whereas similar expression of the B2 RI subunit inhibited the response by 90%. These results suggest that the Gly to Asp mutation at amino acid 324 completely blocks cAMP binding to site B whereas the Arg to His mutation at position 332 causes a more subtle alteration in cAMP binding. Expression of either mutant RI in animal cells results in a dominant repression of cAMP-dependent protein kinase activity and cAMP-dependent protein kinase-mediated processes.