Gain of function mutations for yeast calmodulin and calcium dependent regulation of protein kinase activity

The calmodulin-binding domain of the catalytic gamma subunit of phosphorylase kinase interacts with its inhibitory alpha subunit: evidence for a Ca2+ sensitive network of quaternary interactions

Chemical cross-linking as a probe of conformation has consistently shown that activators, including Ca(2+) ions, of the (alphabetagammadelta)(4) phosphorylase kinase holoenzyme (PhK) alter the interactions between its regulatory alpha and catalytic gamma subunits. The gamma subunit is also known to interact with the delta subunit, an endogenous molecule of calmodulin that mediates the activation of PhK by Ca(2+) ions. In this study, we have used two-hybrid screening and chemical cross-linking to dissect the regulatory quaternary interactions involving these subunits. The yeast two-hybrid system indicated that regions near the C termini of the gamma (residues 343-386) and alpha (residues 1060-1237) subunits interact. The association of this region of alpha with gamma was corroborated by the isolation of a cross-linked fragment of alpha containing residues 1015-1237 from an alpha-gamma dimer that had been formed within the PhK holoenzyme by formaldehyde, a nearly zero-length cross-linker. Because the region of gamma that we found to interact with alpha has previously been shown to contain a high affinity binding site for calmodulin (Dasgupta, M., Honeycutt, T., and Blumenthal, D. K. (1989) J. Biol. Chem. 264, 17156-17163), we tested the influence of Ca(2+) on the conformation of the alpha subunit and found that the region of alpha that interacts with gamma was, in fact, perturbed by Ca(2+). The results herein support the existence of a Ca(2+)-sensitive communication network among the delta, gamma, and alpha subunits, with the regulatory domain of gamma being the primary mediator. The similarity of such a Ca(2+)-dependent network to the interactions among troponin C, troponin I, and actin is discussed in light of the known structural and functional similarities between troponin I and the gamma subunit of PhK.