To understand the requirements for binding to G protein betagamma subunits, phage-displayed random peptide libraries were screened using immobilized biotinylated betagamma as the target. Selected peptides were grouped into four different families based on their sequence characteristics. One group (group I) had a clear conserved motif that has significant homology to peptides derived from phospholipase C beta (PLC beta) and to a short motif in phosducin that binds to G protein beta subunits. The other groups had weaker sequence homologies or no homology to the group I sequences. A synthetic peptide from the strongest consensus group blocked activation of PLC by G protein betagamma subunits. The peptide did not block betagamma-mediated inhibition of voltage-gated calcium channels and had little effect on betagamma-mediated inhibition of Gs-stimulated type I adenylate cyclase. Competition experiments indicated that peptides from all four families bound to a single site on betagamma. These peptides may bind to a protein-protein interaction 'hot spot' on the surface of betagamma subunits that is used by a subclass of effectors.
Peptide “mimics” (mimotopes) of linear protein epitopes and carbohydrate epitopes have been successfully used as immunogens to elicit cross-reactive antibodies against their cognate epitopes; however, immunogenic mimicry has been difficult to achieve for discontinuous protein epitopes. To explore this, we developed from phage-displayed peptide libraries optimized peptide mimics for three well-characterized discontinuous epitopes on hen egg lysozyme and horse cytochrome C. The peptides competed with their cognate antigens for antibody binding, displayed affinities in the nM range, and shared critical binding residues with their native epitopes. Yet, while immunogenic, none of the peptides elicited antibodies that cross-reacted with their cognate antigens. We analyzed the 3-D structure of the site within each discontinuous epitope that shared critical binding residues with its peptide mimic, and observed that in each case it formed a ridge-like patch on the epitope; in no case did it cover most or all of the epitope. Thus, the peptides’ lack of immunogenic mimicry could be attributed to their inability to recapitulate the topological features of their cognate epitopes. Our results suggest that direct peptide immunizations are not a practical strategy for generating targeted antibody responses against discontinuous epitopes.
A Rapid and Efficient Synthesis of the δ-Opioid Agonist, Deltorphin. --(SIVANANDAIAH, K. M.; BABU, V. V. S.; RENUKESHWAR, H. C.; GANGADHAR, B. P.; Indian J. Chem., Sect. B: Org. Chem. Incl. Med.
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