Proline residues, known to have special structural properties, induce particular conformations which participate in some biological functions. Two prolines (Pro(-9), Pro(-5)) located near the processing sites (Arg(-15) and Arg(-2)Lys(-)(1)) of human prosomatostatin were previously shown to be important for cleavage of the precursor into somatostatin-28 (S-28) and somatostatin-14 (S-14) [Gomez et al. (1989) EMBO J. 8, 2911-2916]. In this study, the importance of the pentapeptide P-A-M-A-P sequence (P-(X)(3)-P pattern), located in the S-28(1-12) segment connecting the mono- and dibasic cleavage sites, was investigated by using site-directed mutagenesis. Analysis of prosomatostatin-derived peptides produced by expression of mutated cDNA species in Neuro2A cells indicated that (i) deletion of PAMAP decreased S-14 production, (ii) deletion of the two Pro residues almost abolished the cleavage at the dibasic site, and (iii) Pro displacement generating the AMAPP motif resulted in a decrease of S-28 production. Moreover, both theoretical and spectroscopic studies of synthetic peptides reproducing the S-28(1-12) sequence bearing critical mutations showed that this sequence can organize as an alpha helical structure. These observations demonstrate that NPAMAP constitutes an accurate alpha-helix nucleation motif allowing for the generation of equal amounts of S-28 and S-14 from their common precursor in Neuro2A cells. Moreover, they emphasize the importance of the S-28(1-12) segment joining Arg(-15) and Arg(-2)Lys(-1) cleavage sites whose conformational organization is essential for controlling their accessibility to the appropriate processing proteases.