The fully active cholecystokinin analog (Thr,Nle)-CCK-9 was lipo-derivatized by N-terminal grafting of a dimyristoylglycerol moiety to induce tight interdigitation with cell membrane bilayers. While the parent CCK peptide was shown to interact only transiently with small unilamellar phospholipid vesicles, the lipo-CCK peptide, although self-aggregating into vesicles, inserts rapidly and quantitatively into phospholipid bilayers. Fluorescence and, even more so, NMR data are supportive for a chain reversal of the CCK moiety of the lipo derivative with embedment of the C-terminus into hydrophobic compartments of the bilayer. MD simulations allowed for a proposal of the folded form of CCK in bilayers with a helical array parallel to the interface and an amphipathic display of the side chains. In this model, the phenylalanine aromatic ring is heading the peptide molecule and may thus play a decisive role in the lateral penetration of the receptor at the water/lipid interface. In fact, despite the membrane-bound state, its binding affinity for rat pancreatic acini is comparable to that of the CCK peptide when tested after a 3-h equilibration period but 5-6-fold lower at 45 min, suggesting that the association rate is significantly lower than that of the unmodified CCK peptide. This can rationally be attributed to the tight interdigitation of the double-tailed lipo moiety with the membrane bilayer. Moreover, an escape of the lipopeptide into the extracellular aqueous phase is energetically highly unfavored; therefore, the receptor can only be reached by a membrane-bound two-dimensional migration. The observed difference in amplification between binding and amylase secretion may result from inadequate occupation of low-affinity CCK receptors, which leads then to poor couplings to G-proteins. Nevertheless the data confirm that lateral penetration of receptor structures is possible, and thus, preadsorption of peptide (neuro)hormones at the cell membrane bilayer may indeed represent the first step in the receptor recognition process.
In these structure activity studies, the 46 analogs of the 27‐amino‐acid form of the pituitary‐adenylate‐cyclase‐activating peptide, PACAP(1–27), and the 38‐amino‐acid form, PACAP(1–38), were either monosubstituted or bisubstituted at positions 1–3, 20 and 21 or N‐terminally shortened. All analogs were compared on human neuroblastoma NB‐OK‐1 cell membranes for their ability to occupy 125I‐[AcHis1]PACAP(1–27)‐labelled receptors (AcHis, Nα‐acetylhistidine) and to activate adenylate cyclase (in terms of potency and intrinsic activity). The monophasic slope of dose/effect curves on both parameters suggested interaction with one class of PACAP receptor. Residues 28–38 in the C‐terminally extended peptide, PACAP(1–38), played a favorable role in recognition, in that receptors coupled to adenylate cyclase were, in general, more sensitive to PACAP(1–38) analogs than to the corresponding PACAP(1–27) analogs. At variance with PACAP(6–27), PACAP(6–38) was well recognized and acted as a potent competitive antagonist (Ki 1.5 nM).
Residues 1–3 were all important in enzyme activation: modification of the β‐turn potential gave full agonists (the LAla2 and DAla2 derivatives) or partial agonists (LPhe2 and DPhe2; LArg2 and DArg2; Glu3 and Asn3). Finally, a proper α‐helix was also important: the combined substitution of Lys21/Lys22 by Gly21/Gly22 decreased the binding affinity sharply.
AR42J cells derive from azaserine-induced malignant nodules from the rat pancreas. They differ from normal acinar cells for at least three reasons: 1) they proliferate rapidly; 2) they synthesize, store, and secrete digestive enzymes but the regulation of their exocrine function is abnormal, from the emergence of atypical receptors (e.g., cholecystokinin octapeptide type B and pituitary adenylate cyclase-activating polypeptide type I receptors) to unusual inositol phosphate metabolism and cytoskeleton disorganization; and 3) they possess an added neuroendocrine-regulated pathway characterized by voltage-sensitive ionic currents, post-translational processing of peptidic prohormones (and possibly autocriny), and the release of small neurotransmitters (gamma-aminobutyric acid, glycine, and glutamic acid). These amphicrine cells represent, therefore, a cancerous version of the primordial pancreatic ductular epithelium. Dexamethasone favors their differentiation toward the exocrine phenotype. The mitogenic pathway is favored by the occupancy of receptor tyrosine kinases, adenosine 3',5'-cyclic monophosphate, ornithine decarboxylase expression, and Na(+)-H+ exchange. Somatostatin opposes proliferation through protein phosphatases.
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