Ghrelin is produced by the human erythroleukemic HEL cell line and involved in an autocrine pathway leading to cell proliferation.

Ghrelin, a ligand of the GH secretagogue receptor (GHS-R 1a), is a 28-amino acid peptide with an unusual octanoyl group on Ser3, crucial for its biological activity. For the first time, ghrelin and GHS-R 1b, a truncated variant of the receptor resulting from alternative splicing, but not GHS-R 1a, mRNAs were detected in the human erythroleukemic cell line HEL. Two antibodies, used for RIA, were directed against octanoylated and total (octanoylated and desoctanoylated) ghrelin, and the recognized epitopes were characterized. Using reverse phase HPLC analysis followed by RIA, we demonstrated that octanoylated and desoctanoylated ghrelins were present in HEL cells and their culture medium, of which more than 90% was octanoylated. The ghrelin levels were not affected after 24 h treatment with sodium butyrate, phorbol 12-myristate 13-acetate, or forskolin, but a significant 3-fold increase in desoctanoylated ghrelin was detected in the culture medium after 48 h treatment with sodium butyrate. The antighrelin SB801 and SB969 antisera inhibited HEL cell proliferation by 24% and 39%, respectively, after 72 h. Taken together, these data suggested that endogenous ghrelin stimulated HEL cell proliferation by an autocrine pathway involving an unidentified receptor, distinct from GHS-R1a, and that the HEL cell line represents a unique model to study the octanoylation of ghrelin.

VPAC(1) receptors have different agonist efficacy profiles on membrane and intact cells.

The vasoactive intestinal peptide receptor VPAC(1) is preferentially coupled to G(alpha s) protein but also increases [Ca(2+)](i) through interaction with G(alpha i)/G(alpha q) protein. We evaluated a panel of full, partial and null agonists for their capability to stimulate adenylate cyclase activity in both intact cells and membrane and [Ca(2+)](i) in intact cells transfected with the reporter gene aequorin. In intact cells, the agonists efficacy for cAMP and calcium increase were well, but not linearly correlated: VPAC(1) receptors activated G(alpha s) protein more efficiently but with the same pharmacological profile as the other G proteins. In contrast, there was a difference between cAMP increase in intact and broken cell membranes: EC(50) values were generally lower in intact cells whereas the efficacy was higher. There was, however, no correlation between the shift in the EC(50) value and the intrinsic activity. Of interest, the (4-28) fragment, a reported antagonist on cell membrane, was a full agonist in intact cells. We concluded that the active states of the VPAC(1) receptor resulting from the coupling to different effector are undistinguishable by the VIP analogs tested but that receptor properties are different when evaluated in intact cells or cell membranes.

Ala-scan of ghrelin (1-14): interaction with the recombinant human ghrelin receptor.

Ghrelin, a 28 residues acylated peptide, is the natural ligand of the growth-hormone secretagogue receptor (GHS-R), which also interacts with small synthetic peptides. We investigated the importance of each of the first 14 N-terminal residues by Ala replacement (Ala-scan) and also of the N-terminal positive charge, on the recombinant GHS-R expressed in HEK293 or CHO cells by binding, IP and Ca(2+) assays. Nearly all of the replacements had no significant effect on the ligand binding or IP(3)/Ca(2+) stimulation. Exceptions were the modification of the N-terminal residue to [A(1)]- or N(alpha)-acetyl-ghrelin (1-14), confirming the requirement for the positive charge at the amino-terminus. Mutation of [F(4)]- to [A(4)]- or [Y(4)]-ghrelin (1-14), were detrimental suggesting direct interaction with the GHS-R. [A(8)] and [Y(8)] were more potent than ghrelin (1-14), implying that the naturally occurring Glu(8) residue may not be the optimal.

Hexanoylation of a VPAC2 receptor-preferring ligand markedly increased its selectivity and potency.

We synthesized a VIP analog that combines mutations that decrease the affinity for the VPAC1 receptor but maintain a high affinity for the VPAC2 receptor with an amino-terminal hexanoylation that increases the affinity for the VPAC2 receptor with a limited decrease in the affinity of the VPAC1 receptor. The resulting Hexanoyl[A19,K(27,28)]VIP had the expected properties of a high affinity for the VPAC2 receptor and a low affinity for the VPAC1 receptor and also a low affinity for the PAC1 and secretin receptors. With a 1000-fold preference for the VPAC2 receptor and a IC50 value of binding of 1 nM, this compound is the most potent and the most selective agonist presently described.