Conformational analysis of biologically active truncated linear analogs of endothelin-1 using NMR and molecular modeling

Development of photolabile caged analogs of endothelin-1

Photoactivable caged analogs of endothelin-1 (ET-1) were obtained after derivatization with the photolabile 4,5-dimethoxynitrobenzyl (DMNB) group. This was achieved by the incorporation of N-alpha-Fmoc caged building blocks of Lys, Asp, Glu and Tyr during the solid phase peptide synthesis step. The C-terminal carboxylic function was also derivatized. However, difficulties were encountered with the introduction of the Asp and Glu photoactivable building blocks. As a matter of fact, formation of an aminosuccinyl derivative, through cyclization of the Asp(ODMNB) residue, and the formation of a pyrrolidone ring from the Glu(ODMNB) residue were highly favored by the electronic properties of the photocleavable function. ET-1 analogs were also tested in the ET(A) and ET(B) paradigms and specific pharmacological profiles were obtained for each peptide.

Development of agonists of endothelin-1 exhibiting selectivity towards ETA receptors

(1) Endothelin-1 (ET-1) is a bicyclic 21-amino-acid peptide causing a potent and sustained vasoconstriction, mainly through the ET(A) receptor subtype. So far, no selective ET(A) agonists are described in the literature. (2) A series of truncated and chemically modified ET-1 analogues were obtained through solid-phase peptide synthesis and their biological activity was assessed on rat thoracic aorta rings (ET(A) receptors) and guinea-pig lung parenchyma strips (ET(B) receptors). (3) Structure-activity studies led to the identification of ET-1 fragments exhibiting an ET(A) selective agonistic activity. (4) In particular, [D-Lys(9)]cyclo(11-15) ET-1(9-21) was the most potent peptide. It appeared as a full agonist of ET(A) receptors, being under two orders of magnitude less potent than ET-1 (EC(50): 2.3 x 10(-7) vs 6.8 x 10(-9) M). Interestingly, even a linear formylated analogue, [Ala(11,15), Trp(For)(21)]ET-1(9-21), showed a selective ET(A) activity (EC(50): 3.0 x 10(-6) M). None of the numerous analogues of the series exhibited substantial effects in the guinea-pig lung parenchyma bioassay. (5) Thus, this study describes the first compounds showing a significant bioactivity in an ET(A) pharmacological preparation while being inactive in an ET(B) paradigm. They show that the ET-1 pharmacophores, responsible for the ET(A)-mediated actions, are located within the 9-21 segment of the molecule. Moreover, the bicyclic structure of ET-1 does not appear as essential for the ET(A)-related vasoconstriction. Results also suggest that the positive charge of the Lys(9) side chain participates in an intramolecular ionic bond with the carboxylate function of Asp(18).