Synthesis and biological activities of head-to-tail cyclic bradykinin analogues of varying ring size.

Syntheses of cyclic kinin analogues with different backbone atom numbers are described. Cyclization, by either the O-benzotriazolyl-N,N,N',N'-tetramethyluronium tetrafluoroborate/1-hydroxybenzotriazole/diisopropylethyl amine (TBTU-HOBt-DIPEA) or the diphenylphosphoryl azide (DPPA) procedure of linear peptides prepared by the solid-phase method based on the g-fluorenyl methyloxycarbonyl chemistry, was used for preparing cyclo-Gly-Ile-Ile-Gly-bradykinin, cyclo-Lys-kallidin (cyclo-Lys-Lys-bradykinin) and cyclo-des Arg-bradykinin. Peptides were characterized by amino acid analysis, optical rotation, analytical high-performance liquid chromatography and matrix-assisted laser desorption ionization-time flight mass spectrometry. Pharmacological experiments showed that cyclo-Gly-Ile-Ile-Gly-bradykinin (39 backbone atoms) and cyclo-Lys-bradykinin (30 backbone atoms) are about equipotent, when tested on the relaxation of the isolated rat duodenum preparation. The potency of cyclo-des Arg-bradykinin is at least three orders of magnitude lower. The potency of cyclo-Lys-Lys-bradykinin (33 backbone atoms) is one tenth the activity of bradykinin but about 10 times higher than the potency of the above-mentioned cyclokinins and makes the latter analogue the most potent end-to-end cyclic analogue known currently. The present results, in agreement with data from earlier reports, seem to indicate that the enhancement of the number of backbone atoms in the cyclic kinins first increases and subsequently decreases the potency, whereas a reduction in the atom number from 27 to 24 causes a dramatic decrease in potency.

Synthesis of O-glycosylated tuftsins by utilizing threonine derivatives containing an unprotected monosaccharide moiety.

Synthesis is described of four tuftsin derivatives containing a D-glucopyranosyl or a D-galactopyranosyl unit covalently linked to the hydroxy side chain function of the threonine residue through either an alpha or beta O-glycosidic linkage. Fmoc-threonine derivatives containing the suitable unprotected sugar were used for incorporating the O-glycosylated amino acid residue. Z-Thr[alpha-Glc(OBzl)4]-OBzl and Z-Thr[alpha-Gal(OBzl)4]-OBzl were prepared from the tetra-O-benzylated sugar and Z-Thr-OBzl by the trichloroacetimidate method in the presence of trimethylsilyl trifluoromethane sulfonate. The alpha glycosylated threonine derivatives were converted into Fmoc-Thr(alpha-Glc)-OH and Fmoc-Thr(alpha-Gal)-OH by catalytic hydrogenation followed by acylation with Fmoc-OSu. beta-Glucosylation and beta-galactosylation of threonine were carried out by reacting the proper per-O-acetylated sugar with Z-Thr-OBzl and boron trifluoride ethyl etherate in dichloromethane. Catalytic hydrogenation of the beta-O-glycosylated threonine derivatives followed by acylation with Fmoc-OSu and deacetylation with methanolic hydrazine yielded Fmoc-Thr(beta-Glc)-OH and Fmoc-Thr(beta-Gal)-OH, respectively. The O-glycosylated threonine derivatives were then reacted with H-Lys(Z)-Pro-Arg(NO2)-OBzl in the presence of DCC and HOBt and the resulting glycosylated tuftsin derivatives were fully deblocked by catalytic hydrogenation, purified by HPLC, and characterized by optical rotation, amino acid analysis, and 1H NMR. The beta-galactosylated tuftsin was also prepared by the continuous flow solid phase procedure.

Synthesis and biological activity of tuftsin and rigin derivatives containing monosaccharides or monosaccharide derivatives.

Synthesis of some modified rigins is described in which either D-gluconic acid or 2-amino-2-deoxy-beta-D-glucopyranose have been linked to the parent molecule through amide bonds involving the alpha-amino function, alpha-carboxyl function or the gamma-amide function of glutamine in position 2. Glu2-rigin and D-gluconyl-Glu2-rigin have also been synthesized. Binding and phagocytosis assays have been carried out on the rigin derivatives and on some glycosylated tuftsin derivatives as well. Of all the tested peptides only rigin enhanced the phagocytic capacity of mouse peritoneal macrophages to the same extent as tuftsin. The peptides H-Thr-Lys-Pro-Arg-NH-Glc and N alpha-gluconyl-Gly-Glu-Pro-Arg-OH slightly enhanced phagocytosis. H-Thr[(alpha + beta)-O-glucosyl]-Lys-Pro-Arg-OH was found to displace 3H-tuftsin even better than tuftsin but lacked the ability to stimulate phagocytosis.

Studies on cytochrome c. XIV. Synthesis of the protected heptadecapeptide (sequence 88-104) of horse heart cytochrome c.

A solution synthesis is described of the partially protected N alpha-benzyloxycarbonylheptadecapeptide Z-Lys (Tfa)-Thr-Glu-Arg-Glu-Asp-Leu-Ile-Ala-Tyr-Leu-Lys (Tfa)-Lys (Tfa)-Ala-Thr-Asn-Glu (OBu t)-OBu t corresponding to sequence 88-104 of horse heart cytochrome c. The synthesis is achieved through the preparation of two subunits H1 (sequence 88-96) and H2 (sequence 97-104) and their linkage by an azide coupling step.