(18)F-trifluoroborate derivatives of [des-arg(10)]kallidin for imaging bradykinin b1 receptor expression with positron emission tomography.

Bradykinin B1 receptor (B1R) is involved in pain and inflammation pathways and is upregulated in inflamed tissues and cancer. Due to its minimal expression in healthy tissues, B1R is an attractive target for the development of therapeutic agents to treat inflammation, chronic pain, and cancer. The goal of this study is to synthesize and compare two (18)F-labeled peptides derived from potent B1R antagonists B9858 and B9958 for imaging B1R expression with positron emission tomography (PET). Azidoacetyl-B9858 2 and azidoacetyl-B9958 3 were synthesized by a solid-phase approach and subsequently clicked to ammoniomethyl-trifluoroborate (AmBF3)-conjugated alkyne 1 to obtain AmBF3-B9858 and AmBF3-B9958, respectively. AmBF3-B9858 and AmBF3-B9958 bound B1R with high affinity, with Ki values at 0.09 ± 0.08 and 0.46 ± 0.03 nM, respectively, as measured by in vitro competition binding assays. (18)F labeling was performed via an (18)F-(19)F isotope exchange reaction. The radiofluorinated tracers were obtained within a synthesis time of 30 min and with 23-32% non-decay-corrected radiochemical yield, >99% radiochemical purity, and 43-87 GBq/µmol specific activity at the end of the synthesis. PET imaging and biodistribution studies were carried out in mice bearing both B1R-positive (B1R(+)) HEK293T::hB1R and B1R-negative (B1R(-)) HEK293T tumors. Both tracers cleared rapidly from most organs/tissues, mainly through the renal pathway. High uptake in B1R(+) tumors ((18)F-AmBF3-B9858: 3.94 ± 1.24% ID/g, tumor-to-muscle ratio 21.3 ± 4.33; (18)F-AmBF3-B9958: 4.20 ± 0.98% ID/g, tumor-to-muscle ratio 48.6 ± 10.7) was observed at 1 h postinjection. These results indicate that (18)F-AmBF3-B9858 and (18)F-AmBF3-B9958 are promising agents for the in vivo imaging of B1R expression with PET.

Probing the topological arrangement of the N- and C-terminal residues of bradykinin for agonist activity at the B1 receptor.

The conformational features of H-Lys-Arg-Ado-Ser-Pro-Phe-OH (Ado = 12-aminododecanoic acid), a des-Arg(9) analogue of Lys-bradykinin, have been determined by high-resolution NMR in the presence of a zwitterionic lipid environment. The analogue is the most active member of a series of analogues designed to probe the topological arrangement of the N- and C-termini required for agonistic activity at the B1 kinin receptor. A novel computational procedure for the utilization of NOE constraints from cis and trans configurational isomers is illustrated. Only with this computational methodology could the structural features of the N-terminus of the peptide be determined. Using radical-induced relaxation of the (1)H NMR signals, we measured the topological orientation of the peptide with respect to the zwitterionic lipid interface. The results indicate that the long, alkyl chain of the Ado amino acid imbeds into the lipid surface. The structural features of the C-terminus of the B1-selective analogue consist of a well-defined turn. Although removed from a standard beta-turn, required for activity at the B2 kinin receptor, the topological orientation of the side chains of the des-Arg(9) compound are surprisingly similar to those previously observed for beta-turn-containing bradykinin analogues. Therefore, we attribute the high B1 receptor selectivity, observed upon removal of Arg(9) from bradykinin, solely to the loss of a charged amino acid and not to altered structural features.

Synthesis and biological activity of some linear and cyclic kinin analogues.

Syntheses are described of some linear and cyclic kinin analogues. Cyclization, by the diphenyl-phosphorazide method, of linear peptides prepared by the solid-phase procedure based on Fmoc chemistry, was used for preparing cyclo-bradykinin and cyclo-kallidin (cyclo-Lys-bradykinin). Removal of the protecting group from the lysine side chain of cyclo-kallidin followed by acylation with the N-terminal sequence of vespulakinin 1 (VSK 1), Fmoc-Thr(tBu)-Ala-Thr(tBu)-Thr(tBu)-Arg(Pmc)-Arg(Pmc)-Gly-OH, by the Bop-HOBt procedure, yielded the protected N epsilon-(1-8 VSK 1)-cyclo-N alpha-kallidin, which was deblocked by acid treatment and purified by semi-preparative HPLC. The diglycosylated 1-8 VSK 1 sequence Boc-Thr(tBu)-Ala-(Gal beta)Thr-(Gal beta)Thr-Arg(Pmc)-Arg(Pmc)-Gly-OH was also synthesized by the solid-phase procedure and used to prepare the N epsilon-[(Gal beta)Thr3, (Gal beta)Thr4, 1-8 VSK 1]-cyclo-N-alpha- kallidin. Peptides and glycopeptides were characterized by amino acid analysis, optical rotation, analytical HPLC and FAB-MS. Preliminary pharmacological experiments showed that the cyclic kinin analogues are much less potent then bradykinin but still show specific bradykinin-like actions that support the hypothesis of the presence of a pharmacophore in the centre of the (brady)kinin molecule.

Synthesis and molecular characterization of a biotinylated analog of [Lys]bradykinin.

We report the synthesis and molecular characterization of a biotinylated analog of kallidin, [Lys]bradykinin. Bradykinin was prepared by solid phase peptide synthesis. Before cleavage from the resin, a biotin moiety was coupled to the epsilon amino group of a lysine in the zeroth position of the bradykinin peptide. An omega-amino caproic acid spacer was incorporated between the biotin group and the N-terminal lysine. The biotinylated peptide was deprotected, cleaved from the resin and purified by RP-HPLC. The identity of this analog was confirmed by amino acid analysis and FAB-mass spectrometry. Biotinyl [Lys]bradykinin (BLBK, mol, wt. = 1528) inhibited [3H]-bradykinin binding to guinea pig ileum homogenates dose dependently, with an IC50 of 28.9 +/- 6 nM. The IC50 for [Lys]bradykinin was approximately 10-fold lower, 3.2 +/- 0.6 nM. BLBK induced contractility in an isolated guinea pig smooth muscle preparation with an EC50 of 129 +/- 14 nM; the corresponding value for [Lys]bradykinin was 29 +/- 8 nM. These data are consistent with the difference in binding potency observed for BLBK compared to [Lys]bradykinin. In an ELISA assay using BLBK and affinity-purified rabbit anti-bradykinin antibody, BLBK bound to anti-bradykinin antibody with an EC50 = 1.21 +/- 0.54 nM. Rank order potencies for several bradykinin peptide analogs suggest that the epitope on bradykinin recognized by the antibody is likely to be at the carboxy terminus of the peptide.

[Effective synthesis of cyclic analogs of bradykinin]. / Effektivnyi sintez tsiklicheskikh analogov bradikinina.

Cyclo-epsilon-(L-lysine1, glycine6-bradykinin) (CLGB) and cyclo-epsilon-kallidin have been synthesised in solution. To prepare linear precursors, fragment condensation (3 + 3 or 4) + 3 was used. Peptide bond formation, including cyclization, was carried out mainly through intermediate pentafluorophenyl esters. After purification on silicagel, protected cyclopeptides were obtained with a 50 to 60% yield. The protecting groups were eliminated by treatment with hydrogen fluoride in the presence of anisole. CLGB and CK were purified by droplet countercurrent chromatography and by reversed-phase HPLC, respectively.