Elisabeth Rack scite author profile

Reductive amination of the bicyclic ketone 4 led diastereoselectively to endo-configured amines, which were transformed into the amides 7-10. The synthesis of the diastereomers 25 with an exo-configured amino moiety at position 6 was only successful after deactivation of both N-atoms of the 1,4-diazabicyclo[3.3.1]nonane system. The N-1-oxide 19 with an N-4-tosyl moiety was the crucial intermediate, which allows SN2 substitution with NaN3 under inversion of the configuration at position 6. Whereas the endo-configured pyrrolidine 7a (WMS-1302) revealed a kappa receptor affinity of 73 nM, the exo-configured diastereomer 25a was almost inactive at the kappa receptor (Ki > 1 microM). Replacement of the 3,4-dichlorophenylacetyl residue by other acyl and sulfonyl residues showed that it is essential for high kappa affinity. The kappa receptor affinities of the conformationally constrained pyrrolidines 7a and 25a were correlated with the dihedral angle N(pyrrolidine)-C-C-N(acetamide). A systematic conformational analysis of the potent but flexible kappa agonist 2 showed that a dihedral angle of 168 degrees (as in 25a) is energetically more disfavored than a dihedral angle of 58 degrees (7a). However, even the conformation with a dihedral angle of 58 degrees does not represent an energy minimum, which might explain the reduced kappa affinity of 7a.

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Synthesis and biological evaluation of conformationally restricted σ1 receptor ligands with 7,9-diazabicyclo[4.2.2]decane scaffold

Sunnam

Schepmann

Rack

et al. 2010

Org. Biomol. Chem.

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The key step in the synthesis of the 7,9-diazabicyclo[4.2.2]decane system was a modified Dieckmann condensation of piperazinebutyrate 11, which makes use of trapping the first cyclized intermediate with TMS-Cl. Reduction of the bicyclic ketone 14 with LiBH(4) at -90 °C provided diastereoselectively (>99 : 1) the syn-configured alcohol 15a, which was converted into the final alcohol and ethers 16a-g. The configuration at the 2-position was established by X-ray structure analysis of methyl and ethyl ethers 15b and 15c. In contrast to bicyclic systems with a three-carbon bridge, inversion of the configuration at the 2-position of the alcohol 15a failed to give the inverted alcohol 19a. However, an unselective reduction of the ketone 24 with L-Selectride led to the diastereomeric alcohols 16a and 25a in the ratio 36 : 64. LiAlH(4) reduction of the tosylate 20 and the alkene 18 yielded the diazabicyclo-decane 26 and -decene 27 without further substituents at the four-carbon bridge. The σ(1) and σ(2) receptor affinities were investigated in receptor binding studies with radioligands. All test compounds showed a lower σ(1) affinity than the corresponding bicyclic derivatives with a three-membered bridge. The reduced σ(1) receptor affinity is attributed to the larger four-membered bridge. This hypothesis is supported by the alkene 27, which represents the most potent σ(1) ligand of this series (K(i) = 7.5 nM). In the alkene 27 the size and flexibility of the bridge is considerably reduced by the double bond. The methyl ether 25b and the unsubstituted derivatives 26 and 27 revealed moderate inhibition of the growth of the human tumor cell lines A-427, 5637 and MCF-7. Again, these compounds are less potent than the analogues with a three-membered bridge. The IC(50)-value of the most potent σ(1) ligand 27 against the small cell lung cancer cell line A-427 (IC(50) = 10 μM) should be emphasized, since this cell line is particularly sensitive to homologues with a three-carbon bridge.

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Synthesis of 7,9-diazabicyclo[4.2.2]decanes as conformationally restricted κ receptor agonists: Fine tuning of the dihedral angle of the ethylenediamine pharmacophore

Sunnam

Rack

Schepmann

et al. 2011

European Journal of Medicinal Chemistry

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Elisabeth Rack

Design, synthesis and pharmacological evaluation of spirocyclic σ1 receptor ligands with exocyclic amino moiety (increased distance 1)

Stereoselective synthesis and structure–affinity relationships of bicyclic κ receptoragonists

Synthesis and biological evaluation of conformationally restricted σ1 receptor ligands with 7,9-diazabicyclo[4.2.2]decane scaffold

Synthesis of 7,9-diazabicyclo[4.2.2]decanes as conformationally restricted κ receptor agonists: Fine tuning of the dihedral angle of the ethylenediamine pharmacophore

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