Design, Synthesis, Conformational Analysis and Application of Azabicyclo­alkane Amino Acids as Constrained Dipeptide Mimics

7,5-Fused azabicycloalkane scaffolds, carrying a quaternary stereocenter at C3 position of the lactam ring, can act as effective reverse-turn mimics and have proven to be useful intermediates for the preparation of Arg-Gly-Asp (RGD)-based cyclopentapeptides (cRGD) with nanomolar activity as αβ/αβ integrin antagonists. Here, we report the synthesis of new azabicycloalkane scaffolds endowed at the C6 position with a para-substituted phenethyl side chain, which could be exploited to obtain cRGD-based bioconjugates that may find promising applications in anticancer therapy. By performing a domino cross enyne metathesis/ring-closing metathesis (CEYM/RCM) in the presence of styrene derivatives, followed by catalytic hydrogenation of the diene system, we easily converted a dipeptide precursor into the desired C6-functionalized azabicycloalkane scaffolds. The presence of a suitably protected p-amino group on the styrene moiety could be exploited, after deprotection, either to directly conjugate a bioactive compound or to introduce a suitable spacer between the cRGD unit and the bioactive compound.

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Synthesis of Functionalized 6,5- and 7,5-Azabicycloalkane Amino Acids by Metathesis Reactions

Serra

Bernardi

Lorenzi

et al. 2019

J. Org. Chem.

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Azabicyclo[4.3.0]- and [5.3.0]alkanone amino acid derivatives were easily prepared by submitting the same starting dipeptide to a direct ring-closing enyne metathesis or an ethylene-mediated cross-enyne metathesis/ring-closing metathesis, respectively. The reactivity of the newly synthesized 6,5- and 7,5-fused bicyclic scaffolds was then investigated to obtain variously functionalized derivatives with potential applications in the field of peptides/peptidomimetics.

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Design, Synthesis, Conformational Analysis and Application of Azabicycloalkane Amino Acids as Constrained Dipeptide Mimics

Cited by 4 publications

References 39 publications

Aminolactam, N-Aminoimidazolone, and N-Aminoimdazolidinone Peptide Mimics

Aminolactam, N-Aminoimidazolone, and N-Aminoimdazolidinone Peptide Mimics

Synthesis of Variously Functionalized Azabicycloalkane Scaffolds by Domino Metathesis Reactions

Synthesis of Functionalized 6,5- and 7,5-Azabicycloalkane Amino Acids by Metathesis Reactions

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Design, Synthesis, Conformational Analysis and Application of Azabicyclo­alkane Amino Acids as Constrained Dipeptide Mimics

Cited by 4 publications

References 39 publications

Aminolactam, N-Aminoimidazolone, and N-Aminoimdazolidinone Peptide Mimics

Aminolactam, N-Aminoimidazolone, and N-Aminoimdazolidinone Peptide Mimics

Synthesis of Variously Functionalized Azabicycloalkane Scaffolds by Domino Metathesis Reactions

Synthesis of Functionalized 6,5- and 7,5-Azabicycloalkane Amino Acids by Metathesis Reactions

Contact Info

Product

Resources

About

Design, Synthesis, Conformational Analysis and Application of Azabicycloalkane Amino Acids as Constrained Dipeptide Mimics