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Large ring-forming alkylations provide facile access to composite macrocycles.


ABSTRACT: Macrocyclic compounds have potential to enable drug discovery for protein targets with extended, solvent-exposed binding sites. Crystallographic structures of peptides bound at such sites show strong surface complementarity and frequent aromatic side-chain contacts. In an effort to capture these features in stabilized small molecules, we describe a method to convert linear peptides into constrained macrocycles based upon their aromatic content. Designed templates initiate the venerable Friedel-Crafts alkylation to form large rings efficiently at room temperature - routinely within minutes - and unimpeded by polar functional groups. No protecting groups, metals, or air-free techniques are required. Regiochemistry can be tuned electronically to explore diverse macrocycle connectivities. Templates with additional reaction capabilities can further manipulate macrocycle structure. The chemistry lays a foundation to extend studies of how the size, shape and constitution of peptidyl macrocycles correlate with their pharmacological properties.

SUBMITTER: Rose TE 

PROVIDER: S-EPMC5485560 | biostudies-literature | 2015 Apr

REPOSITORIES: biostudies-literature

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Large ring-forming alkylations provide facile access to composite macrocycles.

Rose Tristan E TE   Lawson Kenneth V KV   Harran Patrick G PG  

Chemical science 20150209 4


Macrocyclic compounds have potential to enable drug discovery for protein targets with extended, solvent-exposed binding sites. Crystallographic structures of peptides bound at such sites show strong surface complementarity and frequent aromatic side-chain contacts. In an effort to capture these features in stabilized small molecules, we describe a method to convert linear peptides into constrained macrocycles based upon their aromatic content. Designed templates initiate the venerable Friedel-C  ...[more]

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