A recombinant approach for stapled peptide discovery yields inhibitors of the RAD51 recombinase.
Teodors PantelejevsPedro Zuazua-VillarOliwia KoczyAndrew J CounsellStephen J WalshNaomi S RobertsonDavid R SpringJessica A DownsMarko HyvönenPublished in: Chemical science (2023)
Stapling is a macrocyclisation method that connects amino acid side chains of a peptide to improve its pharmacological properties. We describe an approach for stapled peptide preparation and biochemical evaluation that combines recombinant expression of fusion constructs of target peptides and cysteine-reactive divinyl-heteroaryl chemistry as an alternative to solid-phase synthesis. We then employ this workflow to prepare and evaluate BRC-repeat-derived inhibitors of the RAD51 recombinase, showing that a diverse range of secondary structure elements in the BRC repeat can be stapled without compromising binding and function. Using X-ray crystallography, we elucidate the atomic-level features of the staple moieties. We then demonstrate that BRC-repeat-derived stapled peptides can disrupt RAD51 function in cells following ionising radiation treatment.
Keyphrases
- amino acid
- dna damage
- dna repair
- poor prognosis
- induced apoptosis
- high resolution
- cell cycle arrest
- high throughput
- binding protein
- magnetic resonance imaging
- cell free
- oxidative stress
- computed tomography
- radiation therapy
- mass spectrometry
- radiation induced
- molecularly imprinted
- dna binding
- cell death
- magnetic resonance
- electronic health record
- endoplasmic reticulum stress
- fluorescent probe
- transcription factor
- drug discovery