An N-capping asparagine-lysine-proline (NKP) motif contributes to a hybrid flexible/stable multifunctional peptide scaffold.
Marlon Henrique CardosoLai Yue ChanElizabete S CândidoDanieli F BucciniSamilla B RezendeMarcelo Der Torossian TorresKaren G N OshiroÍtala C SilvaSónia GonçalvesTimothy K LuNuno C Santosde la Fuente-Nunez CesarDavid J CraikOctávio Luiz FrancoPublished in: Chemical science (2022)
Structural diversity drives multiple biological activities and mechanisms of action in linear peptides. Here we describe an unusual N-capping asparagine-lysine-proline (NKP) motif that confers a hybrid multifunctional scaffold to a computationally designed peptide (PaDBS1R7). PaDBS1R7 has a shorter α-helix segment than other computationally designed peptides of similar sequence but with key residue substitutions. Although this motif acts as an α-helix breaker in PaDBS1R7, the Asn5 presents exclusive N-capping effects, forming a belt to establish hydrogen bonds for an amphipathic α-helix stabilization. The combination of these different structural profiles was described as a coil/N-cap/α-helix scaffold, which was also observed in diverse computational peptide mutants. Biological studies revealed that all peptides displayed antibacterial activities. However, only PaDBS1R7 displayed anticancer properties, eradicated Pseudomonas aeruginosa biofilms, decreased bacterial counts by 100-1000-fold in vivo , reduced lipopolysaccharide-induced macrophages stress, and stimulated fibroblast migration for wound healing. This study extends our understanding of an N-capping NKP motif to engineering hybrid multifunctional peptide drug candidates with potent anti-infective and immunomodulatory properties.
Keyphrases
- lipopolysaccharide induced
- amino acid
- drug delivery
- pseudomonas aeruginosa
- wound healing
- dna binding
- cancer therapy
- inflammatory response
- tissue engineering
- cystic fibrosis
- nk cells
- emergency department
- single cell
- transcription factor
- metal organic framework
- biofilm formation
- case control
- heat stress
- drug induced
- neural network