Intra-mitochondrial self-assembly to overcome the intracellular enzymatic degradation of l-peptides.

The design of peptide-based therapeutics is generally based on the replacement of l-amino acids with d-isomers to obtain improved therapeutic efficiency. However, d-isomers are expensive and frequently induce undesirable immune responses. In the present work, we demonstrate that an intra-mitochondrially self-assembling amphiphilic peptide exhibits analogous activity in both d- and l-isomeric forms. This outcome is in contrast to the general observation considering higher therapeutic efficiencies of d-isomers compared with l-analogues. This suggests that l-peptides overcome proteolytic degradation during intra-mitochondrial self-assembly both in vitro and in vivo.