Optimization and in Vivo Validation of Peptide Vectors Targeting the LDL Receptor

authors

  • Jacquot Guillaume
  • Lecorché Pascaline
  • Malcor Jean-Daniel
  • Laurencin Mathieu
  • Smirnova Maria
  • Varini Karine
  • Malicet Cédric
  • Gassiot Fanny
  • Abouzid Karima
  • Faucon Aude
  • David Marion
  • Gaudin Nicolas
  • Masse Maxime
  • Ferracci Géraldine
  • Dive Vincent
  • Cisternino Salvatore
  • Khrestchatisky Michel

keywords

  • Medicinal chemistry based optimization
  • LDLR targeting
  • LDLR knockout
  • Peptide vector
  • Tissue distribution

document type

ART

abstract

Active targeting and delivery to pathophysiological organs of interest is of paramount importance to increase specific accumulation of therapeutic drugs or imaging agents while avoiding systemic side effects. We recently developed a family of new peptide ligands of the human and rodent LDL receptor (LDLR), an attractive cell-surface receptor with high uptake activity and local enrichment in several normal or pathological tissues (Malcor et al., J. Med. Chem. 2012, 55 (5), 2227). Initial chemical optimization of the 15-mer, all natural amino acid compound 1/VH411 (DSGL[CMPRLRGC]cDPR) and structure-activity relationship (SAR) investigation led to the cyclic 8 amino acid analogue compound 22/VH445 ([cMPRLRGC]c) which specifically binds hLDLR with a KD of 76 nM and has an in vitro blood half-life of ∼3 h. Further introduction of non-natural amino acids led to the identification of compound 60/VH4106 ([(d)-"Pen"M"Thz"RLRGC]c), which showed the highest KD value of 9 nM. However, this latter analogue displayed the lowest in vitro blood half-life (∼1.9 h). In the present study, we designed a new set of peptide analogues, namely, VH4127 to VH4131, with further improved biological properties. Detailed analysis of the hLDLR-binding kinetics of previous and new analogues showed that the latter all displayed very high on-rates, in the 10(6) s(-1.)M(-1) range, and off-rates varying from the low 10(-2) s(-1) to the 10(-1) s(-1) range. Furthermore, all these new analogues showed increased blood half-lives in vitro, reaching ∼7 and 10 h for VH4129 and VH4131, respectively. Interestingly, we demonstrate in cell-based assays using both VH445 and the most balanced optimized analogue VH4127 ([cM"Thz"RLRG"Pen"]c), showing a KD of 18 nM and a blood half-life of ∼4.3 h, that its higher on-rate correlated with a significant increase in both the extent of cell-surface binding to hLDLR and the endocytosis potential. Finally, intravenous injection of tritium-radiolabeled (3)H-VH4127 in wild-type or ldlr -/- mice confirmed their active LDLR targeting in vivo. Overall, this study extends our previous work toward a diversified portfolio of LDLR-targeted peptide vectors with validated LDLR-targeting potential in vivo.

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