Scientific article

Medicinal chemistry applied to a synthetic protein: development of highly potent HIV entry inhibitors

Publication date2004

We have used total chemical synthesis to perform high-resolution dissection of the pharmacophore of a potent anti-HIV protein, the aminooxypentane oxime of [glyoxylyl1]RANTES(2-68), known as AOP-RANTES, of which we designed and made 37 analogs. All involved incorporation of one or more rationally chosen nonnatural noncoded structures, for which we found a clear comparative advantage over coded ones. We investigated structure-activity relationships in the pharmacophore by screening the analogs for their ability to block the HIV entry process and produced a derivative, PSC-RANTES [N-nonanoyl, des-Ser1[L-thioproline2, L-cyclohexylglycine3]-RANTES(2-68)], which is 50 times more potent than AOP-RANTES. This promising group of compounds might be optimized yet further as potential prophylactic and therapeutic anti-HIV agents. The remarkable potency of our RANTES analogs probably involves the unusual mechanism of intracellular sequestration of CC-chemokine receptor 5 (CCR5), and it has been suggested that this arises from enhanced affinity for the receptor. We found that inhibitory potency and capacity to induce CCR5 down-modulation do appear to be correlated, but that unexpectedly, inhibitory potency and affinity for CCR5 do not. We believe this study represents the proof of principle for the use of a medicinal chemistry approach, above all one showing the advantage of noncoded structures, to the optimization of the pharmacological properties of a protein. Medicinal chemistry of small molecules is the foundation of modern pharmaceutical practice, and we believe we have shown that techniques have now reached the point at which the approach could also be applied to the many macromolecular drugs now in common use.

  • Animals
  • Anti-HIV Agents/chemical synthesis/chemistry/pharmacology
  • CD4-Positive T-Lymphocytes/drug effects/immunology
  • CHO Cells
  • Chemokine CCL5/analogs & derivatives/chemical synthesis/chemistry/pharmacology
  • Cricetinae
  • Drug Design
  • HIV Infections/drug therapy/prevention & control/virology
  • HIV-1/drug effects/isolation & purification
  • Humans
  • Leukocytes
  • Mononuclear/transplantation
  • Mice
  • Mice
  • SCID
  • RNA
  • Viral/blood
  • Receptors
  • CCR5/metabolism
  • Structure-Activity Relationship
Research group
Citation (ISO format)
HARTLEY, Oliver et al. Medicinal chemistry applied to a synthetic protein: development of highly potent HIV entry inhibitors. In: Proceedings of the National Academy of Sciences of the United States of America, 2004, vol. 101, n° 47, p. 16460–16465. doi: 10.1073/pnas.0404802101
Main files (1)
Article (Published version)
ISSN of the journal0027-8424

Technical informations

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