Rational design of novel HIV-1 entry inhibitors by RANTES engineering.

Abstract	The discovery that the CC chemokines RANTES, MIP-1alpha and MIP-1beta act as potent natural inhibitors of HIV-1, the causative agent of AIDS, and the subsequent identification of CCR5 as a major virus coreceptor have triggered a wealth of basic and applied research approaches aimed at developing safe and effective viral entry inhibitors. Some of these efforts have focused on RANTES engineering with the goal of enhancing the antiviral activity of the native molecule while reducing or abrogating its inflammatory properties. The wavefront generated a decade ago is still on its course, with a flow of promising leads constantly emerging and being evaluated in preclinical studies. Here, we present an overview of this rapidly evolving field, highlighting the most important features of RANTES molecular architecture and structure-function relationships.
Authors	Luca Vangelista, Massimiliano Secchi, Paolo Lusso
Journal	Vaccine (Vaccine) Vol. 26 Issue 24 Pg. 3008-15 (Jun 06 2008) ISSN: 0264-410X [Print] Netherlands
PMID	18243436 (Publication Type: Journal Article, Research Support, N.I.H., Extramural, Research Support, Non-U.S. Gov't, Review)
Chemical References	Anti-Infective Agents, Local CCR5 Receptor Antagonists Chemokine CCL5 HIV Fusion Inhibitors Receptors, CCR5
Topics	Anti-Infective Agents, Local (pharmacology) CCR5 Receptor Antagonists Chemokine CCL5 (pharmacology) Drug Design HIV Fusion Inhibitors (pharmacology) HIV Infections (drug therapy, prevention & control) HIV-1 (drug effects) Humans Protein Engineering Receptors, CCR5 (metabolism) Structure-Activity Relationship

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