Background: Enhanced levels of a dipeptide, WC-am, have been reported among elite controllers - patients who spontaneously control their HIV-1 infection. This study aimed to evaluate anti-HIV-1 activity and mechanism of action of WC-am.

Methods: Drug sensitivity assays in TZM.bl cells, PBMCs and ACH-2 cells using WT and mutated HIV-1 strains were performed to evaluate the antiviral mechanism of WC-am. Mass spectrometry-based proteomics and Real-time PCR analysis of reverse transcription steps were performed to unravel the second anti-HIV-1 mechanism of WC-am.Results: The data suggest that WC-am binds to the CD4 binding pocket of HIV-1 gp120 and blocks its binding to the host cell receptors. Additionally, the time course assay showed that WC-am also inhibited HIV-1 at 4-6 hours post-infection, suggesting a second antiviral mechanism. Drug sensitivity assays under acidic wash conditions confirmed the ability of WC-am to internalise into the host cell in an HIV independent manner. Proteomic studies showed a clustering of all samples treated with WC-am independent of the number of doses or presence or absence of HIV-1. Differentially expressed proteins due to the WC-am treatment indicated an effect on HIV-1 reverse transcription, which was confirmed by reverse transcriptase polymerase chain reaction (RT-PCR).Conclusion: Naturally occurring in HIV-1 elite controllers, WC-am stands out as a new kind of antiviral compound with two independent inhibitory mechanisms of action on HIV-1 replication. WC-am halts HIV-1 entry to the host cell by binding to HIV-1 gp120, thereby blocking the binding of HIV-1 to the host cell. WC-am also exerts a post-entry but pre-integration antiviral effect related to RT-activity.