Catchet-MS identifies IKZF1-targeting thalidomide analogues as novel HIV-1 latency reversal agents

Abstract A major pharmacological strategy toward HIV cure aims to reverse latency in infected cells as a first step leading to their elimination. While the unbiased identification of molecular targets physically associated with the latent HIV-1 provirus would be highly valuable to unravel the molecu...

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Bibliographic Details
Published in:Nucleic acids research 2022-06, Vol.50 (10), p.5577-5598
Main Authors: Ne, Enrico, Crespo, Raquel, Izquierdo-Lara, Ray, Rao, Shringar, Koçer, Selin, Górska, Alicja, van Staveren, Thomas, Kan, Tsung Wai, van de Vijver, David, Dekkers, Dick, Rokx, Casper, Moulos, Panagiotis, Hatzis, Pantelis, Palstra, Robert-Jan, Demmers, Jeroen, Mahmoudi, Tokameh
Format: Article
Language:English
Subjects:
CD4-Positive T-Lymphocytes - metabolism
Gene regulation, Chromatin and Epigenetics
HIV Infections - drug therapy
HIV Infections - genetics
HIV Infections - metabolism
HIV-1 - genetics
Humans
Ikaros Transcription Factor - genetics
Proviruses - genetics
Thalidomide - metabolism
Thalidomide - pharmacology
Transcription Factors - metabolism
Virus Activation
Virus Latency
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Summary:Abstract A major pharmacological strategy toward HIV cure aims to reverse latency in infected cells as a first step leading to their elimination. While the unbiased identification of molecular targets physically associated with the latent HIV-1 provirus would be highly valuable to unravel the molecular determinants of HIV-1 transcriptional repression and latency reversal, due to technical limitations, this has been challenging. Here we use a dCas9 targeted chromatin and histone enrichment strategy coupled to mass spectrometry (Catchet-MS) to probe the differential protein composition of the latent and activated HIV-1 5′LTR. Catchet-MS identified known and novel latent 5′LTR-associated host factors. Among these, IKZF1 is a novel HIV-1 transcriptional repressor, required for Polycomb Repressive Complex 2 recruitment to the LTR. We find the clinically advanced thalidomide analogue iberdomide, and the FDA approved analogues lenalidomide and pomalidomide, to be novel LRAs. We demonstrate that, by targeting IKZF1 for degradation, these compounds reverse HIV-1 latency in CD4+ T-cells isolated from virally suppressed people living with HIV-1 and that they are able to synergize with other known LRAs.
ISSN:0305-1048
1362-4962
DOI:10.1093/nar/gkac407