Discovery of Small-Molecule Inhibitors Targeting the E3 Ubiquitin Ligase Activity of the Herpes Simplex Virus 1 ICP0 Protein Using an High-Throughput Screening Assay

Overview

Journal J Virol

Publisher American Society for Microbiology

Date 2019 Apr 19

PMID 30996104

Citations 11

Authors

Thibaut Deschamps

Hope Waisner

Christos Dogrammatzis

Anuradha Roy

Shibin Chacko

Chamani Perera

Thomas E Prisinzano

Maria Kalamvoki

Affiliations

Soon will be listed here.

Abstract

Herpes simplex virus 1 (HSV-1) has infected more than 80% of the population. Reactivation of the virus causes diseases ranging in severity from benign cold sores to fatal encephalitis. Current treatments involve viral DNA replication inhibitors, but the emergence of drug-resistant mutants is observed frequently, highlighting the need for novel antiviral therapies. Infected cell protein 0 (ICP0) of HSV-1 is encoded by an immediate early gene and plays a fundamental role during infection, because it enables viral gene expression and blocks antiviral responses. One mechanism by which ICP0 functions is through an E3 ubiquitin ligase activity that induces the degradation of targeted proteins. A ΔICP0 virus or mutants with deficiencies in E3 ligase activity cannot counteract beta interferon (IFN-β)-induced restriction of viral infection, are highly immunogenic, are avirulent, and fail to spread. Thus, small molecules interfering with essential and conserved ICP0 functions are expected to compromise HSV-1 infection. We have developed a high-throughput screening assay, based on the autoubiquitination properties of ICP0, to identify small-molecule inhibitors of ICP0 E3 ubiquitin ligase activity. Through a pilot screening procedure, we identified nine compounds that displayed dose-dependent inhibitory effects on ICP0 but not on Mdm2, a control E3 ubiquitin ligase. Following validation, one compound displayed ICP0-dependent inhibition of HSV-1 infection. This compound appeared to bind ICP0 in a cellular thermal shift assay, it blocked ICP0 self-elimination, and it blocked wild-type but not ICP0-null virus gene expression. This scaffold displays specificity and could be used to develop optimized ICP0 E3 ligase inhibitors. Since acyclovir and its derivatives were launched for herpesviruses control almost four decades ago, the search for novel antivirals has waned. However, as human life expectancy has increased, so has the number of immunocompromised individuals who receive prolonged treatment for HSV recurrences. This has led to an increase in unresponsive patients due to acquired viral drug resistance. Thus, novel treatments need to be explored. Here we explored the HSV-1 ICP0 E3 ligase as a potential antiviral target because (i) ICP0 is expressed before virus replication, (ii) it is essential for infection , (iii) it is required for efficient reactivation of the virus from latency, (iv) inhibition of its E3 ligase activity would sustain host immune responses, and (v) it is shared by other herpesviruses. We report a compound that inhibits HSV-1 infection in an ICP0-dependent manner by inhibiting ICP0 E3 ligase activity.

Citing Articles

Host-Driven Ubiquitination Events in Vector-Transmitted RNA Virus Infections as Options for Broad-Spectrum Therapeutic Intervention Strategies.

Sreepangi S, Baha H, Opoku L, Jones N, Konadu M, Alem F Viruses. 2024; 16(11).

PMID: 39599842 PMC: 11599102. DOI: 10.3390/v16111727.

HSV-1 ICP0 dimer domain adopts a novel β-barrel fold.

McCloskey E, Kashipathy M, Cooper A, Gao P, Johnson D, Battaile K Proteins. 2024; 92(7):830-841.

PMID: 38372168 PMC: 11147711. DOI: 10.1002/prot.26673.

HSV-1 ICP0 Dimer Domain Adopts a Novel β-barrel Fold.

McCloskey E, Kashipathy M, Cooper A, Gao P, Johnson D, Battaile K bioRxiv. 2024; .

PMID: 38293217 PMC: 10827139. DOI: 10.1101/2024.01.16.575752.

Screening and verification of antiviral compounds against HSV-1 using a method based on a plaque inhibition assay.

Yin Y, Li J, Su L, Ou Z, Lv Q, Xiao M BMC Infect Dis. 2023; 23(1):890.

PMID: 38114935 PMC: 10731695. DOI: 10.1186/s12879-023-08843-3.

The role of E3 ubiquitin ligases in bone homeostasis and related diseases.

Dong Y, Chen Y, Ma G, Cao H Acta Pharm Sin B. 2023; 13(10):3963-3987.

PMID: 37799379 PMC: 10547920. DOI: 10.1016/j.apsb.2023.06.016.

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