Eline Boons scite author profile

We report on a new anti-influenza virus agent, SA-19, a lipophilic glycopeptide derivative consisting of aglycoristocetin coupled to a phenylbenzyl-substituted cyclobutenedione. In Madin-Darby canine kidney cells infected with influenza A/H1N1, A/H3N2, or B virus, SA-19 displayed a 50% antivirally effective concentration of 0.60 μM and a selectivity index (ratio of cytotoxic versus antiviral concentration) of 112. SA-19 was 11-fold more potent than unsubstituted aglycoristocetin and was active in human and nonhuman cell lines. Virus yield at 72 h p.i. was reduced by 3.6 logs at 0.8 μM SA-19. In contrast to amantadine and oseltamivir, SA-19 did not select for resistance upon prolonged virus exposure. SA-19 was shown to inhibit an early postbinding step in virus replication. The compound had no effect on hemagglutinin (HA)-mediated membrane fusion in an HA-polykaryon assay and did not inhibit the low-pH-induced refolding of the HA in a tryptic digestion assay. However, a marked inhibitory effect on the transduction exerted by retroviral pseudoparticles carrying an HA or vesicular stomatitis virus glycoprotein (VSV-G) fusion protein was noted, suggesting that SA-19 targets a cellular factor with a role in influenza virus and VSV entry. Using confocal microscopy with antinucleoprotein staining, SA-19 was proven to completely prevent the influenza virus nuclear entry. This virus arrest was characterized by the formation of cytoplasmic aggregates. SA-19 appeared to disturb the endocytic uptake and trap the influenza virus in vesicles distinct from early, late, or recycling endosomes. The aglycoristocetin derivative SA-19 represents a new class of potent and broad-acting influenza virus inhibitors with potential clinical relevance.

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In Vitro DNA Tethering of HIV-1 Integrase by the Transcriptional Coactivator LEDGF/p75

McNeely

Hendrix

Busschots

et al. 2011

Journal of Molecular Biology

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Human Exportin-1 is a Target for Combined Therapy of HIV and AIDS Related Lymphoma

et al. 2015

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Infection with HIV ultimately leads to advanced immunodeficiency resulting in an increased incidence of cancer. For example primary effusion lymphoma (PEL) is an aggressive non-Hodgkin lymphoma with very poor prognosis that typically affects HIV infected individuals in advanced stages of immunodeficiency. Here we report on the dual anti-HIV and anti-PEL effect of targeting a single process common in both diseases. Inhibition of the exportin-1 (XPO1) mediated nuclear transport by clinical stage orally bioavailable small molecule inhibitors (SINE) prevented the nuclear export of the late intron-containing HIV RNA species and consequently potently suppressed viral replication. In contrast, in CRISPR-Cas9 genome edited cells expressing mutant C528S XPO1, viral replication was unaffected upon treatment, clearly demonstrating the anti-XPO1 mechanism of action. At the same time, SINE caused the nuclear accumulation of p53 tumor suppressor protein as well as inhibition of NF-κB activity in PEL cells resulting in cell cycle arrest and effective apoptosis induction. In vivo, oral administration arrested PEL tumor growth in engrafted mice. Our findings provide strong rationale for inhibiting XPO1 as an innovative strategy for the combined anti-retroviral and anti-neoplastic treatment of HIV and PEL and offer perspectives for the treatment of other AIDS-associated cancers and potentially other virus-related malignancies.

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A stably expressed llama single-domain intrabody targeting Rev displays broad-spectrum anti-HIV activity

Boons

Vanstreels

et al. 2014

Antiviral Research

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The HIV Rev protein mediates the transport of partially and unspliced HIV mRNA from the nucleus to the cytoplasm. Rev multimerizes on a secondary stem-loop structure present in the viral intron-containing mRNA species and recruits the cellular karyopherin CRM1 to export viral mRNAs from the nucleus to the cytoplasm. Previously we have identified a single-domain intrabody (Nb(190)), derived from a llama heavy-chain antibody, which efficiently inhibits Rev multimerization and suppresses the production of infectious virus. We recently mapped the epitope of this nanobody and demonstrated that Rev residues K20 and Y23 are crucial for interaction while residues V16, H53 and L60 are important to a lesser extent. Here, we generated cell lines stably expressing Nb(190) and assessed the capacity of these cell lines to suppress the replication of different HIV-1 subtypes. These cells stably expressing the single-domain antibody are protected from virus-induced cytopathogenic effect even in the context of high multiplicity of infection. In addition, the replication of different subtypes of group M and one strain of group O is significantly suppressed in these cell lines. Next, we analysed the natural variations of Rev amino acids in sequence samples from HIV-1 infected patients worldwide and assessed the effect of Nb(190) on the most prevalent polymorphisms occurring at the key epitope positions (K20 and Y23) in Rev. We found that Nb(190) was able to suppress the function of these Rev variants except for the K20N mutant, which was present in only 0.7% of HIV-1 sequence populations (n = 4632). Cells stably expressing the single-domain intrabody Nb(190) are protected against virus-induced cytopathogenic effect and display a selective survival advantage upon infection. In addition, Nb(190) suppresses the replication of a wide range of different HIV-1 subtypes. Large-scale sequence analysis reveals that the Nb(190) epitope positions in Rev are well conserved across major HIV-1 subtypes and groups. Altogether, our results indicate that Nb(190) may have broad potential as a gene therapeutic agent against HIV-1.

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Mapping the Binding Interface between an HIV-1 Inhibiting Intrabody and the Viral Protein Rev

et al. 2013

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HIV-1 Rev is the key protein in the nucleocytoplasmic export and expression of the late viral mRNAs. An important aspect for its function is its ability to multimerize on these mRNAs. We have recently identified a llama single-domain antibody (Nb190) as the first inhibitor targeting the Rev multimerization function in cells. This nanobody is a potent intracellular antibody that efficiently inhibits HIV-1 viral production. In order to gain insight into the Nb190-Rev interaction interface, we performed mutational and docking studies to map the interface between the nanobody paratope and the Rev epitope. Alanine mutants of the hyper-variable domains of Nb190 and the Rev multimerization domains were evaluated in different assays measuring Nb190-Rev interaction or viral production. Seven residues within Nb190 and five Rev residues are demonstrated to be crucial for epitope recognition. These experimental data were used to perform docking experiments and map the Nb190-Rev structural interface. This Nb190-Rev interaction model can guide further studies of the Nb190 effect on HIV-1 Rev function and could serve as starting point for the rational development of smaller entities binding to the Nb190 epitope, aimed at interfering with protein-protein interactions of the Rev N-terminal domain.

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XPO1 inhibitors represent a novel therapeutic option in Adult T-cell Leukemia, triggering p53-mediated caspase-dependent apoptosis

et al. 2021

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Selective Inhibitors of Nuclear Export (SINE) Compounds Suppress Both HIV Replication and AIDS Related Lymphoma

Daelemans

Boons

Vanstreels

et al. 2015

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Infection with human immunodeficiency virus (HIV) compromises the immune system leaving infected individuals vulnerable to other pathologies including cancer. HIV-infected patients have an increased risk of cancer development as compared to the general population. Primary effusion lymphoma (PEL), a high-grade non-Hodgkin lymphoma with very poor prognosis, typically affects individuals infected with HIV in advanced stages of acquired immune deficiency syndrome (AIDS). While the use of anti-HIV drugs is associated with better prognosis, treating cancer in HIV-infected patients is often challenging due to potential drug interactions between anti-cancer agents and antiretroviral drugs. We demonstrate that inhibition of the exportin-1 (CRM1/XPO1) mediated nuclear protein transport by SINE compounds results in effective suppression of HIV replication, which was quantified by measuring virus-associated core antigen (p24) by ELISA. In addition by using MTT, assays, Annexin staining, FACS and immunoblot analysis we demonstrated that XPO1 inhibition induced cell cycle arrest and apoptosis in PEL cell lines (BC-1, BCBL-1, and JSC-1) at similar doses. SINE blocked the nuclear export of the late viral partially and unspliced RNA species encoding for the viral structural proteins. In BC-1 PEL cells inhibition of XPO1 resulted in the nuclear accumulation of p53 tumor suppressor protein as well as inhibition of NF-κB activity. In vivo, oral administration twice a week for 4 weeks, 20 mg/kg of the clinical SINE compound selinexor (currently in phase I/II clinical trials) led to a significant suppression of the BC-1 PEL growth in vivo. These findings provide a strong basis for inhibiting XPO1 as a novel strategy for the combined treatment of HIV and PEL or other AIDS-related cancers. Disclosures Tamir: Karyopharm: Employment. Kauffman:Karyopharm: Employment, Equity Ownership. Shacham:Karyopharm: Employment, Equity Ownership. Landesman:Karyopharm: Employment.

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Eline Boons

Intracytoplasmic Trapping of Influenza Virus by a Lipophilic Derivative of Aglycoristocetin

In Vitro DNA Tethering of HIV-1 Integrase by the Transcriptional Coactivator LEDGF/p75

Human Exportin-1 is a Target for Combined Therapy of HIV and AIDS Related Lymphoma

A stably expressed llama single-domain intrabody targeting Rev displays broad-spectrum anti-HIV activity

Mapping the Binding Interface between an HIV-1 Inhibiting Intrabody and the Viral Protein Rev

XPO1 inhibitors represent a novel therapeutic option in Adult T-cell Leukemia, triggering p53-mediated caspase-dependent apoptosis

Selective Inhibitors of Nuclear Export (SINE) Compounds Suppress Both HIV Replication and AIDS Related Lymphoma

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