Dejan Mesner scite author profile

The capture of biotin by streptavidin is an inspiration for supramolecular chemistry and a central tool for biological chemistry and nanotechnology, because of the rapid and exceptionally stable interaction. However, there is no robust orthogonal interaction to this hub, limiting the size and complexity of molecular assemblies that can be created. Here we combined traptavidin (a streptavidin variant maximizing biotin binding strength) with an orthogonal irreversible interaction. SpyTag is a peptide engineered to form a spontaneous isopeptide bond to its protein partner SpyCatcher. SpyTag or SpyCatcher was successfully fused to the C-terminus of Dead streptavidin subunits. We were able to generate chimeric tetramers with n (0 ≤ n ≤ 4) biotin binding sites and 4-n SpyTag or SpyCatcher binding sites. Chimeric SpyAvidin tetramers bound precise numbers of ligands fused to biotin or SpyTag/SpyCatcher. Mixing chimeric tetramers enabled assembly of SpyAvidin octamers (8 subunits) or eicosamers (20 subunits). We validated assemblies using electrophoresis and native mass spectrometry. Eicosameric SpyAvidin was used to cluster trimeric major histocompatibility complex (MHC) class I:β2-microglobulin:peptide complexes, generating an assembly with up to 56 components. MHC eicosamers surpassed the conventional MHC tetramers in acting as a powerful stimulus to T cell signaling. Combining ultrastable noncovalent with irreversible covalent interaction, SpyAvidins enable a simple route to create robust nanoarchitectures.

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Evolution of enhanced innate immune suppression by SARS-CoV-2 Omicron subvariants

Reuschl

Thorne

Whelan

et al. 2022

Preprint

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SARS-CoV-2 adaptation to its human host is evidenced by the emergence of new viral lineages with distinct genotypic and phenotypic characteristics, termed variants of concern (VOCs). Particular VOCs have become sequentially dominant globally (Alpha, Delta, Omicron) with each evolving independently from the ancestral Wuhan strain. Omicron is notable for its large number of Spike mutations found to promote immune escape and re-infection. Most recently, Omicron BA.4 and BA.5 subvariants have emerged with increasing levels of adaptive immune escape threatening vaccine effectiveness and increasing hospitalisations. Here, we demonstrate that the most recent Omicron variants have enhanced capacity to antagonise or evade human innate immune defenses. We find Omicron BA.4 and BA.5 replication is associated with reduced activation of epithelial innate immune responses versus earlier BA.1 and BA.2 subvariants. We also find enhanced expression of innate immune antagonist proteins Orf6 and N, similar to Alpha, suggesting common pathways of human adaptation and linking VOC dominance to improved innate immune evasion. We conclude that Omicron BA.4 and BA.5 have combined evolution of antibody escape with enhanced antagonism of human innate immunity to improve transmission and possibly reduce immune protection from severe disease.

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SARS-CoV-2 Spike evolution influences GBP and IFITM sensitivity

Mesner

Reuschl

Whelan

et al. 2022

Preprint

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SARS-CoV-2 spike requires proteolytic processing for viral entry. The presence of a polybasic furin-cleavage site (FCS) in spike, and evolution towards an optimised FCS by dominant variants of concern (VOCs), are linked to enhanced infectivity and transmission. Guanylate binding proteins (GBP) are interferon-inducible restriction factors that target furin-mediated processing of viral envelope proteins and limit infectivity. Here we investigated whether GBPs restrict SARS-CoV-2 infection, and whether VOCs have evolved spikes that escape restriction. We show that GBP2 and 5 interfere with cleavage of the spike proteins of Wuhan-Hu-1, Alpha, Delta and Omicron, consistent with furin inhibition by GBPs. However, while GBP2/5 restrict Wuhan-Hu-1 infectivity, Alpha and Delta escape restriction. GBP exposure in producer cells influences viral entry route into target cells, with a shift towards endosomal entry. We therefore investigated whether GBP-targeting of spike alters sensitivity to endosomal restriction factors, IFITMs. We find IFITM1, but not IFITM 2 or 3, inhibit infection of naturally-permissive epithelial cells by early-lineage SARS-CoV-2, as well as Alpha and Delta, however GBPs did not sensitise to IFITM restriction. Strikingly, we find Omicron is unique amongst VOCs, being sensitive to restriction by GBP2/5, and also IFITM1, 2 and 3. We conclude evolution of Alpha and Delta spikes have conferred resistance to GBP restriction, but this is not solely due to acquisition of an enhanced FCS. Notably, Omicron, which has evolved under different selective pressures, has selected for changes in spike that not only mediate antibody escape, and shift in cell tropism and entry, but also impact the sensitivity of Omicron to innate immunity, potentially contributing to altered pathogenesis.

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Global landscape of the host response to SARS-CoV-2 variants reveals viral evolutionary trajectories

Bouhaddou

Reuschl

Polacco

et al. 2022

Preprint

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A series of SARS-CoV-2 variants of concern (VOCs) have evolved in humans during the COVID-19 pandemic—Alpha, Beta, Gamma, Delta, and Omicron. Here, we used global proteomic and genomic analyses during infection to understand the molecular responses driving VOC evolution. We discovered VOC-specific differences in viral RNA and protein expression levels, including for N, Orf6, and Orf9b, and pinpointed several viral mutations responsible. An analysis of the host response to VOC infection and comprehensive interrogation of altered virus-host protein-protein interactions revealed conserved and divergent regulation of biological pathways. For example, regulation of host translation was highly conserved, consistent with suppression of VOC replication in mice using the translation inhibitor plitidepsin. Conversely, modulation of the host inflammatory response was most divergent, where we found Alpha and Beta, but not Omicron BA.1, antagonized interferon stimulated genes (ISGs), a phenotype that correlated with differing levels of Orf6. Additionally, Delta more strongly upregulated proinflammatory genes compared to other VOCs. Systematic comparison of Omicron subvariants revealed BA.5 to have evolved enhanced ISG and proinflammatory gene suppression that similarly correlated with Orf6 expression, effects not seen in BA.4 due to a mutation that disrupts the Orf6-nuclear pore interaction. Our findings describe how VOCs have evolved to fine-tune viral protein expression and protein-protein interactions to evade both innate and adaptive immune responses, offering a likely explanation for increased transmission in humans.One sentence summarySystematic proteomic and genomic analyses of SARS-CoV-2 variants of concern reveal how variant-specific mutations alter viral gene expression, virus-host protein complexes, and the host response to infection with applications to therapy and future pandemic preparedness.

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SARS-CoV-2 Variants Evolve Convergent Strategies to Remodel the Host Response

Bouhaddou

Reuschl

Polacco

et al. 2023

Preprint

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SARS-CoV-2 evolution influences GBP and IFITM sensitivity

Mesner

Reuschl

Whelan

et al. 2023

Proc. Natl. Acad. Sci. U.S.A.

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SARS-CoV-2 spike requires proteolytic processing for viral entry. A polybasic furin-cleavage site (FCS) in spike, and evolution toward an optimized FCS by dominant variants of concern (VOCs), are linked to enhanced infectivity and transmission. Here we show interferon-inducible restriction factors Guanylate-binding proteins (GBP) 2 and 5 interfere with furin-mediated spike cleavage and inhibit the infectivity of early-lineage isolates Wuhan-Hu-1 and VIC. By contrast, VOCs Alpha and Delta escape restriction by GBP2/5 that we map to the spike substitution D614G present in these VOCs. Despite inhibition of spike cleavage, these viruses remained sensitive to plasma membrane IFITM1, but not endosomal IFITM2 and 3, consistent with a preference for TMPRSS2-dependent plasma membrane entry. Strikingly, we find that Omicron is unique among VOCs, being sensitive to restriction factors GBP2/5, and also IFITM1, 2, and 3. Using chimeric spike mutants, we map the Omicron phenotype and show that the S1 domain determines Omicron’s sensitivity to GBP2/5, whereas the S2’ domain determines its sensitivity to endosomal IFITM2/3 and preferential use of TMPRSS2-independent entry. We propose that evolution of SARS-CoV-2 for the D614G substitution has allowed for escape from GBP restriction factors, but the selective pressures on Omicron for spike changes that mediate antibody escape, and altered tropism, have come at the expense of increased sensitivity to innate immune restriction factors that target virus entry.

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Loss of Nef-mediated CD3 down-regulation in the HIV-1 lineage increases viral infectivity and spread

Mesner

Hotter

Kirchhoff

et al. 2020

Proc. Natl. Acad. Sci. U.S.A.

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Nef is an accessory protein of primate lentiviruses that is essential for efficient replication and pathogenesis of HIV-1. A conserved feature of Nef proteins from different lentiviral lineages is the ability to modulate host protein trafficking and down-regulate a number of cell surface receptors to enhance replication and promote immune evasion. Notably, the inability of Nef to down-regulate CD3 from infected T cells distinguishes HIV-1 Nef and its direct simian precursors from other primate lentiviruses. Why HIV-1 does not employ this potential immune evasion strategy is not fully understood. Using chimeric HIV-1 constructs expressing lentiviral Nef proteins that differ in their ability to down-modulate CD3, we show that retaining CD3 on the surface of infected primary T cells results in increased viral replication and cell-to-cell spread. We identified increased expression of envelope (Env) trimers at the cell surface and increased Env incorporation into virions as the determinants for the Nef-and CD3-dependent enhancement of viral infectivity. Importantly, this was independent of Nef-mediated antagonism of the host restriction factor SERINC5. CD3 retention on the surface of infected primary T cells also correlated with increased T cell signaling, activation, and cell death during cell-tocell spread. Taken together, our results show that loss of an otherwise conserved function of Nef has a positive effect on HIV-1 replication, allowing for more efficient replication while potentially contributing to HIV-1 pathogenesis by triggering T cell activation and cell death during viral spread.HIV | CD3 | Nef | T cell | Env

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HIV-1 Vpr drives a tissue residency-like phenotype during selective infection of resting memory T cells

et al. 2022

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Dejan Mesner

SpyAvidin Hubs Enable Precise and Ultrastable Orthogonal Nanoassembly

Evolution of enhanced innate immune suppression by SARS-CoV-2 Omicron subvariants

SARS-CoV-2 Spike evolution influences GBP and IFITM sensitivity

Global landscape of the host response to SARS-CoV-2 variants reveals viral evolutionary trajectories

SARS-CoV-2 Variants Evolve Convergent Strategies to Remodel the Host Response

SARS-CoV-2 evolution influences GBP and IFITM sensitivity

Loss of Nef-mediated CD3 down-regulation in the HIV-1 lineage increases viral infectivity and spread

HIV-1 Vpr drives a tissue residency-like phenotype during selective infection of resting memory T cells

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