Publications by authors named "Stuart Bloor"

Article Synopsis
  • The human silencing hub (HUSH) complex is an epigenetic system that silences retroelements in the genome, primarily through components like TASOR, MPP8, and Periphilin, which work together to facilitate chromatin modification.
  • Periphilin is identified as the main RNA-binding component of the HUSH complex, and its N-terminal domain is crucial for both RNA binding and the overall function of HUSH.
  • The study demonstrates that Periphilin can exert HUSH-dependent silencing even when artificially tethered to a transcript that normally would not be silenced, highlighting its importance in the complex's mechanism of action.
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Herpes simplex virus 1 (HSV-1) latently infected neurons display diverse patterns in the distribution of the viral genomes within the nucleus. A key pattern involves quiescent HSV-1 genomes sequestered in promyelocytic leukemia nuclear bodies (PML NBs) forming viral DNA-containing PML-NBs (vDCP NBs). Using a cellular model that replicates vDCP NB formation, we previously demonstrated that these viral genomes are chromatinized with the H3.

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Article Synopsis
  • All life forms have mechanisms to protect their genetic material from foreign DNA, primarily through a process called transcriptional repression, which is particularly important in eukaryotic cells.* -
  • The human silencing hub (HUSH) complex specifically targets and represses long interspersed elements and retroviruses by modifying histones, although how it recognizes these elements is not entirely understood.* -
  • This study demonstrates that HUSH not only represses intronless transgenes but also identifies these transgenes based on their RNA transcripts, indicating a novel genome-surveillance system that protects against foreign DNA without disrupting host gene expression.*
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Article Synopsis
  • * Researchers created a screening method using heart cells from human embryonic stem cells that can be infected by a modified SARS-CoV-2 virus.
  • * They discovered two new potential drugs, benztropine and DX600, that might help prevent COVID-19 infection in heart cells, which is especially important for patients who can't get vaccinated.
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Silencing of nuclear DNA is an essential feature of innate immune responses to invading pathogens. Early in infection, unintegrated lentiviral cDNA accumulates in the nucleus yet remains poorly expressed. In HIV-1-like lentiviruses, the Vpr accessory protein enhances unintegrated viral DNA expression, suggesting Vpr antagonizes cellular restriction.

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The response to the coronavirus disease 2019 (COVID-19) pandemic has been hampered by lack of an effective severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) antiviral therapy. Here we report the use of remdesivir in a patient with COVID-19 and the prototypic genetic antibody deficiency X-linked agammaglobulinaemia (XLA). Despite evidence of complement activation and a robust T cell response, the patient developed persistent SARS-CoV-2 pneumonitis, without progressing to multi-organ involvement.

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Missense mutations in MORC2 cause neuropathies including spinal muscular atrophy and Charcot-Marie-Tooth disease. We recently identified MORC2 as an effector of epigenetic silencing by the human silencing hub (HUSH). Here we report the biochemical and cellular activities of MORC2 variants, alongside crystal structures of wild-type and neuropathic forms of a human MORC2 fragment comprising the GHKL-type ATPase module and CW-type zinc finger.

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Cancer cells exploit the expression of the programmed death-1 (PD-1) ligand 1 (PD-L1) to subvert T-cell-mediated immunosurveillance. The success of therapies that disrupt PD-L1-mediated tumour tolerance has highlighted the need to understand the molecular regulation of PD-L1 expression. Here we identify the uncharacterized protein CMTM6 as a critical regulator of PD-L1 in a broad range of cancer cells, by using a genome-wide CRISPR-Cas9 screen.

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Mammalian cells deploy autophagy to defend their cytosol against bacterial invaders. Anti-bacterial autophagy relies on the core autophagy machinery, cargo receptors, and "eat-me" signals such as galectin-8 and ubiquitin that label bacteria as autophagy cargo. Anti-bacterial autophagy also requires the kinase TBK1, whose role in autophagy has remained enigmatic.

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The regulated turnover of endoplasmic reticulum (ER)-resident membrane proteins requires their extraction from the membrane lipid bilayer and subsequent proteasome-mediated degradation. Cleavage within the transmembrane domain provides an attractive mechanism to facilitate protein dislocation but has never been shown for endogenous substrates. To determine whether intramembrane proteolysis, specifically cleavage by the intramembrane-cleaving aspartyl protease signal peptide peptidase (SPP), is involved in this pathway, we generated an SPP-specific somatic cell knockout.

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Anaplastic lymphoma receptor tyrosine kinase (ALK) gene rearrangements occur in a subgroup of non-small cell lung carcinomas (NSCLCs). The identification of these rearrangements is important for guiding treatment decisions. The aim of our study was to screen ALK gene fusions in NSCLCs and to compare the results detected by targeted resequencing with results detected by commonly used methods, including fluorescence in situ hybridization (FISH), immunohistochemistry (IHC), and real-time reverse transcription-PCR (RT-PCR).

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Autophagy defends the mammalian cytosol against bacterial invasion. Efficient bacterial engulfment by autophagy requires cargo receptors that bind (a) homolog(s) of the ubiquitin-like protein Atg8 on the phagophore membrane. The existence of multiple ATG8 orthologs in higher eukaryotes suggests that they may perform distinct functions.

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Autophagy protects cellular homeostasis by capturing cytosolic components and invading pathogens for lysosomal degradation. Autophagy receptors target cargo to autophagy by binding ATG8 on autophagosomal membranes. The expansion of the ATG8 family in higher eukaryotes suggests that specific interactions with autophagy receptors facilitate differential cargo handling.

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The endoplasmic reticulum chaperone gp96 is required for the cell surface expression of a narrow range of proteins, including toll-like receptors (TLRs) and integrins. To identify a more comprehensive repertoire of proteins whose cell surface expression is dependent on gp96, we developed plasma membrane profiling (PMP), a technique that combines SILAC labeling with selective cell surface aminooxy-biotinylation. This approach allowed us to compare the relative abundance of plasma membrane (PM) proteins on gp96-deficient versus gp96-reconstituted murine pre-B cells.

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The envelope glycoprotein of vesicular stomatitis virus (VSV-G) enables viral entry into hosts as distant as insects and vertebrates. Because of its ability to support infection of most, if not all, human cell types VSV-G is used in viral vectors for gene therapy. However, neither the receptor nor any specific host factor for VSV-G has been identified.

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Autophagy functions as a cell-autonomous effector mechanism of innate immunity by separating bacteria from cytosolic resources and delivering them for lysosomal destruction. How cytosolic bacteria are targeted for autophagy is incompletely understood. We recently discovered that Salmonella enterica serotype Typhimurium and Streptococcus pyogenes are detected by NDP52 (nuclear dot protein 52 kDa), after these bacteria enter the cytosol of human cells and become decorated with polyubiquitinated proteins.

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Cell-autonomous innate immune responses against bacteria attempting to colonize the cytosol of mammalian cells are incompletely understood. Polyubiquitylated proteins can accumulate on the surface of such bacteria, and bacterial growth is restricted by Tank-binding kinase (TBK1). Here we show that NDP52, not previously known to contribute to innate immunity, recognizes ubiquitin-coated Salmonella enterica in human cells and, by binding the adaptor proteins Nap1 and Sintbad, recruits TBK1.

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Activation of nuclear factor-kappaB (NF-kappaB), a key mediator of inducible transcription in immunity, requires binding of NF-kappaB essential modulator (NEMO) to ubiquitinated substrates. Here, we report that the UBAN (ubiquitin binding in ABIN and NEMO) motif of NEMO selectively binds linear (head-to-tail) ubiquitin chains. Crystal structures of the UBAN motif revealed a parallel coiled-coil dimer that formed a heterotetrameric complex with two linear diubiquitin molecules.

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Vertebrates have evolved acquired immunity, but to detect an infection in its early stages they, nonetheless, rely on Toll-like receptors (TLRs) and other innate immune receptors. We have performed genomewide mutagenesis screens in an immortalized murine cell line to study nuclear factor kappaBeta (NF-kappaB) signaling in the context of innate immunity. To enable metabolic and physical selection for alterations in NF-kappaB signaling, we equipped cells with multiple reporter genes.

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NF-kappaB activation occurs upon degradation of its inhibitor I-kappaB and requires prior phosphorylation of the inhibitor by I-kappaB kinase (IKK). Activity of IKK is governed by its noncatalytic subunit IKKgamma. Signaling defects due to missense mutations in IKKgamma have been correlated to its inability to either become ubiquitylated or bind ubiquitin noncovalently.

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Zidovudine resistance (ZDV-R) is associated with classic genotypic changes at codons 41, 67, 70, 210, 215, and 219 of the human immunodeficiency virus type 1 (HIV-1) reverse transcriptase (RT) gene as well as with the multinucleoside resistance (MNR) complexes (Q151M MNR complex; 6-bp insertion/A62V complex). In addition, enhanced resistance to ZDV in the context of the classic ZDV mutations plus the M184V mutation has been associated with additional mutations at positions 208, 211, 214, and 333. In this study we investigated phenotypic ZDV-R determined by a recombinant virus assay (Antivirogram; Virco) in 223 clinical samples in relation to the above genotypic changes.

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The development of new therapeutic agents against hepatitis B virus (HBV) and the predictable emergence of resistant mutants have highlighted the need to provide new molecular assays for optimal therapeutic management. Similarly, other variants and genotypes of HBV have now been identified that appear to have distinct clinical and pathological importance. This paper outlines the current clinical importance of HBV on a global scale, reviews the current generation of molecular genotyping assays and discusses the prospects for new assays in the near future.

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Two large, independent human immunodeficiency virus type 1 resistance databases containing >7700 reverse-transcriptase (RT) sequences were used to analyze the epidemiology of amino acid substitutions at codons 44 and 118, which confer moderate lamivudine resistance in the presence of zidovudine resistance. As expected, E44A/D and V118I mutations were strongly associated with M41L, D67N, L210W, and T215Y but also with other mutations, including K43E/N/Q, T69D, V75M, H208Y, R211K, and K219R. Both E44D and V118I were more frequently associated with stavudine and didanosine than with zidovudine and lamivudine treatment.

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