Your search keyword '"William W. Hall"' showing total 10 results

1. Morphogenesis of Bullet-Shaped Rabies Virus Particles Regulated by TSG101

Author

Yukari Itakura, Koshiro Tabata, Takeshi Saito, Kittiya Intaruck, Nijiho Kawaguchi, Mai Kishimoto, Shiho Torii, Shintaro Kobayashi, Naoto Ito, Michiko Harada, Satoshi Inoue, Ken Maeda, Ayato Takada, William W. Hall, Yasuko Orba, Hirofumi Sawa, and Michihito Sasaki

Subjects

TSG101, Rabies virus, Virology, Insect Science, Immunology, L-domain, Rhabdovirus, Matrix protein, Microbiology, ESCRT

Abstract

Viral protein assembly and virion budding are tightly regulated to enable the proper formation of progeny virions. At this late stage in the virus life cycle, some enveloped viruses take advantage of the host endosomal sorting complex required for transport (ESCRT) machinery, which contributes to the physiological functions of membrane modulation and abscission. Bullet-shaped viral particles are unique morphological characteristics of rhabdoviruses; however, the involvement of host factors in rhabdovirus infection and, specifically, the molecular mechanisms underlying virion formation are not fully understood. In the present study, we used a small interfering RNA (siRNA) screening approach and found that the ESCRT-I component TSG101 contributes to the propagation of rabies virus (RABV). We demonstrated that the matrix protein (M) of RABV interacts with TSG101 via the late domain containing the PY and YL motifs, which are conserved in various viral proteins. Loss of the YL motif in the RABV M or the downregulation of host TSG101 expression resulted in the intracellular aggregation of viral proteins and abnormal virus particle formation, indicating a defect in the RABV assembly and budding processes. These results indicate that the interaction of the RABV M and TSG101 is pivotal for not only the efficient budding of progeny RABV from infected cells but also for the bullet-shaped virion morphology. IMPORTANCE Enveloped viruses bud from cells with the host lipid bilayer. Generally, the membrane modulation and abscission are mediated by host ESCRT complexes. Some enveloped viruses utilize their late (L-) domain to interact with ESCRTs, which promotes viral budding. Rhabdoviruses form characteristic bullet-shaped enveloped virions, but the underlying molecular mechanisms involved remain elusive. Here, we showed that TSG101, one of the ESCRT components, supports rabies virus (RABV) budding and proliferation. TSG101 interacted with RABV matrix protein via the L-domain, and the absence of this interaction resulted in intracellular virion accumulation and distortion of the morphology of progeny virions. Our study reveals that virion formation of RABV is highly regulated by TSG101 and the virus matrix protein.

Published

2023

2. Isolation and characterization of distinct Rotavirus A in bat and rodent hosts

Author

Mai Kishimoto, Masahiro Kajihara, Koshiro Tabata, Yukari Itakura, Shinsuke Toba, Seiya Ozono, Yuko Sato, Tadaki Suzuki, Naoto Ito, Katendi Changula, Yongjin Qiu, Akina Mori-Kajihara, Yoshiki Eto, Hayato Harima, Daniel Mwizabi, Bernard M. Hang’ombe, William W. Hall, Ayato Takada, Yasuko Orba, Hirofumi Sawa, and Michihito Sasaki

Subjects

Glycan specificity, Virology, Insect Science, Immunology, Rotavirus A, Bats, Human intestinal epithelium model, Microbiology, Rodents, Genetic diversity

Abstract

Rotavirus A (RVA) causes diarrheal disease in humans and various animals. Recent studies have identified bat and rodent RVAs with evidence of zoonotic transmission and genome reassortment. However, the virological properties of bat and rodent RVAs with currently identified genotypes still need to be better clarified. Here, we performed virus isolation-based screening for RVA in animal specimens and isolated RVAs (representative strains: 16-06 and MpR12) from Egyptian fruit bat and Natal multimammate mouse collected in Zambia. Whole-genome sequencing and phylogenetic analysis revealed that the genotypes of bat RVA 16-06 were identical to that of RVA BATp39 strain from the Kenyan fruit bat, which has not yet been characterized. Moreover, all segments of rodent RVA MpR12 were highly divergent and assigned to novel genotypes, but RVA MpR12 was phylogenetically closer to bat RVAs than to other rodent RVAs, indicating a unique evolutionary history. We further investigated the virological properties of the isolated RVAs. In brief, we found that 16-06 entered cells by binding to sialic acids on the cell surface, while MpR12 entered in a sialic acid-independent manner. Experimental inoculation of suckling mice with 16-06 and MpR12 revealed that these RVAs are causative agents of diarrhea. Moreover, 16-06 and MpR12 demonstrated an ability to infect and replicate in a 3D-reconstructed primary human intestinal epithelium with comparable efficiency to the human RVA. Taken together, our results detail the unique genetic and virological features of bat and rodent RVAs and demonstrate the need for further investigation of their zoonotic potential. IMPORTANCE Recent advances in nucleotide sequence detection methods have enabled the detection of RVA genomes from various animals. These studies have discovered multiple divergent RVAs and have resulted in proposals for the genetic classification of novel genotypes. However, most of these RVAs have been identified via dsRNA viral genomes and not from infectious viruses, and their virological properties, such as cell/host tropisms, transmissibility, and pathogenicity, are unclear and remain to be clarified. Here, we successfully isolated RVAs with novel genome constellations from three bats and one rodent in Zambia. In addition to whole-genome sequencing, the isolated RVAs were characterized by glycan-binding affinity, pathogenicity in mice, and infectivity to the human gut using a 3D culture of primary intestinal epithelium. Our study reveals the first virological properties of bat and rodent RVAs with high genetic diversity and unique evolutional history and provides basic knowledge to begin estimating the potential of zoonotic transmission.

Published

2023

3. The ESCRT-0 Protein HRS Interacts with the Human T Cell Leukemia Virus Type 2 Antisense Protein APH-2 and Suppresses Viral Replication

Author

Fanny Martini, William W. Hall, Coline Arone, Noreen Sheehy, and Amy Hasset

Subjects

Endosome, Viral protein, Protein subunit, viruses, Immunology, Retroviridae Proteins, Biology, medicine.disease_cause, Virus Replication, Microbiology, ESCRT, Virus, 03 medical and health sciences, Virology, Protein targeting, medicine, Humans, Cycloheximide, 030304 developmental biology, 0303 health sciences, Human T-lymphotropic virus 1, Endosomal Sorting Complexes Required for Transport, 030302 biochemistry & molecular biology, Human T-lymphotropic virus 2, Gene Products, tax, Phosphoproteins, Long terminal repeat, Cell biology, Virus-Cell Interactions, Basic-Leucine Zipper Transcription Factors, HEK293 Cells, Viral replication, Gene Expression Regulation, Insect Science, Macrolides, Lysosomes, HeLa Cells, Signal Transduction

Abstract

The divergent clinical outcomes of human T cell leukemia virus type 1 (HTLV-1) and HTLV-2 infections have been attributed to functional differences in their antisense proteins. In contrast to HTLV-1 bZIP factor (HBZ), the role of the antisense protein of HTLV-2 (APH-2) in HTLV-2 infection is poorly understood. In previous studies, we identified the endosomal sorting complex required for transport 0 (ESCRT-0) subunit HRS as a novel interaction partner of APH-2 but not HBZ. HRS is a master regulator of endosomal protein sorting for lysosomal degradation and is hijacked by many viruses to promote replication. However, no studies to date have shown a link between HTLVs and HRS. In this study, we sought to characterize the interaction between HRS and APH-2 and to investigate the impact of HRS on the life cycle of HTLV-2. We confirmed a direct specific interaction between APH-2 and HRS and showed that the CC2 domain of HRS and the N-terminal domain of APH-2 mediate their interaction. We demonstrated that HRS recruits APH-2 to early endosomes, possibly furnishing an entry route into the endosomal/lysosomal pathway. We demonstrated that inhibition of this pathway using either bafilomycin or HRS overexpression substantially extends the half-life of APH-2 and stabilizes Tax2B expression levels. We found that HRS enhances Tax2B-mediated long terminal repeat (LTR) activation, while depletion of HRS enhances HTLV-2 production and release, indicating that HRS may have a negative impact on HTLV-2 replication. Overall, our study provides important new insights into the role of the ESCRT-0 HRS protein, and by extension the ESCRT machinery and the endosomal/lysosomal pathway, in HTLV-2 infection. IMPORTANCE While APH-2 is the only viral protein consistently expressed in infected carriers, its role in HTLV-2 infection is poorly understood. In this study, we characterized the interaction between the ESCRT-0 component HRS and APH-2 and explored the role of HRS in HTLV-2 replication. HRS is a master regulator of protein sorting for lysosomal degradation, a feature that is manipulated by several viruses to promote replication. Unexpectedly, we found that HRS targets APH-2 and possibly Tax2B for lysosomal degradation and has an overall negative impact on HTLV-2 replication and release. The negative impact of interactions between HTLV-2 regulatory proteins and HRS, and by extension the ESCRT machinery, may represent an important strategy used by HTLV-2 to limit virus production and to promote persistence, features that may contribute to the limited pathogenic potential of this infection.

Published

2019

4. Erratum for Narulla et al., 'Positive and Negative Regulation of Type I Interferons by the Human T Cell Leukemia Virus Antisense Protein HBZ'

Author

Manraj Singh Narulla, William W. Hall, Ahlam Alasiri, Lucie Charmier, Noreen Sheehy, Stephen Noonan, and David Conroy

Subjects

Human T cell leukemia virus, Text mining, business.industry, Virology, Insect Science, Immunology, Biology, business, Microbiology

Published

2018

5. Positive and Negative Regulation of Type I Interferons by the Human T Cell Leukemia Virus Antisense Protein HBZ

Author

Lucie Charmier, William W. Hall, Manraj Singh Narulla, Stephen Noonan, David Conroy, Noreen Sheehy, and Ahlam Alsairi

Subjects

0301 basic medicine, Viral protein, viruses, Interferon Regulatory Factor-7, Immunology, T-cell leukemia, Retroviridae Proteins, Biology, Protein Serine-Threonine Kinases, medicine.disease_cause, Response Elements, Microbiology, Antiviral Agents, Cell Line, 03 medical and health sciences, TANK-binding kinase 1, Virology, medicine, Humans, Promoter Regions, Genetic, Human T-lymphotropic virus 1, Innate immune system, Interferon-alpha, Interferon-beta, Immunity, Innate, Virus-Cell Interactions, I-kappa B Kinase, 030104 developmental biology, Basic-Leucine Zipper Transcription Factors, Viral Regulatory Proteins, Insect Science, Host-Pathogen Interactions, Cancer research, IRF7, Interferon Regulatory Factor-3, Erratum, IRF3, Interferon regulatory factors, Signal Transduction

Abstract

The pathogenesis of human T cell leukemia virus type 1 (HTLV-1) is strongly linked to the viral regulatory proteins Tax1 and HBZ, whose opposing functions contribute to the clinical outcome of infection. Type I interferons alpha and beta (IFN-α and IFN-β) are key cytokines involved in innate immunity, and IFN-α, in combination with other antivirals, is extensively used in the treatment of HTLV-1 infection. The relationship between HTLV-1 and IFN signaling is unclear, and to date the effect of HBZ on this pathway has not been examined. Here we report that HBZ significantly enhances interferon regulatory factor 7 (IRF7)-induced IFN-α- and IFN-stimulated response element (ISRE) promoter activities and IFN-α production and can counteract the inhibitory effect of Tax1. In contrast to this, we show that HBZ and Tax1 cooperate to inhibit the induction of IFN-β and ISRE promoters by IRF3 and IFN-β production. In addition, we reveal that HBZ enhances ISRE activation by IFN-α. We further show that HBZ enhances IRF7 and suppresses IRF3 activation by TBK1 and IKKε. We demonstrate that HBZ has no effect on virus-induced nuclear accumulation of IRF3, suggesting that it may inhibit IRF3 activity at a transcriptional level. We show that HBZ physically interacts with IRF7 and IKKε but not with IRF3 or TBK1. Overall, our findings suggest that both HBZ and Tax1 are negative regulators of immediate early IFN-β innate immune responses, while HBZ but not Tax1 positively regulates the induction of IFN-α and downstream IFN-α signaling. IMPORTANCE Type I interferons are powerful antiviral cytokines and are used extensively in the treatment of HTLV-1-induced adult T cell leukemia (ATL). To date, the relationship between HTLV-1 and the IFN pathway is poorly understood, and studies so far have focused on Tax1. Our study is unique in that it examined the effect of HBZ, alone or in combination with Tax1, on type I IFN signaling. This is important because HBZ is frequently the only viral protein expressed in infected cells, particularly at later stages of infection. A better understanding of the how HBZ regulates IFN signaling may lead to the development of therapeutics that can modify such responses and improve the clinical outcome for infected individuals.

Published

2017

6. The Four and a Half LIM Family Members Are Novel Interactants of the Human T-Cell Leukemia Virus Type 1 Tax Oncoprotein

Author

Áine McCabe, Kenichi Hashimoto, William W. Hall, and Noreen Sheehy

Subjects

Chromatin Immunoprecipitation, Leukemia, T-Cell, Immunoprecipitation, Blotting, Western, Immunology, Fluorescent Antibody Technique, Microbiology, Two-Hybrid System Techniques, Virology, Chlorocebus aethiops, Animals, Humans, Cytoskeleton, Glutathione Transferase, LIM domain, Genetics, Regulation of gene expression, Human T-lymphotropic virus 1, COS cells, biology, Intracellular Signaling Peptides and Proteins, FHL3, LIM Domain Proteins, biology.organism_classification, FHL1, Neoplasm Proteins, Virus-Cell Interactions, Cell biology, Insect Science, COS Cells, Chromatin immunoprecipitation, HeLa Cells, Plasmids

Abstract

Human T-cell leukemia virus type 1 (HTLV-1) is the etiologic agent of adult T-cell leukemia (ATL). The viral regulatory protein Tax1 plays a pivotal role in T-cell transformation and ATL development. Previous studies in our laboratory, using the yeast 2-hybrid approach to screen a T-cell library for Tax1-interacting partners, identified the cellular Four and a Half Lim domain protein 3 (FHL3) as a possible Tax1-interacting candidate. FHL3 is a member of the FHL family of proteins, which function as transcriptional coactivators and cytoskeleton regulators and have a role in cancer progression and development. The aim of this study was to investigate the physical and functional interaction between Tax1 and members of the FHL family of proteins. We show that Tax1 and FHL3 interact both in vitro and in vivo . Furthermore, both FHL1 and -2 also interact with Tax1. We have demonstrated that FHL3 enhances Tax1-mediated activation of the viral long terminal repeat (LTR) without affecting basal activity and that FHL1 to -3 regulate NF-κB activation by Tax1 in a cell-specific manner. In addition, we have found that the interaction between Tax1 and FHL1 to -3 affects the localization of these proteins, leading to their redistribution in cells. Tax1 also affected FHL3 cytoskeleton function by increasing FHL3-mediated cell spreading. Overall, our results suggest that the interaction between Tax1 and the FHL family alters both the transactivating activity and the subcellular localization of Tax1 and provide new insights into molecular mechanisms that underlie the oncogenic nature of this HTLV-1 protein.

Published

2013

7. Tax 1-Independent Induction of Vascular Endothelial Growth Factor in Adult T-Cell Leukemia Caused by Human T-Cell Leukemia Virus Type 1

Author

William W. Hall, Virginie Gautier, Noreen Sheehy, Jonathan Dean, and Karen M. Watters

Subjects

Vascular Endothelial Growth Factor A, Cell Adhesion Molecules, Neuronal, Immunology, T-cell leukemia, Down-Regulation, Electrophoretic Mobility Shift Assay, Biology, Microbiology, chemistry.chemical_compound, Downregulation and upregulation, Virology, Contactin 2, medicine, Humans, Leukemia-Lymphoma, Adult T-Cell, Electrophoretic mobility shift assay, Promoter Regions, Genetic, Regulation of gene expression, Human T-lymphotropic virus 1, Cell adhesion molecule, HEK 293 cells, DNA, medicine.disease, Up-Regulation, Virus-Cell Interactions, Vascular endothelial growth factor, Leukemia, chemistry, Insect Science, Cancer research, Protein Binding

Abstract

Adult T-cell leukemia (ATL) is caused by human T-cell leukemia virus type 1 (HTLV-1). Elevated expression of vascular endothelial growth factor (VEGF) in ATL patients is associated with leukemic cell invasion and infiltration in different organs. The regulatory protein Tax 1 encoded by HTLV-1 plays a pivotal role in T-cell transformation by deregulating the function and expression of several cellular factors. In the present study, we examined the effect of Tax 1 on VEGF expression at transcriptional and posttranscriptional levels in order to elucidate the regulatory mechanisms involved. Using functional assays, we demonstrate that Tax 1 downregulates the VEGF promoter through a cluster of Sp1 sites located close to the transcriptional start site. Using gel mobility shift assays, we show that Tax 1 reduced Sp1:DNA complex formation. We demonstrate that the level of secreted VEGF was significantly lower in Tax 1-transfected 293T cells compared to nontransfected cells, which is consistent with the observed downregulatory effect of Tax 1 at the transcription level. We showed that VEGF was secreted by HTLV-1-transformed and nontransformed cells, irrespective of Tax 1 expression. Overall our data indicate that, contrary to a previous report, Tax 1 downregulates VEGF expression and suggest there are Tax 1-independent mechanisms of VEGF activation in ATL.

Published

2010

8. Human T-Cell Leukemia Virus Type 2 (HTLV-2) Tax Protein Transforms a Rat Fibroblast Cell Line but Less Efficiently than HTLV-1 Tax

Author

Masahiro Fujii, William W. Hall, Akira Hirata, Kousuke Iwai, Keiichi Endo, Masayasu Oie, Masaya Higuchi, Fumitake Gejyo, Mamoru Sakurai, and Masaya Fukushi

Subjects

viruses, Molecular Sequence Data, Immunology, Viral transformation, Biology, Transfection, Microbiology, Transformation and Oncogenesis, Cell Line, Transcription (biology), Virology, medicine, Animals, Humans, Amino Acid Sequence, Transcription factor, Gene, Human T-lymphotropic virus 2, Gene Products, tax, Fibroblasts, Cell Transformation, Viral, medicine.disease, Molecular biology, Rats, Leukemia, Cell culture, Insect Science

Abstract

Human T-cell leukemia virus type 1 (HTLV-1) and HTLV-2 are retroviruses with similar biological properties. Whereas HTLV-1 is the causative agent of an aggressive T-cell leukemia, HTLV-2 has been associated with only a few cases of lymphoproliferative disorders. Tax1 and Tax2 are the transcriptional activators of HTLV-1 and HTLV-2, respectively. Here we show that Tax2 transformed a Rat-1 fibroblast cell line to form colonies in soft agar, but the size and number of the colonies were lower than those of Tax1. Use of a chimeric Tax protein showed that the C-terminal amino acids 300 to 353 were responsible for the high transforming activity of Tax1. Activation of cellular genes by Tax1 through transcription factor NF-κB is reportedly essential for the transformation of Rat-1 cells. Tax2 also activated the transcription through NF-κB in Rat-1 cells, and such activity was equivalent to that induced by Tax1. Thus, the high transforming activity of Tax1 is mediated by mechanisms other than NF-κB activation. Our results showed that Tax2 has a lower transforming activity than Tax1 and suggest that the high transforming activity of Tax1 is involved in the leukemogenic property of HTLV-1.

Published

2002

9. Multiple isolates and characteristics of human T-cell leukemia virus type II

Author

C Liu, R C Gallo, William W. Hall, Hidehiro Takahashi, K Nagashima, Mark H. Kaplan, O Scheewind, and S Ijichi

Subjects

Adult, Male, viruses, Molecular Sequence Data, Restriction Mapping, Retroviridae Proteins, Oncogenic, Immunology, HIV Infections, Biology, Polymerase Chain Reaction, Microbiology, Virus, Cell Line, law.invention, Restriction map, Proviruses, immune system diseases, law, hemic and lymphatic diseases, Virology, medicine, Humans, Amino Acid Sequence, Polymerase chain reaction, Genetics, Deltaretrovirus Infections, Base Sequence, Human T-lymphotropic virus 2, env Gene Products, Human Immunodeficiency Virus, Gene Products, env, Middle Aged, Provirus, medicine.disease, Blotting, Southern, Microscopy, Electron, Restriction enzyme, Leukemia, Insect Science, DNA, Viral, Female, Viral disease, Research Article

Abstract

Human T-cell leukemia (or lymphotropic) virus type II (HTLV-II) was isolated from eight HTLV-seropositive patients, six of whom were also infected with human immunodeficiency virus, by cocultivation of peripheral blood mononuclear cells (PBMCs) with BJAB, a continuous B-cell line. Restriction endonuclease mapping of the proviruses demonstrated consistent differences among isolates, and two distinct physical map patterns were observed. The results suggest the existence of two closely related molecular subtypes of HTLV-II, which are tentatively designated HTLV-IIa and HTLV-IIb. This finding was supported by preliminary nucleotide sequence analysis of the env gene region encoding the transmembrane glycoprotein gp21, which showed consistent differences between the two proposed virus subtypes. Exploitation of differences in restriction endonuclease sites allowed polymerase chain reaction amplification to detect and differentiate the two subtypes in fresh PBMCs of HTLV-seropositive intravenous drug abusers (IVDAs). The results of these studies confirm that HTLV-II infection is the prominent HTLV infection in seropositive IVDAs and also show that infection with both subtypes occurs. The finding of genetic heterogeneity in the HTLV-II group of viruses may have important implications for studies on its role in human disease and will be useful in characterizing the viruses present in newly discovered endemic foci in New World indigenous populations.

Published

1992

10. Continuous epitopes of the human immunodeficiency virus type 1 (HIV-1) transmembrane glycoprotein and reactivity of human sera to synthetic peptides representing various HIV-1 isolates

Author

P Horal, William W. Hall, Lars Rymo, S Jeansson, Bo Svennerholm, and Anders Vahlne

Subjects

HIV Antigens, Molecular Sequence Data, Immunology, Human immunodeficiency virus (HIV), Enzyme-Linked Immunosorbent Assay, HIV Antibodies, medicine.disease_cause, Gp41, Microbiology, Epitope, Epitopes, Antibody Specificity, Virology, HIV Seropositivity, medicine, Transmembrane glycoprotein, Humans, Reactivity (chemistry), Amino Acid Sequence, Amino Acids, chemistry.chemical_classification, biology, Immunodominant Epitopes, virus diseases, HIV Envelope Protein gp41, Transmembrane protein, Amino acid, chemistry, Insect Science, HIV-1, biology.protein, Antibody, Peptides, Research Article

Abstract

Immunoreactive regions of human immunodeficiency virus type 1 (HIV-1) gp41 were mapped by reacting HIV-1 antibody-positive human sera with overlapping synthetic peptides which covered the transmembrane protein. Three immunoreactive domains were identified, and five different and partially overlapping epitopes recognized by HIV-1-positive human sera were found within one immunodominant region. The effect on antibody recognition after single amino acid substitutions within one defined epitope was also studied. The reactivity of various HIV-1-positive sera to synthetic peptides with amino acid substitutions representing known isolates suggests an important substitution in the major epitope of African HIV-1 strains.

Published

1991