Global ETD Search

381	Glycoprotein M and ESCRT in herpes simplex virus type 1 assembly Ren, Yudan January 2012 (has links) Herpes simplex virus type 1 (HSV-1) has a large linear double-stranded DNA genome in an icosahedral capsid shell, a cell-derived lipid envelope and a proteinaceous tegument layer. There are over fifty viral proteins and many host proteins identified in HSV-1 virions. The final formation of mature virus particles requires the membrane wrapping of tegumented capsids in the cytoplasm, a process termed secondary envelopment. This process involves the coordination of numerous viral and cellular proteins and results in double-membrane structures with enveloped virions contained within cellular vesicles. Mature viruses are then released through the fusion of these virion-containing vesicles and plasma membranes. This thesis describes investigation into the functions of viral glycoprotein M (gM) and the cellular Endosomal Sorting Complexes Required for Transport (ESCRT) in secondary envelopment. Firstly, it has been reported that gH/L can be efficiently internalised and targeted to the TGN by the co-expression of gM in transfection assays. In order to examine the role of gM in guiding the localisation of viral proteins in infected cells, a HSV-1 gM deletion virus (∆gM), and its revertant virus were constructed. The major phenotype demonstrated was that the absence of gM caused the internalisation of cell surface gH/L to be inhibited and higher levels of gH/L to be observed on the cell surface. Further, lower levels of gH/L were detected in purified ∆gM virions, which was in agreement with the delayed entry kinetics, smaller plaque sizes and greater replication deficits at low multiplicity of infection observed in ∆gM infected cells. Over all the results presented in this thesis demonstrate that in infected cells the efficient incorporation of gH/L into virions relies on the function of gM in HSV-1. Secondly, during HSV-1 secondary envelopment the budding and scission of the viral envelope from the host membrane share topological similarities with the formation of intraluminal vesicle in multivesicular bodies, retrovirus budding, and abscission at the end of cytokinesis, processes that require the cellular ESCRT machinery. There are four multiprotein ESCRT complexes and many associated proteins involved in their regulation. It has been previously shown that the ESCRT-III complex and a functional ATPase VPS4 are required for HSV-1 secondary envelopment, but different from the strategy utilised by HIV-1, the recruitment of ESCRT during HSV-1 infection is independent of TSG101 and/or ALIX. Data presented in this thesis demonstrate that CHMP4A/B/C proteins of the ESCRT-III complex are specifically crucial for HSV-1 secondary envelopment. Simultaneous depletion of CHMP4A/B/C proteins significantly inhibited HSV-1 replication. Ultrastructure analysis revealed that there were virtually no extracellular virions in CHMP4A/B/C depleted samples while more free capsids were observed in the cytoplasm, although the nuclear capsids and primary envelopment events appeared to be normal. In order to identify interactions between HSV-1 and ESCRT proteins, 22 HSV-1 tegument proteins were cloned and tested against a panel of ESCRT and ESCRT-associated proteins in yeast two-hydrid assays. Analysis of positive hits from yeast two-hybrid interaction screens using GST pull-down, co-immunoprecipitation and protein co-localisation assays have validated interactions of pUL47 with CC2D1A/1B, CIN85, CHMP6 and ALIX, pUL46 and pUL49 with CC2D1A/1B and CIN85, and pUL16 with CC2D1A/1B. Furthermore, the newly identified ESCRT associated proteins CC2D1A and CC2D1B have been detected in purified virions. The role of the identified ESCRT proteins in HSV-1 replication has been investigated using siRNA depletion. Unfortunately siRNA depletions of the various ESCRT candidates individually or in combinations did not show any significant effect on HSV-1 replication. Overall these data suggest that unlike HIV and other retroviruses, HSV-1 has evolved multiple parallel pathways to hijack the ESCRT machinery to facilitate its replication, particularly, through the interactions that lead directly to the recruitment of CHMP4A/B/C proteins. Disruption of some of these pathways did not prevent HSV-1 replication in tissue culture, suggesting any one potential pathway is sufficient for ESCRT recruitment to sites of HSV-1 assembly. 616.07
382	Age related seroepidemiological survey of measles, mumps, rubella, varicella zoster, herpes simplex type 1 and 2 viruses Wong, Kiing Aik January 2015 (has links) Age stratified seroepidemiological studies play a crucial role in the design and assessment of vaccination strategies. An existing multiplex bead immunoassay for measles, mumps, rubella and varicella zoster virus antibodies together with a newly developed multiplex bead immunoassay for herpes simplex virus type 1 and type 2 antibodies were used to investigate the age-related seroepidemiology of these viruses in England during 2012.To develop the HSV-1 and HSV-2 antibody assay, attempts were made to produce full length of HSV-1 and HSV-2 glycoprotein G using a baculovirus vector expression system. While HSV-1 gG protein was produced, the proteins were extensively aggregated. Native glycoprotein G molecules undergo partial removal of HSV-1 signal sequence and HSV-1 short membrane anchor sequence during post translational modification. It is possible that such post translational modification is not performed when protein is processed in insect cell culture. Attempts to produce an HSV-2 glycoprotein G were not successful. It is possible that the high GC-content of HSV-2 glycoprotein G led to poor fidelity of copying the PCR amplification sequence. Commercially available truncated HSV-1 gG and HSV-2 gG were therefore used to develop a duplex microbead immunoassay for the simultaneous detection of specific HSV antibodies in human sera. The resultant assays performed with low sensitivity and specificity (HSV-1 of 89% and 66%, respectively and for HSV-2 of 79% and 85%, respectively) compared to the reference HerpeSelect ELISA.The MMRV multiplex bead immunoassay proved rapid, and required minimal sample volume to semi-quantify MMRV specific antibodies. The seroepidemiology of MMR results was compared with previous seroepidemiological studies performed in 1996 in England. The comparison showed an increase in the proportion of individuals who were positive for mumps and measles antibodies in the 2012 survey. The proportion of individuals positive for rubella was essentially unchanged. The increase in the proportion of individuals positive for mumps and measles antibodies in 2012 show the effectiveness of the change in MMR vaccination policy for England from 1996 onward. For VZV, the proportion of individuals who were positive for varicella antibodies between the 1996 and 2012 serological surveys were essentially unchanged. The comparison showed that most young children are susceptible to VZV. At this level of immunity, it can be expected that varicella will continue to produce epidemics of infection in the population, unless varicella vaccination is implemented as a part of routine childhood vaccination. 614.4
383	Detection and characterization of Human Herpes Virus -8 in an HIV-infected cohort in Cameroon Alayande, Doyinmola Paul 18 May 2017 (has links) MSc (Microbiology) / Department of Microbiology / Background: Human Herpes Virus-8 (HHV-8) and Human Immunodeficiency Virus (HIV) are endemic in sub-Saharan Africa. However, the prevalence of HHV-8 in HIV-infected individuals in sub-Saharan Africa has not been fully described and characterized. Objectives: The objective of this study was to determine the seroprevalence and genetic subtypes of HHV-8 in an HIV-infected population in Cameroon. Methodology: KSHV/HHV-8 Enzyme-linked Immunosorbent Assay (ELISA) kit (Advanced Biotechnologies Inc., USA) was used to detect IgG antibodies in the plasma of 406 HIV-infected outpatients of the Mutengene Baptist Health Centre, Cameroon. To detect the viral presence, a 233 bp fragment of the ORF 26 gene of HHV-8 was targeted by polymerase chain reaction (PCR) in total DNA purified from patients’ whole blood. A 453 bp of the K1 gene was amplified by nested PCR, sequenced and phylogenetically analysed to infer subtypes. The online tool, Synonymous Non-synonymous Analysis Program (SNAP), was used to determine the rate of synonymous and nonsynonymous mutations in the K1 gene. The genetic variability among the derived K1 nucleotide sequences was determined by mean genetic distance analysis. Results: Of the 406 participants, an HHV-8 seroprevalence of 79.1% was obtained. There was a statistically significant association of seroprevalence with age (p= 0.00), CD4+ cell count (p= 0.02), marital status (p= 0.02) and ownership of a transistor radio set (p= 0.00). Seventy samples (23.3%) were successfully amplified for ORF 26 gene confirming the presence of replicating virus. K1 sequences were obtained for 14 of the 20 (70%) K1 amplified DNAs. The mean genetic diversity of K1 sequences ranges from 0.0%-22.3%. Phylogenetic analysis revealed two infecting viral subtypes in the study cohort: subtype A5 (57.1%), and subtype B (35.7%). Greater positive selection and genetic diversity were observed in A5 subtype compared to B subtype of K1. Interestingly, one sample (BM 547) clustered with an unclassifiable sequence from South Africa. Conclusions and recommendation: This study revealed the endemicity of HHV-8 infection in the studied population, with subtypes A5 and B as the most important epidemiological genetic variants. In addition, targeting the ORF 26 region by PCR could be an approach to detect replicating virus in individuals. Further studies should investigate the association between HHV-8 infection and KS development in the study area which is endemic for HIV. This study contributes data to the HIV/HHV-8 co-infection landscape in the study area and in Africa at large. Human Herpes Virus-8 Human Immunodeficiency Virus Seroprevalence Subtype South-West Littoral Cameroon 362.196979297611 HIV (Viruses) -- Cameroon Herpesvirus diseases -- Cameroon Herpesviruses -- Cameroon Human herpesvirus-8 -- Cameroon
384	Investigating the Role of PIR1 and CD200R1 in the Innate Immune Response to Viral Pathogens MacKay, Christopher R. 30 May 2017 (has links) After initially being infected with a virus, before an adaptive immune response can be mounted, the innate immune system of a cell recognizes and responds to certain patterns present in pathogenic molecules. I studied the role of two genes—PIR1 and CD200R1—on the innate immune responses in two different mouse models of viral infection, infection with the picornavirus EMCV (encephalomyocarditis virus) and infection with HSV-1 (herpes simplex virus) in a mouse model of herpes simplex encephalitis, respectively. PIR1 is a putative RNA phosphatase that has been shown to play an important role in antiviral small RNA processing in C. elegans. It has also been shown to interact with the RIG-I-like receptor LGP2 in preliminary mammalian experiments. I sought to characterize the effect PIR1 has on the innate immune response to the virus EMCV in mice. By developing a PIR1-null mouse, I have found that the role of PIR1 in the progression of EMCV in mice is limited. However, in vitro studies show that PIR1 might play an important role in regulating foreign RNA recognition during the earliest time points post-infection. CD200R1 is an anti-inflammatory signaling molecule that is expressed on myeloidderived cells, and whose ligand is highly expressed within the central nervous system. I investigated the role of this receptor in an intracranial model of herpes simplex encephalitis. CD200R1KO mice show improved survival following direct intracranial infection with HSV. I found this increased survival can be attributed to decreased levels of viral replication in CD200R1KO compared to wild-type mice. Further investigation has shown that CD200R1 affects the signaling and upregulation of the pattern-recognition receptor TLR-2 (toll-like receptor 2), and thus CD200R1 may impact HSV-1 replication by affecting TLR2 signaling. innate immunity innate immune response PIR1 CD200R1 EMCV encephalomyocarditis virus HSV-1 herpes simplex virus Immunity Immunology of Infectious Disease Pathogenic Microbiology Virology
385	Dissecting the Role of Cytosolic Nucleic Acid Sensors in the Type I Interferon Response to Herpes Simplex Virus-1 and other Ligands: A Dissertation Thompson, Mikayla R. 15 April 2014 (has links) The innate immune system provides the first line of defense against infection. Pathogens are detected though a variety of Pattern Recognition Receptors (PRRs), which activate downstream signaling cascades. Effector molecules such as cytokines and chemokines are released upon activation and aid in cell recruitment, control of pathogen replication, and coordination of the adaptive immune response. Nucleic acids that are released into the cytosol during viral and bacterial infection are recognized through a special class of PRRs, coined cytosolic nucleic acid sensors. Upon recognition, these receptors induce the production of type I interferons and other cytokines to aid in pathogen clearance. Although many cytosolic nucleic acid sensors have been discovered, it is unclear how they work in concert to mediate these responses. The Interferon Gamma Inducible protein (IFI)16 and its proposed mouse orthologue IFI204 are cytosolic DNA sensors that have been linked to the detection of cytosolic DNA during infection with Herpes Simplex Virus (HSV-1). IFI16 binds dsDNA that has been released into the cytosol during viral infection and engages the adaptor molecule Stimulator of Interferon Genes (STING) leading to TANK binding kinase-1 (TBK1) dependent phosphorylation of interferon regulatory factor 3 (IRF3) and transcription of type I interferons and interferon stimulated genes. In addition to its role as a sensor, in chapter two of this thesis we describe a broader role for IFI16 in the regulation of the type I IFN response to RNA and DNA viruses in anti-viral immunity. In an effort to better understand the role of IFI16 in coordinating type I IFN gene regulation, we generated cell lines with stable knockdown of IFI16 and examined responses to DNA and RNA viruses as well as other inducers of IFN such as cyclic-dinucleotides. As expected, stable knockdown of IFI16 led to a severely attenuated type I IFN response to cytosolic DNA ligands and DNA viruses. In contrast, expression of the NF-κB regulated cytokines such as IL-6 and IL-1β were unaffected in IFI16 knockdown cells, suggesting that the role of IFI16 in sensing these triggers was unique to the type I IFN pathway. Surprisingly, we also found that knockdown of IFI16 led to a severe attenuation of expression of IFN-α and IFN stimulated genes such as RIG-I in response to cyclic GMP-AMP (cGAMP), a second messenger produced in response to cGAS, as well as RNA ligands and viruses. Analysis of IFI16 knockdown cells revealed compromised occupancy of RNA polymerase II on the IFN-α promoter in IFI16 knockdown cells suggesting that transcription of ISGs is dependent on IFI16. Since IFI16 knockdown compromised not only DNA virus driven pathways, we propose additional regulatory roles outside of DNA sensing. Collectively, these results indicate that IFI16 plays a role in the regulation of type I IFN gene transcription and production in response to both RNA and DNA viruses. The role of IFI16/IFI204 has been studied extensively in vitro, however the role of the receptors in vivo has yet to be determined. In chapter three of this thesis, we developed a mouse deficient in IFI204 to explore the role of IFI204 in in vivo immune responses to viruses. We investigated the ability of IFI204 deficient cells to induce type I interferons and other cytokines in response to a panel of DNA and RNA ligands in vitro. IFI204 deficient BMDMs displayed a partial defect in type I interferon induction in response to both DNA and RNA ligands and viruses as compared to WT mice. We also observed that this phenotype is time dependent, since there was no change in type I interferon induction after 12 hours post infection as compared to earlier time points. In contrast to these results, expression of the NF-κB regulated cytokines IL-6 and IL-1β were unaffected in IFI16 knockdown cells. These results suggest that IFI204 plays a partial role in the induction of type I interferons in response to both DNA and RNA ligands. Additionally, IFI204 may work in tandem with other receptors in a sequential manner to amplify the type I interferon response. We also studied the involvement of IFI204 in an in vivo model of HSV-1 infection. IFI204 knockout mice produce less brain and serum IFN-β, IL-6, and IL-1β 72 hours post intraperitoneal infection with HSV-1. Furthermore, IFI204 -/- mice are more susceptible to HSV-1 infection as compared to WT mice. These data indicate that IFI204 mediates the response to HSV-1 in vivo by inducing the production of cytokines that are necessary for the control of viral infection. Adaptive Immunity Herpes Simplex Immune System Interferon Type I Ligands Immunologic Receptors Receptors Pattern Recognition Dissertations, UMMS Receptors, Immunologic Receptors, Pattern Recognition Immunity Immunology of Infectious Disease
386	Determining the Effect of HSP90 Inhibitor Geldanamycin on Herpes Simplex Virus Type-1 Production in Infected Vero Cells Scherer, Brooklynn M. 30 April 2019 (has links) No description available. Biology Microbiology Virology Heat Shock Protein 90 HSP90 HSV1 Herpes Simplex Virus Type 1 Geldanamycin Time Course Infection Cell Culture African Monkey Epithelial Cells Vero Cells Viral Inhibition
387	The role of poly(C)-binding protein 1 in HSV-1 Infection Thornbury, Mackenzie 11 1900 (has links) Lors de l'infection par le virus herpès simplex de type 1 (VHS-1), quatre types de capsides nucléaires sont créés : les procapsides et les capsides A, B, et C. Sur les quatre capsides, seules les capsides C contiennent de l'ADN viral et deviendront des particules infectieuses. Un niveau de régulation se produit lors de la sortie du noyau qui favorise la sortie d’es capsides C du noyau. Le mécanisme qui sous-tend ce phénomène est actuellement inconnu. Les recherches actuelles suggèrent que l'interaction entre la protéine virale pUL25 modifie la conformation de la couche hexamérique plane du complexe de sortie nucléaire (NEC) pour y introduire des pentamères et donc causer un arrondissement de la membrane et le bourgeonnement des capsides. Cependant, des questions subsistent quant à la manière dont les capsides A, B et C sont différenciées au sein du noyau pour assurer une sortie spécifique de la capside C puisque pUL25 se retrouve dans tous les types de capsides. Nous étudions ici comment les protéines de l'hôte peuvent agir dans la sortie nucléaire des capsides C. En se basant sur une étude précédente du laboratoire où la protéine hôte poly(C)-binding protein 1 (PCBP1) a été trouvée spécifiquement sur les capsides C par spectrométrie de masse, nous explorons le rôle de la PCBP1 dans l'infection par le VHS-1. À l'aide d’essaies de plaques, nous montrons que la PCBP1 est importante pour l'infection virale, car en son absence, les titres diminuent et lorsque la PCBP1 est sur-exprimée, les titres augmentent. Ce résultat ne semble pas être dû au fait que les PCBP1 affectent l'expression génique de sous-ensembles de gènes viraux immédiats précoces, précoces ou tardifs, ni qu'ils affectent la réplication du génome ou son encapsidation. La réduction des PCBP1 ne provoque pas d'accumulation de capsides ou de particules matures tel qu’évalué par la microscopie électronique, mais elle augmente le nombre de capsides B enveloppées dans l'espace périnucléaire (PNS). L'inhibition de PCBP1 diminue également le niveau de protéine pUL24, une protéine virale importante pour la sortie du virus du noyau. Nos résultats démontrent que la PCBP1 pourrait réguler l’activité de pUL24, de sorte que lorsque la PCBP1 est épuisée, pUL24 permet à plus de capsides B de se rendre dans l'espace périnucléaire. Cette recherche constitue un point de départ pour une analyse plus approfondie du mécanisme exact des PCBP1 dans les infections à HSV-1. En outre, elle pourrait fournir des indices importants pour élucider comment le pUL24 favorise la sortie du nucléaire. / During herpes simplex virus type 1 (HSV-1) infection, four types of nuclear capsids are made: procapsids and A-, B- and C-capsids. Of the four capsids, only C-capsids contain the viral DNA and will become infectious progeny. A level of regulation occurs during nuclear egress that ensures only C-capsids exit the nucleus. The mechanism that underlies this phenomenon is presently unknown. Current research suggests the viral protein pUL25 alters the conformation of the viral nuclear egress complex (NEC) that forms a flat hexameric coat on nuclear membranes by the introduction of pentamers and therefore the induction of membrane rounding and viral budding. However, questions remain for how A-, B-, and C-capsids are differentiated within the nucleus to ensure C-capsid specific egress since pUL25 is found on all capsid types. Here we investigate how host proteins may play a role in nuclear egress of C-capsids. Based on the lab’s previous study where host protein poly(C)-binding protein 1 (PCBP1) was found specifically on C-capsids via mass spectrometry, we explore the role of PCBP1 in HSV-1 infection. Using plaque assays we show that PCBP-1 is important for viral infection, as in its absence titers decrease and when PCBP1 is over expressed titers increase. This result does not seem to be due to PCBP1 affecting gene expression of immediate early, early, or late viral gene subsets, nor does it seem to affect genome replication or encapsidation. PCBP1 knockdown does not cause an accumulation of capsids or mature particles as assessed by electron microscopy, but it does increase the number of enveloped B-capsids observed in the perinuclear space (PNS). Depletion of PCBP1 also decreases the level of pUL24, a viral protein implicated in viral nuclear egress. Our results suggest that PCBP1 could be regulating pUL24 for proper activity in nuclear egress, such that when PCBP1 is depleted, more B-capsids are able to bud through the PNS. This research constitutes a starting point for further analysis into the exact mechanism of PCBP1 in HSV-1 infections. In addition, it may provide important clues to elucidate how pUL24 supports nuclear egress. Herpes simplex virus type 1 PCBP1 Nuclear egress hnRNP E1 Sortie nucléaire Virus de l'herpès simplex de type 1
388	Humoral Immunity to Varicella Zoster Virus in Patients with Systemic Lupus Erythematosus and Rheumatoid Arthritis Compared to Healthy Controls Krasselt, Marco, Baerwald, Christoph, Liebert, Uwe G., Seifert, Olga 09 May 2023 (has links) Background: The prevalence of herpes zoster (HZ) is high in patients with rheumatic diseases. Systemic lupus erythematosus (SLE) doubles the risk for developing HZ. However, little is known about natural humoral immunity against varicella zoster virus (VZV) in patients with SLE. Hence, we compared VZV IgG antibody concentrations in a group of SLE patients with healthy controls and patients with rheumatoid arthritis (RA). Methods: n = 56 patients with SLE, n = 54 patients with RA, and n = 56 healthy controls were included in this study. The VZV IgG antibody concentration was measured using an enzyme-linked immunosorbent assay (ELISA). The antibody concentrations were compared between the groups. Results: Overall IgG antibody titers for VZV in SLE patients were comparable to healthy controls but higher when compared to patients with rheumatoid arthritis (p = 0.0012). In consequence, antibody levels in controls were higher than in RA patients (p = 0.0097). Stratification by age revealed highest titers among SLE patients in the fourth life decade (p = 0.03 for controls, p = 0.0008 for RA patients) whereas RA patients in their sixth decade had the lowest antibody concentration (p = 0.03 for controls, p = 0.04 for SLE patients). Regarding the individual HZ history, antibody levels of SLE patients with a positive history exceeded all other groups. Conclusions: Although humoral VZV immunity in SLE patients is comparable to healthy controls it seems to be pronounced in young SLE patients between 30 and 39. The lowest VZV IgG levels were found in RA patients. HZ seems to induce antibody production, particularly in patients with SLE. Immunological processes might contribute to VZV antibody levels in SLE patients, but further investigations are needed to substantiate this hypothesis. Even though the increased HZ prevalence seems to be independent of humoral immunity in SLE patients, reduced humoral immunity might contribute to HZ in RA patients. The available HZ subunit vaccination might be an appropriate way to reduce the HZ risk in patients with rheumatic diseases. info:eu-repo/classification/ddc/610 ddc:610
389	Indole-3-Carbinol Inhibition of Herpes Simplex Virus Replication Stoner, Terri Dorene 03 December 2008 (has links) No description available. Biomedical Research Indole-3-Carbinol Herpes Simplex Virus antiviral broccoli G1/S I3C cell cycle cyclin dependent kinase cyclin MRC-5 cells HSV cruciferous phytocompound
390	Rôles d’ITM2B et gM pour le VHS-1 et détermination d’une technique de perméabilisation cellulaire Sandolache, Alisa Elena 07 1900 (has links) Le virus herpès simplex de type I (VHS-1) est présent chez environ 67 % de la population âgée de 50 ans et moins, provoquant des feux sauvages et pouvant causer l’encéphalite chez les nouveaux nés. De plus, plusieurs études suggèrent l’existence d’un lien entre le VHS-1 et la maladie neurodégénérative de l’Alzheimer, caractérisée par la formation de plaques amyloïdes. La protéine ITM2B est considérée protectrice contre la formation de ces plaques, et nous avons déterminé préalablement qu’ITM2B interagirait avec les glycoprotéines virale gM et pUL25, jouant un rôle dans l’encapsidation virale. Nous avons cherché à confirmer cette interaction et déterminer le rôle du complexe gM-ITM2B-pUL25 en observant la production de capsides ainsi que l’encapsidation d’ADN virale en absence de gM. Bien que nos résultats suggèrent que gM n’a pas d’impact sur l’encapsidation, il n’a pas été possible de conclure quant à la production de capsides, faute d’une technique optimisée. Nos analyses par coimmunoprécipitation ont révélé que pUL25 interagirait de façon reproductible avec ITM2B, mais que son interaction avec gM semble faible. Afin de mieux comprendre comment gM est ciblée au noyaux, où pUL25 agit vraisemblablement, nous avons parallèlement exploré une technique de perméabilisation cellulaire spécifique à la membrane plasmique en utilisant la toxine bactérienne de la streptolysine O ainsi que le détergent de la saponine. Nos résultats indiquent que la saponine est le candidat le plus prometteur pour répondre à nos besoins, à condition de déterminer une concentration qui n'impacte pas la morphologie du noyau. / Herpes simplex virus type I (HSV-1) is present in approximately 67 % of the population aged 50 and younger. It causes cold sores, particularly on the lips, but can also cause more serious illnesses such as encephalitis in newborns. It has also been determined that a link exists between HSV-1 and Alzheimer’s disease. This neurodegenerative disease is characterized by the formation of amyloid plaques in the neuronal environment, and the cellular protein ITM2B is considered protective against the formation of these plaques. Previously, our laboratory preliminarily determined that ITM2B seemingly interact with the viral glycoprotein gM as well as pUL25, playing a role in viral encapsidation. We sought to demonstrate this interaction and determine the role of the gM-ITM2B-pUL25 complex by observing the production of viral capsids as well as the impact on viral DNA encapsidation in the absence of gM. We thus concluded that gM has no impact on encapsidation, but at this point is unfortunately impossible to conclude regarding the production of capsids. We determined by co-immunoprecipitation that pUL25 reproducibly interacts with ITM2B, while its interaction with gM is not yet demonstrated. To understand how gM is targeted to the nucleus, where pUL25 presumably acts, we developed in parallel a reversible cell permeabilization technique specific to the plasma membrane, using the bacterial toxin streptolysin O as well as the detergent saponin. We conclude that the most promising candidate for our needs would be saponin, provided a concentration is established that does not impact the nucleus morphology. Herpes Simplex Virus Type 1 Glycoprotein M ITM2B Encapsidation Permeabilization Streptolysin O Saponin Virus Herpès Simplex 1 Glycoprotéine M Perméabilisation Saponine Virology / Virologie (UMI : 0720)

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