Search results for "Herpes Simplex"

showing 10 items of 95 documents

Herpes Simplex Esophagitis in Immunocompetent Host: A Case Report

2009

Introduction. Herpes simplex esophagitis is well recognized in immunosuppressed subjects, but it is infrequent in immunocompetent patients. We present a case of HSE in a 53-year-old healthy man. Materials and Methods. The patient was admitted with dysphagia, odynophagia, and retrosternal chest pain. An esophagogastroduodenoscopy revealed minute erosive area in distal esophagus and biopsies confirmed esophagitis and findings characteristic of Herpes Simplex Virus infection. Results. The patients was treated with high dose of protonpump inhibitor, sucralfate, and acyclovir, orally, with rapid resolution of symptoms. Discussion. HSV type I is the second most common cause of infectious esophagi…

medicine.medical_specialtyPathologylcsh:Medical technologymedicine.diagnostic_testbusiness.industryViral cultureEsophagogastroduodenoscopyCase Reportmedicine.diseaseDysphagiaDermatologyHerpes Simplex esophagitiSucralfatelcsh:R855-855.5immunocompetent hostmedicineRadiology Nuclear Medicine and imagingHistopathologyImmune disordermedicine.symptombusinessOdynophagiaEsophagitismedicine.drugDiagnostic and Therapeutic Endoscopy
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Herpes simplex virus type 1 and 2 in the adrenal glands: Replication and histopathology

1986

The adrenal glands were shown to be the most severely infected organs in the early phase of HSV-1 infections (up to 10 days p.i.) after i.p. infections in mice. Virus could be isolated from the adrenal glands as early as one hour after infection with pathogenic and apathogenic strains. Infection of the adrenal glands is a result of viremia. The content of HSV-1 (5 strains) was much higher in the adrenals than in spleen and liver. It peaked at 3-4 days p.i. compared to 1-2 days in spleen and liver. Only strain 17 syn+ produced low tissue titres in the adrenal glands. Morphologic alterations by HSV-1 infections commenced with distinct foci 2 days after infection in the zona fasciculata, detec…

medicine.medical_specialtyRatónViremiaSpleenBiologyVirus Replicationmedicine.disease_causeHerpesviridaeVirusMiceVirologyAdrenal GlandsmedicineAnimalsSimplexvirusAntigens ViralAdrenal glandHerpes SimplexGeneral Medicinemedicine.diseaseVirologymedicine.anatomical_structureHerpes simplex virusLiverFemaleHistopathologySpleenArchives of Virology
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The effect of Dextransulfate 500 on the pathogenesis of herpes simplex virus infections in weanling mice

1978

Intraperitoneal (i.p.) injection of Dextran Sulfate (D.S.) 500 during a limited period of time influences the course of herpes simplex-virus-infections. D.S.500 was found to reduce the resistance of mice for some herpes simplex-virus strains (Len, L3-2s, Haase) if given between 16 hours before and 2 hours after i.p. infection. The decrease of resistance could be correlated with an increase of the virus content of liver, spleen, brain and spinal cord. Injection of herpes simplex-virus-specific immune serum counteracted the effect of D.S.500 on the course of infections. Conversely, D.S.500 increased the resistance of mice to another group of herpes simplex-viruses (strains D-316, Thea, DD), i…

medicine.medical_specialtyTime FactorsvirusesWeanlingMice Inbred StrainsSpleenBiologymedicine.disease_causeVirusPathogenesisMicePeritoneal cavityMedical microbiologySpecies SpecificityVirologymedicineAnimalsSimplexvirusMacrophagesDextransHerpes SimplexGeneral MedicineSpinal cordVirologyHerpes simplex virusmedicine.anatomical_structureImmunologyAdsorptionArchives of Virology
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Infections of susceptible and resistant mouse strains with herpes simplex virus type 1 and 2.

1980

The spread of HSV of type 1 and 2 was investigated after intraperitoneal, intraplantar and intracerebral infections of resistant (C57/bl) and susceptible (NMRI) mice. The virus spreads after i.p. infection to the spleen and the liver to the same extent in both strains of mice. However, virus is eliminated earlier in resistant mice. Intracerebral infections revealed a peculiar type of resistance of C57/bl mice especially for type 2 of HSV. HSV multiplies in the thymus at the early stage of infection and can be detected in this organ in sick mice of NMRI strain. HSV-1 and 2 can be detected in the spinal cord of C57/bl mice without sickness or death of these animals.

medicine.medical_specialtyanimal structuresvirusesSpleenHSL and HSVThymus GlandBiologymedicine.disease_causeVirusMiceMedical microbiologyImmunityVirologymedicineAnimalsSimplexvirusCyclophosphamidefungiBrainHerpes SimplexGeneral MedicineSpinal cordVirologyImmunity InnateMice Inbred C57BLHerpes simplex virusmedicine.anatomical_structureLiverSpinal CordInfectious disease (medical specialty)SpleenArchives of virology
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Soft X-ray Tomography Reveals HSV-1-Induced Remodeling of Human B Cells.

2022

Upon infection, viruses hijack the cell machinery and remodel host cell structures to utilize them for viral proliferation. Since viruses are about a thousand times smaller than their host cells, imaging virus-host interactions at high spatial resolution is like looking for a needle in a haystack. Scouting gross cellular changes with fluorescent microscopy is only possible for well-established viruses, where fluorescent tagging is developed. Soft X-ray tomography (SXT) offers 3D imaging of entire cells without the need for chemical fixation or labeling. Here, we use full-rotation SXT to visualize entire human B cells infected by the herpes simplex virus 1 (HSV-1). We have mapped the temporo…

viruksetisäntäsolutBioengineeringmikroskopiainfektiotMicrobiologyX-ray tomography; soft X-rays; infection imaging; HSV-1; cell mapping; cryo imagingherpes simplex -virusCapsidsoft X-raystomografiaVirologyHumans2.2 Factors relating to the physical environment2.1 Biological and endogenous factorsAetiologyherpesviruksetTomographycryo imagingHerpesvirus 1herpesinfection imagingHSV-1solutInfectious Diseasesröntgenkuvauscell mappingX-RaySexually Transmitted InfectionsInfectionX-ray tomographysolubiologiaHuman
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Microtubules and microfilaments in HSV-Infected rabbit-kidney cells.

1981

In rabbit kidney cells infected with strains of Herpes simplex virus producing either cell-rounding or polycaryocytosis. Vinblastine induced paracrystals. This could be shown by phase-contrast- and electron-microscopy. Infections were done under one-step-growth conditions or at low MOI. 90 per cent noninfected cells contained stress fibers as detected by Servablue R250-staining. Shortly after recruitment into polycaryocytes, stress fibres of normal length appearing in criss-cross arrangement can be seen in the periphery of these cells. Later they polymerize to very long fibers and finally they are partially destroyed. The time of destruction depends on the MOI employed. By using Actinomycin…

virusesBiologyCycloheximideMicrofilamentmedicine.disease_causeKidneyVinblastineMicrotubulesCell LineCell Fusionchemistry.chemical_compoundViral ProteinsCytopathogenic Effect ViralVirologymedicineAnimalsSimplexvirusCytoskeletonKidneyCell fusionGeneral MedicineVirologyVinblastinemedicine.anatomical_structureHerpes simplex viruschemistryGiant cellCell cultureDNA ViralRabbitsmedicine.drugArchives of virology
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Vaginal infection of mice with HSV type 2 variant ER−: A new animal model for human primary genital HSV type 2 infections

1992

Abstract Studying the pathogenesis of vaginal infections in mice with two variants of Herpes simplex virus type 2 (HSV-2) strain ER we observed that both variants ER+ and ER− caused severe vaginitis but only ER+ invaded the CNS leading to lethal neurological disease. In contrast, mice infected with ER− cleared the virus from the vagina and recovered from infection. ER+ and ER− expressed equal levels of thymidine kinase (TK) indicating a TK-independent difference in neurovirulence. Using the non-neurovirulent variant ER−, we were able to investigate humoral immune responses late after infection. Vaginal infection with ER− suppressed serum antibody formation after a secondary systemic HSV-1 i…

virusesBiologyVirus Replicationmedicine.disease_causeModels BiologicalVirusHerpesviridaePathogenesisMiceImmune systemVirologymedicineAnimalsSimplexvirusVaginitisMice Inbred BALB CHerpes GenitalisVirulencemedicine.diseaseVirologyMice Inbred C57BLDisease Models AnimalHerpes simplex virusmedicine.anatomical_structureAntibody FormationVaginaVaginabiology.proteinFemaleAntibodyJournal of Virological Methods
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Infection-induced chromatin modifications facilitate translocation of herpes simplex virus capsids to the inner nuclear membrane

2021

Herpes simplex virus capsids are assembled and packaged in the nucleus and move by diffusion through the nucleoplasm to the nuclear envelope for egress. Analyzing their motion provides conclusions not only on capsid transport but also on the properties of the nuclear environment during infection. We utilized live-cell imaging and single-particle tracking to characterize capsid motion relative to the host chromatin. The data indicate that as the chromatin was marginalized toward the nuclear envelope it presented a restrictive barrier to the capsids. However, later in infection this barrier became more permissive and the probability of capsids to enter the chromatin increased. Thus, although …

virusesGene ExpressionVirus ReplicationPathology and Laboratory Medicineherpes simplex -virusChlorocebus aethiopsCapsidsMedicine and Health SciencesSimplexvirusBiology (General)Mass DiffusivityStainingChromosome BiologyPhysicsChromatinChemistryMedical MicrobiologyViral PathogensPhysical SciencesVirusesHerpes Simplex Virus-1EpigeneticsCellular Structures and OrganellesPathogenskapsidiResearch ArticleHerpesvirusesNuclear EnvelopeQH301-705.5Biological Transport ActiveViral StructureResearch and Analysis MethodsinfektiotMicrobiologydiffuusio (fysikaaliset ilmiöt)CapsidNuclear MembraneVirologyGeneticsAnimalsherpesviruksetVero CellsMicrobial PathogensCell NucleusChemical PhysicsOrganismsBiology and Life SciencesHerpes SimplexCell Biologybiochemical phenomena metabolism and nutritionRC581-607Viral ReplicationHerpes Simplex VirusNuclear StainingSpecimen Preparation and TreatmentImmunologic diseases. AllergyDNA viruses
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Replication of herpes simplex virus type 1 and 2 in the medulla of the adrenal gland after vaginal infection of mice.

1996

After vaginal infections of mice with neuroinvasive strains of herpes simplex virus type 1 and 2 (HSV-1, HSV-2) virus replicates in the epithelium of the vagina, in the paravaginal ganglia, in the spinal cord and finally in the brain and in the adrenal glands. However, viral antigens could be demonstrated only in the medulla of the adrenal glands but not in the cortex, as assessed by immunohistochemistry (IHC). HSV could not be isolated from liver, spleen, uterus, and ovaries. This contrasts to the intraperitoneal (i.p) route of infection with replication in different visceral organs including the adrenal gland's cortex.

virusesHerpesvirus 2 HumanUterusSpleenHerpesvirus 1 HumanBiologymedicine.disease_causeVirus ReplicationHerpesviridaeVirusMiceVirologyChlorocebus aethiopsmedicineAnimalsHumansAntigens ViralVero CellsMedullaCerebral CortexMice Inbred BALB CAdrenal glandGeneral MedicineVirologymedicine.anatomical_structureHerpes simplex virusSpinal CordAdrenal MedullaVaginaVaginaFemaleArchives of virology
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Translocation of the nuclear autoantigen La to the cell surface of herpes simplex virus type 1 infected cells.

1992

Recently we developed a procedure to translocalize one of the extractable nuclear antigens (ENAs), the La protein, to the cell surface of CV-1 cells. Here we report that herpes simplex virus type 1 infection can also induce a translocation of the autoantigen to the cell surface. On the cell surface we detected La protein assembled with large protrusions. Within these protrusions La protein colocalized with virus particles. These protrusions are known to be released from the cell after virus infections. Such complexes consisting of self and virus could provide helper determinants for an anti-self response, and therefore be important in generation of autoimmunity.

virusesImmunologyCellmedicine.disease_causeAutoantigensVirusHerpesviridaeSingle-stranded binding proteinAntigenAlphaherpesvirinaeCricetinaemedicineImmunology and AllergyAnimalsNuclear proteinCells CulturedCell NucleusbiologyAntibodies MonoclonalBiological TransportHerpes Simplexbiology.organism_classificationBlood Physiological PhenomenaVirologymedicine.anatomical_structureHerpes simplex virusRibonucleoproteinsbiology.proteinAutoimmunity
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