Social Stress-Induced Modulation of Primary and Recurrent HSV-1 Infections in Balb/c Mice

Dong-Newsom, Phing

26 June 2009

No description available.

Dental Care

Immunology

Psychobiology

Psychology

Virology

Herpes Simplex Virus type 1

Trigeminal Ganglia

Social Stress

SDR

HSV-1

Generation of a FHV-1 Viral Vaccine Against Gonadotropin Releasing Hormone for Immunocontraception of Felines

Waite, Kerry L.

18 October 2006

With approximately 8.5 million unwanted cats euthanized in the U.S. annually, convenient, cost effective methods of sterilization are greatly needed. Current spay/neuter techniques, such as surgery and hormonal intervention, are not satisfying this need due to their high cost, significant expertise required, and the need for feral cats to be collected and brought into clinics for treatment. The aim of this research is to develop a safe contraceptive vaccine that could be delivered to the feral cat population in bait without compromising non-feline species. Feline Herpes Virus (FHV) is a feline specific virus. The USDA has approved the immunization of cats with an attenuated, non-pathogenic strain of FHV expressing foreign antigens. In our research, we have partially replaced Glycoprotein I of FHV to express a fusion protein of Flagellin (FliC), Enhanced Green Fluorescent Protein (EGFP), and Gonadotropin Releasing Hormone (GnRH). FliC has been shown to stimulate a heightened antibody response when antigens are expressed as fusion proteins with it. GnRH, a major reproductive hormone responsible for the development of testes and ovaries in felines, is the target of our vaccine vector. Expression of EGFP will allow tracking of the viral vector. The expression of the fusion protein (FliC-EGFP-GnRH) is expected to stimulate an antibody and cell mediated immune response directed towards feline GnRH, which will provide an immunocontraceptive effect specific to cats. / Master of Science

Immunocontraception

Enhanced Green Florescent Protein

Feline Rhinotracheitis Virus

Contraceptive Vaccine

Flagellin

Feline Herpes Virus (FHV)

Immunocastration

Gonadotropin Releasing Hormone (GnRH)

Prevalence and risk factors associated with Herpes Simplex Virus Type 2 in a cohort of woman : a secondary analysis

Juggernath, Vermala

15 April 2014

Background: Herpes Simplex Virus Type 2 (HSV 2) is one of the most common sexually transmitted infections (STIs) worldwide. HSV 2 infection is a risk factor for the acquisition and transmission of other STIs. Aim: The aim of this study is to determine prevalence and predictors of HSV 2 infection in Durban, South Africa by using available data that has not been previously analysed for the purpose of adding scientific evidence to the existing body of knowledge relating to HSV 2. Method: The study involves secondary analyses of data collected as a prospective study which enrolled women who participated in a clinical trial. A total of 3472 sexually active women were screened in the primary study from two clinics in Durban. All consenting participants were tested for HIV, HSV 2, Trichomonas vaginalis (TV), Neisseria gonorrhoea (NG) and Chlamydia trachomatis (CT) infection. Results: There were 2532 women who had HSV 2 giving a prevalence of 73%. Of these, 53% also tested positive for HIV infection. In univariate analysis, co-infection with HIV was strongly associated with HSV2 (Odds Ratio (OR): 7.4, 95% Confidence Interval (CI): 6.0, 9.1, p<0.001). There was also an association between other STIs, such as CT, NG and syphilis and HSV 2, although only NG was significantly associated with prevalent of HSV 2 (OR: 2.3, 95% CI: 1.3, 4.1, p=0.005). Women older than 25 years of age more likely to have HSV 2 (OR: 2.4, 95% CI: 2.0,2.8, p<0.001). A risk of being infected with HSV 2 increased with the number of reported lifetime sexual partners Those with two and three or more were 2,5 and 4.6 times more likely to have HSV2 respectively (OR: 2.5, 95% CI: 2.1,3.1, p<0.001 and OR: 4.6, 95% CI: 3.8, 5.6, p<0.001 respectively). Women who had less than high school education were also found to have higher risk for HSV 2. Conclusion: The secondary analysis showed a high prevalence of HSV 2 infection and a strong association of HSV 2 and HIV. A significant association of HSV 2 was noted in women having more than two sex partners and lower high school education. Therefore, it is recommended that screening for HSV 2 among high risk populations be incorporated into the STI screening and treatment packages. / Prevalence and risk factors associated with HSV 2 / Herpes Simplex Virus Type 2 / HSV 2 / Department of Health Studies / M. (Public health)

Sero-prevalence

Herpes Simplex Virus Type 2

HSV 2

Sexually transmitted infection

HIV

Genital ulcer disease

Epidemiology

Sexual behaviour

614.547082

Prevalence and risk factors associated with Herpes Simplex Virus Type 2 in a cohort of woman : a secondary analysis

Juggernath, Vermala

15 April 2014

Background: Herpes Simplex Virus Type 2 (HSV 2) is one of the most common sexually transmitted infections (STIs) worldwide. HSV 2 infection is a risk factor for the acquisition and transmission of other STIs. Aim: The aim of this study is to determine prevalence and predictors of HSV 2 infection in Durban, South Africa by using available data that has not been previously analysed for the purpose of adding scientific evidence to the existing body of knowledge relating to HSV 2. Method: The study involves secondary analyses of data collected as a prospective study which enrolled women who participated in a clinical trial. A total of 3472 sexually active women were screened in the primary study from two clinics in Durban. All consenting participants were tested for HIV, HSV 2, Trichomonas vaginalis (TV), Neisseria gonorrhoea (NG) and Chlamydia trachomatis (CT) infection. Results: There were 2532 women who had HSV 2 giving a prevalence of 73%. Of these, 53% also tested positive for HIV infection. In univariate analysis, co-infection with HIV was strongly associated with HSV2 (Odds Ratio (OR): 7.4, 95% Confidence Interval (CI): 6.0, 9.1, p<0.001). There was also an association between other STIs, such as CT, NG and syphilis and HSV 2, although only NG was significantly associated with prevalent of HSV 2 (OR: 2.3, 95% CI: 1.3, 4.1, p=0.005). Women older than 25 years of age more likely to have HSV 2 (OR: 2.4, 95% CI: 2.0,2.8, p<0.001). A risk of being infected with HSV 2 increased with the number of reported lifetime sexual partners Those with two and three or more were 2,5 and 4.6 times more likely to have HSV2 respectively (OR: 2.5, 95% CI: 2.1,3.1, p<0.001 and OR: 4.6, 95% CI: 3.8, 5.6, p<0.001 respectively). Women who had less than high school education were also found to have higher risk for HSV 2. Conclusion: The secondary analysis showed a high prevalence of HSV 2 infection and a strong association of HSV 2 and HIV. A significant association of HSV 2 was noted in women having more than two sex partners and lower high school education. Therefore, it is recommended that screening for HSV 2 among high risk populations be incorporated into the STI screening and treatment packages. / Prevalence and risk factors associated with HSV 2 / Herpes Simplex Virus Type 2 / HSV 2 / Department of Health Studies / M. (Public health)

Sero-prevalence

Herpes Simplex Virus Type 2

HSV 2

Sexually transmitted infection

HIV

Genital ulcer disease

Epidemiology

Sexual behaviour

614.547082

Impact of ATP-dependent RNA Helicase DDX3X on Herpes Simplex Type 1 (HSV-1) Replication

Khadivjam, Bita

08 1900

Le criblage par siRNA de 49 protéines de l'hôte qui sont incorporées dans les particules matures du virus herpès simplex de type 1 (VHS-1) a révélé l'importance d'au moins 15 d’entre elle pour infectivité du virus (Stegen, C et al. 2013). Parmi celle-ci figure la protéine humaine DDX3X, qui est une ARN hélicase ATP-dépendante. Cette protéine multifonctionnelle participe à différents stages de l'expression génique, tels que la transcription, la maturation et le transport d'ARNm ainsi que la traduction. DDX3X est impliquée dans la réplication de plusieurs virus tels que le Virus de l’immunodéficience humaine de type 1 (VIH-1), l'hépatite B (VHB), le virus de la vaccine (VACV) et le virus de l'hépatite C (VHC). Le rôle exact de DDX3X dans le cycle de réplication du VHS-1 est toutefois inconnu. Ce mémoire consiste en l’étude détaillée de l'interaction de DDX3X avec le virus. De manière surprenante, tant l’inhibition que la surexpression de DDX3X réduit de manière significative l'infectivité du VHS-1. Fait intéressant, lorsque nous avons restauré la déplétion de DDX3X par une construction résistante aux ARNi utilisés, le virus pouvait de nouveau infecter les cellules efficacement, indiquant que le virus est sensible aux quantités de cette protéine de son hôte. Nos résultats indiquent de plus que le virus modifie la localisation de DDX3X et cause son agrégation tôt dès les premiers temps de l'infection. Cependant, le virus ne modifie pas les niveaux cellulaires de DDX3X dans deux des trois lignées cellulaires examinées. Nous avons également pu établir que cette protéine n'a pas d'effet sur l'entrée du VHS-1, suggérant qu’elle agit à un stade ultérieure de l’infection. En examinant cette relation plus en détail, nos résultats ont démontré que l’inhibition ou la surexpression de DDX3X inhibent toutes deux la production de nouvelles particules virales en réduisant l'expression des diverses classes cinétiques des protéines virales et ce au niveau de leur transcription. Malgré le rôle connu DDX3X dans la stimulation de la réponse immunitaire innée et la production d’interférons de type I, l’impact de DDX3X sur la réplication du VHS-1 est ici indépendante de cette fonction. Ces travaux démontrent donc une nouvelle voie d’action de DDX3X sur les virus en agissant directement sur la transcription de gènes viraux et la réplication du génome d’un virus à ADN. En comprenant mieux cette interactions hôtepathogène, il est maintenant envisageable de concevoir des nouvelles approches thérapeutiques contre ce virus. / siRNA screening of 49 host proteins that are known to be incorporated in the mature virions of herpes simplex virus type 1 (HSV-1) revealed the importance of at least 15 cellular proteins for viral infectivity (Stegen, C et al. 2013). Among these, was the human protein DDX3X, a DEAD-box ATP-dependent RNA helicase. This multifunctional protein participates in different stages of gene expression such as mRNA transcription, maturation, mRNA export and translation. DDX3X has been shown to be involved in the replication of several viruses such as human immunodeficiency virus type 1 (HIV-1), hepatitis B virus (HBV) vaccinia virus (VACV) and hepatitis C virus (HCV). The exact role of DDX3X in HSV-1 replication cycle is not known. Here we sought to find the detailed interaction between DDX3X with HSV-1. Surprisingly, the down-regulation as well as overexpression of DDX3X, significantly reduced the infectivity of HSV-1, indicating that the virus is sensitive to the precise levels of DDX3X. Accordingly, when we rescued DDX3X back to its normal cellular levels by sequential transfection of DDX3X siRNA and siRNA resistant DDX3X plasmid, the virus was able to infect cells efficiently compare to wild-type conditions. Furthermore, the virus changes the localization of DDX3X and causes its aggregation at early times in the infection. However, the virus does not change the cellular levels of DDX3X in at least two of three different cell lines tested. Using a luciferase assay we were able to establish that this protein has no effect on the entry of HSV-1. In fact, depleting or overexpressing DDX3X impaired the production on newly assembled viral particles by blocking the expression of all classes of viral proteins at the transcription level. Despite the known role of DDX3X in the stimulation of innate immune response and interferon type I production, DDX3X appears to act on HSV-1 replication independently of this pathway. This highlights a novel route of action of DDX3X by acting at the transcription level and the consequent genome replication of a DNA virus. By better understanding such pathogen interactions, it might now be possible to design novel therapeutic approaches.

Virus herpès simplex de type 1

DDX3X

ARNi

Herpes simplex virus type 1

siRNA

Protein overexpression and depletion

Expression génique virale

Viral gene expression

La protéine majeure de la capside de l’HSV-1 est ubiquitinée

Raymond, Pascal

12 1900

Le virus de l’Herpès simplex de type 1 (HSV-1) est le pathogène humain responsable des lésions herpétiques labiales, plus communément appelé « feux sauvages ». Annuellement, il est responsable de plusieurs cas d’encéphalites et d’infections de l’appareil visuel qui sont la principale cause de cécité en Amérique du Nord. Bien qu’il existe quelques traitements antiviraux, aucun vaccin ou médicament ne permet de prévenir ou de guérir les infections causées par ce virus. Aujourd’hui, les infections produites par l’HSV-1 sont présentes partout sur la planète. Récemment, une étude en protéomique effectuée sur les virus matures extracellulaires a permis d’identifier la présence d’ubiquitines libres et d’enzymes reliées à la machinerie d’ubiquitination dans le virus. De plus, le virus exploite cette machinerie au cours de l’infection. Il est connu que certaines protéines virales sont ubiquitinées durant une infection et que le virus imite même certaines enzymes d’ubiquitination. Nous avons donc entrepris des recherches afin d’identifier des protéines virales ubiquitinées qui pourraient être présentes dans les virus matures ainsi que leurs rôles potentiels. La protéine majeure de la capside, VP5, un constituant très important du virus, a été identifiée. Nos recherches nous ont permis de caractériser le type d’ubiquitination, une monoubiquitination sur les lysines K810 et/ou K1275 de VP5. Le rôle que pourrait jouer l’ubiquitination de VP5 dans le cycle de réplication virale et dans les virus matures n’est toutefois pas encore connu. / Herpes simplex virus type 1 (HSV-1) is the human pathogen responsible for herpetic lesion such as cold sores. On a yearly basis, it is responsible for many cases of encephalitis and infections of the eye that are the most common cause of blindness in North America. Antiviral treatments exist, but no vaccines or drugs are able to prevent or cure the diseases caused by this virus. Today, infections caused by HSV-1 are present all around the world. Recently a proteomics approach was used to study mature extracellular viruses. This study highlighted the presence in the virus of free ubiquitin and ubiquitin related enzymes. Furthermore, the virus exploits this machinery during the course of infection. Also, it is known that certain virally encoded proteins are ubiquitinated and that the virus mimics some ubiquitin related enzymes. Our researches focused on identifying ubiquitinated viral proteins that could be present in mature extracellular viruses and their potential roles. The major capsid protein, VP5, an important virus component, was identified. We characterised the type of ubiquitination, a monoubiquitination of lysine K810 and/or K1275 of VP5. The role that could play the ubiquitination of VP5 in the viral cell cycle and in mature virions has yet to be identified.

Herpès simplex de type 1

Protéine majeure

VP5

Ubiquitine

Protéasome

Herpes simplex virus 1

Major protein

VP5

Ubiquitin

Proteasome

Étude de l’immunité antivaricelleuse chez l’enfant transplanté au moyen de moelle osseuse ou de sang de cordon ombilical

Grenier, Anne-Julie

03 1900

L’infection primaire au VZV et la réactivation du VZV latent sont fréquemment observées à la suite d’une GMO ou d’une GSCO, ce qui cause de sérieuses complications chez le patient. Pour prévenir ces infections, une prophylaxie antivirale est administrée systématiquement chez tous les greffés de MO ou de SCO, alors qu’il n’existe aucun consensus sur la durée optimale d’une telle prophylaxie. Pour résoudre ce problème, notre objectif est de développer et valider une méthode ELISpot-VZV-IFN- qui permettra de suivre la reconstitution de l’immunité à médiation cellulaire anti-VZV chez les receveurs de GMO ou de GSCO et ainsi déterminer le moment opportun pour réduire ou interrompe la prophylaxie chez les receveurs de greffes de CSH. Dans un premier temps, des valeurs-seuil de la réponse à médiation cellulaire anti-VZV chez la population pédiatrique saine ont dû être générées. À la lumière de nos résultats, un enfant avec un résultat ELISpot-VZV-IFN- > 190.0 SFU/106 PBMC devrait être protégé contre une possible infection à VZV. Pour valider cette étude, une étude prospective de la reconstitution immunitaire anti-VZV a été effectuée chez 9 enfants greffés de MO ou de SCO. Nos résultats préliminaires ont montré qu’il n’y avait eu aucune reconstitution significative de l’immunité à médiation cellulaire anti-VZV dans les 18 premiers mois post-transplantation chez 8 de ces 9 enfants. Les résultats de ces expériences vont fournir d’importantes informations quant à la reconstitution de l’immunité anti-VZV à la suite d’une GMO ou d’une GSCO et pourraient permettre l’amélioration des soins apportés aux receveurs de GMO ou de GSCO. / Primary infection with VZV and reactivation of latent VZV are commonly observed following BMT and UCBT, leading to serious complications in patients. As a result, antiviral prophylaxis is systematically administered to BMT and UCBT recipients, yet there is no consensus that defines its optimal duration. To resolve this problem, our objective was to develop and validate a VZV-IFN--ELISpot with which reconstitution of VZV immunity can be followed in BMT and UCBT recipients, providing clinicians a practical tool to gauge the need for and adjust antiviral prophylaxis in individual HSCT recipients. First of all, threshold values for anti-VZV immunity in healthy pediatric subjects were generated. Based on our results, a child exhibiting > 190.0 VZV-specific SFU /106 PBMC should be protected against a possible VZV infection. To validate these results, a prospective study on the recovery of VZV-specific T cell immunity was performed on 9 children following BMT or UCBT. Preliminary results demonstrated that there was no significant recovery of VZV-specific T cell immunity in the first 18 months post-transplantation in 8 of 9 cases. Results of these experiments will yield important new information regarding reconstitution of anti-VZV immunity following BMT and UCBT and could lead to improvements in clinical management of BMT and UCBT recipients.

Varicella-zoster virus

Varicelle

Zona

ELISpot

Varicella

Herpes zoster

hematopoietic stem cell transplantation

Analyse des protéines cellulaires incorporées dans les particules matures du virus de l’Herpès simplex de type 1

Stegen, Camille

04 1900

Les virus exploitent la machinerie cellulaire de l’hôte de façon très variée et plusieurs types vont même jusqu’à incorporer certaines protéines cellulaires. Nous avons récemment effectué la première analyse protéomique du virion mature de l’Herpès simplex de type 1 (HSV-1), ce qui nous a permis de déterminer que jusqu’à 49 protéines cellulaires différentes se retrouvaient dans ce virus (Loret, S. et al. (2008). "Comprehensive characterization of extracellular herpes simplex virus type 1 virions." J Virol 82(17): 8605-18.). Afin de déterminer leur importance dans le cycle de réplication d’HSV-1, nous avons mis au point un système de criblage nous permettant de quantifier le virus produit et relâché dans le milieu extracellulaire en utilisant un virus marqué à la GFP ainsi que des petits ARN interférents (pARNi) ciblant spécifiquement ces protéines cellulaires. Cette approche nous a permis de démontrer que 17 des protéines identifiées précédemment jouaient un rôle critique dans la réplication d’HSV-1, suggérant ainsi que leur incorporation dans le virus n’est pas aléatoire. Nous avons ensuite examiné le rôle d’une de ces protéines, DDX3X (DEAD (Asp-Glu-Ala-Asp) box polypeptide 3, X-linked), une protéine multifonctionnelle connue pour son implication dans les cycles de réplication de plusieurs virus humains. À l’aide de pARNi ainsi que de différentes lignées cellulaires, dont une lignée DDX3X thermosensible, nous avons démontré que l’inhibition de DDX3X résultait en une diminution du nombre de capsides intracellulaires et induisait une importante diminution de l’expression des gènes viraux. Nous avons aussi démontré que la fraction de DDX3X incorporée dans le virion contribuait activement au cycle infectieux d’HSV-1. Ces résultats confirment l’intérêt de notre approche afin d’étudier les interactions hôte-pathogène en plus de démontrer la contribution des protéines cellulaires incorporées à HSV-1 dans l’infection virale. / Viruses exploit the cellular machineries in many ways and several viruses specifically incorporate host proteins. To understand their biological relevance, we recently performed the first comprehensive characterization of the mature herpes simplex virus type 1 (HSV-1) in which up to 49 distinct cellular proteins were identified by mass spectrometry. In the present study, we sought to identify which of these cellular factors are critical for the HSV-1 life cycle. To this end, we performed a functional screen using small interfering RNA (siRNA) and a GFP-tagged virus, which indicated that at least 17 of the virion-incorporated host proteins alter HSV-1 proliferation in cell culture. Interestingly, these include several Rab GTPases and other intracellular transport components as well as proteins involved in signal transduction, gene regulation and immunity. Among them, the DEAD (Asp-Glu-Ala-Asp) box polypeptide 3, X-linked protein (DDX3X) is a multifunctional molecule previously linked to several other viruses. Its relevance for HSV-1 was further confirmed with different siRNA reagents and cell lines, including a DDX3X thermosensitive cell line. We found that DDX3X inactivation reduced intracellular capsid abundance via a strong inhibition of viral gene expression. We also report evidence that the pool of DDX3X present in the mature virions actively contributes to HSV-1 life cycle. Altogether, this highlights a powerful and biologically relevant approach to characterize host-pathogen interactions and points to the important contribution host proteins within mature viral particles.

Herpès simplex de type 1

Herpes simplex type 1

DDX3X

DDX3X

pARNi

siRNA

Protéines cellulaires

Cellular proteins

Criblage

Screen

Identification and characterization of low pH-triggered conformational changes in the herpes simplex virus glycoprotein B

Dollery, Stephen

02 March 2011

Herpesviruses can enter host cells by pH-dependent endocytic pathways in a cell-specific manner. The role of pH in herpesvirus endocytosis is unclear. Herpes simplex virus (HSV) is a paradigm for virus membrane fusion via a complex of glycoproteins. HSV glycoproteins B, D and the heterodimer H-L are necessary and sufficient for membrane fusion. This work analyzes the structure and function of HSV glycoproteins B, D, and H-L at neutral pH, and at the physiological low-pH encountered during endocytic entry. It is demonstrated that mildly acidic low pH triggers specific conformational changes in HSV gB at a pH of 5.7 to 6.0. The antigenic structure of gB functional region I that is critical for fusion is specifically altered by mildly acidic pH both in vitro and during entry into host cells. Point mutations within gB functional region 1 that block membrane fusion still allow conformational changes in region 1. This suggests that specific hydrophobic residues are essential for fusion domain insertion into the host cell membrane but not conformational change. The detected conformational changes were reversible, similar to other class III fusion glycoproteins. Exposure to mildly acidic pH directly triggered the fusion function of HSV glycoproteins and caused gB, but not other glycoproteins, to become more hydrophobic. The oligomeric conformation of gB is altered at a similar pH range. In addition, several approaches were used to monitor gB throughout glycoprotein synthesis and maturation. It is shown that gB may cotranslationally fold and oligomerize as it is synthesized on the ribosome. As gB matures it then alters conformation and/or binding partner to form antigenically distinct populations of gB within the cell and virion. I conclude that intracellular low pH induces changes in gB conformation that, together with additional triggers such as receptor-binding, are essential for virion-cell fusion during herpesviral entry by endocytosis.

herpes

simplex

glycoprotein

gB

virus entry

low pH

conformation

endocytosis

fusion

membrane fusion

s-gB

gB730

HSV

HSV-1

Medicine and Health Sciences

Avaliação da resposta inflamatória no sistema nervoso central causada pelo herpesvírus equino tipo 1 utilizando um modelo murino de neuroinfecção / Inflammatory response in the central nervous system caused by equine herpesvirus type 1 using a mouse model of neuroinfection

Tonietti, Paloma de Oliveira

26 October 2016

O herpesvirus equino tipo 1 (EHV-1) é um importante patógeno que causa doença respiratória, abortamento e desordens neurológicas em equinos. O presente estudo foi realizado visando avaliar a resposta inflamatória causada pelo EHV-1 por meio da análise das manifestações clínicas, alterações histopatológicas e resposta imune do hospedeiro no sistema nervoso central (SNC). Camundongos das linhagens BALB/c (H2d), C57BL/6 (H2b) e C3H/HeJ (H2k) foram inoculados por via intranasal com as estirpes brasileiras A4/72 e A9/92 do EHV-1. Nesse estudo, associou-se a histopatologia, a resposta de citocinas pró-inflamatórias no SNC de camundongos das diferentes linhagens e o método de transcrição reversa seguida pela reação em cadeia da polimerase quantitativa em tempo real (RT-qPCR) para investigar a relação entre a infecção pelo EHV-1 e a resposta inflamatória com o desenvolvimento de lesões. As estirpes brasileiras A4/72 e A9/92 do EHV-1 causaram infecção aguda e letal nas diferentes linhagens de camundongos isogênicos. Os sinais clínicos e neurológicos, tais como perda de peso, pelos arrepiados, postura arqueada, apatia, dispneia, desidratação e sialorreia apareceram entre o 2º e 3º dia pós-infecção (dpi). Essas manifestações foram acompanhadas pelo aumento da sensibilidade a estímulos externos, convulsões, recumbência e morte. As alterações histopatológicas consistiram em necrose neuronal, edema, necrose de liquefação, leptomeningite neutrofílica, manguito perivascular, hemorragia focal, inflamação não supurativa, gliose multifocal e infiltração perivascular de células polimorfonucleares e mononucleares. As características e a extensão das lesões variaram entre as linhagens de camundongos. Animais inoculados com a estirpe A4/72 apresentaram lesões histopatológicas de maior grau de severidade quando comparados com aqueles inoculados com a estirpe A9/92. Observou-se aumento da concentração plasmática de TNF-&#945;, IL-6, CCL2 e IFN-&gamma; nos camundongos infectados pelo EHV-1 no 2º dpi. Detectou-se aumento da concentração plasmática e da expressão de mRNA para TNF-&#945;, IL-6 e CCL2 no SNC dos camundongos infectados pelo EHV-1 no 3º dpi; entretanto, não houve aumento da concentração plasmática nem da expressão de mRNA para IFN-&gamma; no 3º dpi. Evidenciou-se que a estirpe A4/72 do EHV-1 induz uma resposta imune sistêmica mais efetiva, enquanto que o vírus A9/92 culmina em uma resposta imunológica mais efetiva no SNC. Os camundongos com o fundo genético C57BL/6 e BALB/c mostraram níveis mais altos de expressão de mRNA para TNF-&#945;, IL-6 e CCL2, quando comparados com os C3H/HeJ. A gravidade dos sinais clínicos observados em camundongos infectados pode ser correlacionada com o pico dessas citocinas pró-inflamatórias (TNF-&#945; e IL-6) e da quimiocina CCL2, que são produzidas logo após a infecção viral por células residentes da glia e/ou infiltrativas no SNC. Esses achados indicam que as diferentes linhagens de camundongos isogênicos são susceptíveis à infecção por estirpes neuropatogênicas do EHV-1; as diferenças no padrão de alterações histopatológicas mostram que elas dependem do hospedeiro infectado, da estirpe viral e da resposta imunológica; e a supressão do interferon (IFN) tipo 1 sugere ser um mecanismo de escape do EHV-1 frente ao sistema imune. A baixa expressão de IL-6, TNF-&#945; e da quimiocina CCL2 em camundongos C3H/HeJ se explica pela mutação no gene toll-like receptor 4 (TLR-4) existente nessa linhagem de camundongo. Adicionalmente, os camundongos C3H/HeJ apresentaram lesões histopatológicas mais severas no SNC quando comparados com BALB/c e C57BL/6. Sugere-se que o IFN tipo I e o gene TLR-4 apresentam importante papel na patogênese do EHV-1 bem como proteínas do agente viral responsáveis pela supressão do IFN e partículas virais que sejam reconhecidas pelo TLR-4 podem ser alvos para o desenvolvimento de novas abordagens para o tratamento da doença viral e para a eficiência de imunógenos / The equine herpesvirus type 1 (EHV-1) is an important pathogen that causes respiratory disease, abortion and neurological disorders in horses. This study was conducted to evaluate the inflammatory response caused by EHV-1 by the analysis of clinical manifestations, histopathological changes and the host immune response in the central nervous system (CNS). BALB/c (H2d), C57BL/6 (H2b) and C3H/HeJ (H2k) mice were inoculated intranasally with Brazilian EHV-1 strains A4/72 and A9/92. In this study, joined histopathology, the response of proinflammatory cytokines in the CNS of mice of different strains and reverse transcription method followed by quantitative polymerase chain reaction in real time (RT-qPCR) to investigate the relationship between infection by EHV-1 and inflammatory response in the development of lesions. Brazilian strains A4/72 and A9/92 EHV-1 caused acute lethal infection in different strains of inbred mice. Clinical and neurological signs such as weight loss, the bristly hair, hunched posture, apathy, dyspnoea, dehydration and salivary hypersecretion appeared between 2nd and 3rd day after infection (dpi). These events were accompanied by increase in the sensitivity to external stimuli, convulsions, recumbency and death. Histopathological changes were neuronal necrosis, edema, liquefaction necrosis, neutrophilic leptomeningitis, perivascular cuff, focal hemorrhage, non-suppurative inflammation, multifocal gliosis and perivascular infiltration of polymorphonuclear and mononuclear cells. The characteristics and the extent of the injuries varied between strains of mice. Animals inoculated with the A4/72 strain showed histopathological lesions of greater severity when compared with those inoculated with the A9/92 strain. There was an increase in plasma concentrations of TNF-&#945;, IL-6, CCL2 and IFN-&gamma; in mice infected by EHV-1 in 2nd dpi. Plasma concentrations and the expression of mRNA for TNF-&#945;, IL-6 and CCL2 in the CNS of mice infected with EHV-1 at 3rd dpi were increased; however, there was no increase in plasma concentration or expression for the mRNA of IFN-&gamma; at 3rd dpi. It was evident that the EHV-1 strain A4/72 induces a more effective systemic immune response, whereas the A9/92 virus culminates in a more effective immune response in the CNS. The C57BL/6 and BALB/c mice showed higher levels of mRNA expression for TNF-&#945;, IL-6 and CCL2, compared to C3H/HeJ mice. The severity of clinical signs observed in infected mice can be correlated with the peak of these proinflammatory cytokines (TNF-&#945; and IL-6) and CCL2 chemokine, which are then produced after viral infection by resident glial cells and/or infiltrative cells in the CNS. These findings indicate that different strains of inbred mice are susceptible to infection neuropathogenic EHV-1 strains; the differences in the pattern of pathological changes show that they depend on the infected host, the EHV-1 strain and the immune response; and the suppression of interferon (IFN) type I suggested to be an escape mechanism for the EHV-1 against the immune system. The low expression of IL-6, TNF-&#945; and chemokine CCL2 in C3H/HeJ mice can be explained by a mutation in toll-like receptor 4 (TLR-4) gene existing in this mouse strain. Additionally, C3H/HeJ mice exhibited more severe histopathological lesions in the CNS as compared to BALB/c and C57BL/6. It is suggested that type I IFN and TLR-4 gene have important role in the pathogenesis of EHV-1 and viral agent proteins responsible for the suppression of IFN and the viral particles that are recognized by TLR-4 can be targets for the development of new approaches for the treatment of viral disease and the efficiency of immunogens

EHV-1

EHV-1

Equine herpes myeloencephalopathy

Inflammatory response

Meningoencefalite viral

Mieloencefalopatia herpética equina

Modelo murino

Mouse model

Neurovirulence

Neurovirulência

Resposta inflamatória

Viral meningoencephalitis