-
[show abstract]
[hide abstract]
ABSTRACT: Objective-To evaluate metaphylactic RNA interference to prevent equine herpesvirus type 1 (EHV-1) infection in experimental herpesvirus myeloencephalopathy in horses and to determine whether horses infected with a neuropathogenic strain of the virus that develop equine herpesvirus myeloencephalopathy (EHM) have differences in viremia. Animals-13 seronegative horses. Procedures-EHV-1 strain Ab4 was administered intranasally on day 0, and small interfering RNAs (siRNAs [EHV-1 specific siRNAs {n = 7} or an irrelevant siRNA {6}]) were administered intranasally 24 hours before and 12, 24, 36, and 48 hours after infection. Physical and neurologic examinations, nasal swab specimens, and blood samples were collected for virus isolation and quantitative PCR assay. Data from the study were combined with data from a previous study of 14 horses. Results-No significant difference was detected in clinical variables, viremia, or detection of EHV-1 in nasal swab specimens of horses treated with the EHV-1 targeted siRNAs (sigB3-siOri2) versus controls. No significant differences in viremia were detected between horses that developed EHM and those that did not. Conclusions and Clinical Relevance-Administration of siRNAs targeted against EHV-1 around the time of EHV-1 infection was not protective with this experimental design. Horses infected with the neuropathogenic EHV-1 strain Ab4 that developed EHM did not have a more pronounced viremia.
American Journal of Veterinary Research 02/2013; 74(2):248-56. · 1.27 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Tendon injuries are one of the most common orthopaedic problems in both human and equine athletes. When a damaged tendon heals naturally, it loses a substantial part of the original strength and elasticity. Therefore, tendons recover structurally (reparation) but not functionally (regeneration) after conservative medical or surgical treatment. Since the structure and matrix composition of human and equine tendons share many similarities, the nature of tendon injuries are also strongly comparable in both species. Therefore, the evaluation of regenerative therapies in horses may have applications for future human medicine and vice versa. The current review focuses briefly on the physiology of human and equine tendon in order to better comprehend the modus operandi of this structure under pathophysiological circumstances. In addition, the reparative effects of conservative medical and surgical interventions are discussed concisely, and an extensive overview is given on the regenerative therapies that are currently being explored. For the latter, the results of equine clinical studies might prove invaluable for gaining additional insights into the treatment of human tendinopathies, since not all of these novel regenerative therapies have been evaluated in humans yet.
Sports Medicine 10/2012; 42(10):871-90. · 5.16 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Equine herpesvirus type 1 and 4 (EHV-1 and EHV-4) are important pathogens of horses worldwide. Infection with EHV-4 usually remains restricted to the upper respiratory tract, whereas infection with EHV-1 can generalize after leukocyte-associated viremia. Here we examined whether differences in the immunomodulatory glycoprotein G (gG) between the two viruses determine EHV-1's ability to cause systemic infection. To this end, mutant viruses were constructed based on the neurovirulent EHV-1 strain OH-03, in which the entire gG gene or parts thereof were exchanged with EHV-4 gG sequences. In vitro chemotaxis assays showed that supernatants of cells infected with the various gG mutant viruses interfered to variable degrees with neutrophil migration. More specifically, supernatants of cells infected with the gG deletion virus (vOH-ΔgG1) or OH-03 expressing EHV-4 gG (vOH-gG4) were unable to interfere with chemotaxis. Re-insertion of the predicted chemokine-binding region of EHV-1 gG in the vOH-gG4 mutant (vOH-gG4hyp1) did not completely restore the ability to inhibit neutrophil migration, whereas insertion of the hypervariable region of EHV-4 gG into vOH-03 (vOH-gG1hyp4) did not lead to a complete loss of chemokine-binding function. Very similar results were obtained in an in vivo study where the amount of neutrophils present in bronchioalveolar lavages (BALs) of mice infected with the different mutants was analyzed by flow cytometry. Taken together, our results show that, in a virus background, the hypervariable region is not solely responsible for the immunomodulatory potential of EHV-1 gG.
Virus Research 08/2012; 169(1):203-11. · 2.94 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Although the use of mesenchymal stromal cells (MSCs) for the treatment of orthopaedic injuries in horses has been reported, no official guidelines exist that classify a particular cell as an equine MSC. Given the limited characterisation of peripheral blood (PB)-derived equine MSCs in particular, this study aimed to provide more detailed information in relation to this cell type. Mesenchymal stromal cells were isolated from equine PB samples and colony forming unit (CFU) assays as well as population doubling times (PDTs) (from P(0) to P(10)) were performed. Two types of colonies, 'fingerprint' and dispersed, could be observed based on macroscopic and microscopic features. Moreover, after an initial lag phase (as indicated by a negative PDT at P(0) to P(1)) the MSCs divided rapidly as indicated by a positive PDT at all further passages. Immunophenotyping was carried out with trypsin- as well as with accutase-detached MSC to evaluate potential trypsin-sensitive epitope destruction on particular antigens. Isolated MSC were positive for CD29, CD44, CD90 and CD105, and negative for CD45, CD79α, MHC II and a monocyte/macrophage marker, irrespective of the cell detaching agent used. Trilineage differentiation of the MSCs towards osteoblasts, chondroblasts and adipocytes was confirmed using a range of histochemical stains.
The Veterinary Journal 06/2012; · 2.24 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Equine herpes virus (EHV)-1 replicates in the epithelial cells of the upper respiratory tract and reaches the lamina propria and bloodstream in infected mononuclear cells. This study evaluated expression of the late viral proteins gB, gC, gD and gM in respiratory epithelial and mononuclear cells using: (1) epithelial-like rabbit kidney cells and peripheral blood mononuclear cells infected with EHV-1 in vitro; (2) an equine ex vivo nasal explant system; and (3) nasal mucosa tissue of ponies infected in vivo. The viral proteins were expressed in all late-infected epithelial cells, whereas expression was not observed in infected leucocytes where proteins gB and gM were expressed in 60-90%, and proteins gC and gD in only 20% of infected cells, respectively. The results indicate that expression of these viral proteins during early-stage EHV-1 infection is highly dependent on the cell type infected.
The Veterinary Journal 03/2012; 193(2):576-8. · 2.24 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: During recent years, cell-based therapies using mesenchymal stem cells (MSC) are reported in equine veterinary medicine with increasing frequency. In most cases, the isolation and in vitro differentiation of equine MSC are described, but their proper immunophenotypic characterization is rarely performed. The lack of a single marker specific for MSC and the limited availability of monoclonal antibodies (mAbs) for equine MSC in particular, strongly hamper this research. In this study, 30 commercial mAbs were screened with flow cytometry for recognizing equine epitopes using the appropriate positive controls to confirm their specificity. Cross-reactivity was found and confirmed by confocal microscopy for CD45, CD73, CD79α, CD90, CD105, MHC-II, a monocyte marker, and two clones tested for CD29 and CD44. Unfortunately, none of the evaluated CD34 clones recognized the equine epitopes on positive control endothelial cells. Subsequently, umbilical cord blood-derived undifferentiated equine MSC of the fourth passage of six horses were characterized using multicolor flow cytometry based on the selected nine-marker panel of both cell surface antigens and intracytoplasmatic proteins. In addition, appropriate positive and negative controls were included, and the viable single cell population was analyzed by excluding dead cells using 7-aminoactinomycin D. Isolated equine MSC of the fourth passage were found to be CD29, CD44, CD90 positive and CD45, CD79α, MHC-II, and a monocyte marker negative. A variable expression was found for CD73 and CD105. Successful differentiation towards the osteogenic, chondrogenic, and adipogenic lineage was used as additional validation. We suggest that this selected nine-marker panel can be used for the adequate immunophenotyping of equine MSC.
Cytometry Part A 03/2012; 81(4):312-23. · 3.73 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Major histocompatibility complex class I (MHC-I) molecules play an important role in host immunity to infection by presenting antigenic peptides to cytotoxic T lymphocytes (CTLs), which recognize and destroy virus-infected cells. Members of the Herpesviridae have developed multiple mechanisms to avoid CTL recognition by virtue of downregulation of MHC-I on the cell surface. We report here on an immunomodulatory protein involved in this process, pUL56, which is encoded by ORF1 of equine herpesvirus type 1 (EHV-1), an alphaherpesvirus. We show that EHV-1 pUL56 is a phosphorylated early protein which is expressed as different forms and predominantly localizes to Golgi membranes. In addition, the transmembrane (TM) domain of the type II membrane protein was shown to be indispensable for correct subcellular localization and a proper function. pUL56 by itself is not functional with respect to interference with MHC-I and likely needs another unidentified viral protein(s) to perform this action. Surprisingly, pUL49.5, an inhibitor of the transporter associated with antigen processing (TAP) and encoded by EHV-1 and related viruses, appeared not to be required for pUL56-induced early MHC-I downmodulation in infected cells. In conclusion, our data identify a new immunomodulatory protein, pUL56, involved in MHC-I downregulation which is unable to perform its function outside the context of viral infection.
Journal of Virology 01/2012; 86(7):3554-63. · 5.40 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Equine herpesvirus 1 (EHV1) is a ubiquitous equine alphaherpesvirus that causes respiratory disease, neurological symptoms and abortions. Current vaccines are not fully protective and effective therapeutics are lacking. A-5021 [(1'S,2'R)-9-[[1',2'-bis(hydroxymethyl)cycloprop-1'-yl]methyl]guanine], previously shown to possess potent anti-herpetic activity against most human herpesviruses, was evaluated for its potential to inhibit EHV1 replication. In equine embryonic lung (EEL) cells, infected with either a non-neurovirulent (97P70) or a neurovirulent (03P37) EHV1 isolate, A-5021 proved to be about 15-fold more potent than acyclovir in inhibiting viral replication. Moreover, in equine nasal mucosal explants, A-5021 (at 8 and 32μM) was able to completely inhibit viral plaque formation whereas acyclovir did not exert an antiviral effect at these concentrations. Our data demonstrate that A-5021 is a potent inhibitor of EHV1 replication and may have potential for the treatment and/or prophylaxis of infections with this virus.
Antiviral research 12/2011; 93(2):234-8. · 3.61 Impact Factor
-
Catharina De Schauwer,
Evelyne Meyer,
Pieter Cornillie,
Sarne De Vliegher, Gerlinde R van de Walle,
Maarten Hoogewijs,
Heidi Declercq,
Jan Govaere,
Kristel Demeyere,
Maria Cornelissen,
Ann Van Soom
[show abstract]
[hide abstract]
ABSTRACT: Mesenchymal stromal cells (MSC) represent a promising population for supporting new clinical concepts in cellular therapy. A wide diversity of isolation procedures for MSC from umbilical cord blood (UCB) has been described for humans. In contrast, a few data are available in horses. In the current study, a sedimentation method using hydroxyethyl starch and a method based on the lysis of red blood cells using ammonium chloride (NH(4)Cl) were compared with two density gradient separation methods (Ficoll-Paque and Percoll). Adherent cell colonies could be established using all four isolation methods. The mononuclear cell recovery after Percoll separation, however, resulted in significantly more putative MSC colonies; and, therefore, this isolation method was used for all further experiments. Culture conditions such as cell density and medium or serum coating of the wells did not significantly affect putative MSC recovery. Isolated MSC using Percoll were subsequently differentiated toward the osteogenic, chondrogenic, and adipogenic lineage. In addition, MSC were phenotyped by multicolor flow cytometry based on their expression of different cell protein markers. Cultured MSC were CD29, CD44, and CD90-positive and CD79α, Macrophage/Monocyte and MHC II-negative. In conclusion, this study reports optimized protocols to isolate, culture, and characterize solid equine MSC from UCB.
Tissue Engineering Part C Methods 08/2011; 17(11):1061-70. · 4.64 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: ABSTRACT: Myxoma virus (MYXV) gained importance throughout the twentieth century because of the use of the highly virulent Standard Laboratory Strain (SLS) by the Australian government in the attempt to control the feral Australian population of Oryctolagus cuniculus (European rabbit) and the subsequent illegal release of MYXV in Europe. In the European rabbit, MYXV causes a disease with an exceedingly high mortality rate, named myxomatosis, which is passively transmitted by biting arthropod vectors. MYXV still has a great impact on European rabbit populations around the world. In contrast, only a single cutaneous lesion, restricted to the point of inoculation, is seen in its natural long-term host, the South-American Sylvilagus brasiliensis and the North-American S. Bachmani. Apart from being detrimental for European rabbits, however, MYXV has also become of interest in human medicine in the last two decades for two reasons. Firstly, due to the strong immune suppressing effects of certain MYXV proteins, several secreted virus-encoded immunomodulators (e.g. Serp-1) are being developed to treat systemic inflammatory syndromes such as cardiovascular disease in humans. Secondly, due to the inherent ability of MYXV to infect a broad spectrum of human cancer cells, the live virus is also being developed as an oncolytic virotherapeutic to treat human cancer. In this review, an update will be given on the current status of MYXV in rabbits as well as its potential in human medicine in the twenty-first century.Table of contentsAbstract1. The virus2. History3. Pathogenesis and disease symptoms4. Immunomodulatory proteins of MYXV4.1. MYXV proteins with anti-apoptotic functions4.1.1. Inhibition of pro-apoptotic molecules4.1.2. Inhibition by protein-protein interactions by ankyrin repeat viral proteins4.1.3. Inhibition of apoptosis by enhancing the degradation of cellular proteins4.1.4. Inhibition of apoptosis by blocking host Protein Kinase R (PKR)4.2. MYXV proteins interfering with leukocyte chemotaxis4.3. MYXV serpins that inhibit cellular pro-inflammatory or pro-apoptotic proteases4.4. MYXV proteins that interfere with leukocyte activation4.5. MYXV proteins with sequence similarity to HIV proteins4.6. MYXV proteins with unknown immune function5. Vaccination strategies against myxomatosis5.1. Current MYXV vaccines5.2. Vaccination campaigns to protect European rabbits in the wild6. Applications of myxoma virus for human medicine6.1. MYXV proteins as therapeutics for allograft vasculopathy and atherosclerosis6.2. Applications for MYXV as a live oncolytic virus to treat cancer7. Discussion and Conclusions8. List of AbbreviationsReferencesAuthor DetailsAuthors' contributionsCompeting interestsFigure LegendsAcknowledgements.
Veterinary Research 06/2011; 42(1):76. · 4.06 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: ABSTRACT: Equine herpesvirus-1 (EHV-1) infection remains a significant problem despite the widespread use of vaccines. The inability to generate a protective immune response to EHV-1 vaccination or infection is thought to be due to immunomodulatory properties of the virus, and the ORF1 and ORF2 gene products have been hypothesized as potential candidates with immunoregulatory properties. A pony infection study was performed to define immune responses to EHV-1, and to determine if an EHV-1 ORF1/2 deletion mutant (ΔORF1/2) would have different disease and immunoregulatory effects compared to wild type EHV-1 (WT). Infection with either virus led to cytokine responses that coincided with the course of clinical disease, particularly the biphasic pyrexia, which correlates with respiratory disease and viremia, respectively. Similarly, both viruses caused suppression of proliferative T-cell responses on day 7 post infection (pi). The ΔORF1/ORF2 virus caused significantly shorter primary pyrexia and significantly reduced nasal shedding, and an attenuated decrease in PBMC IL-8 as well as increased Tbet responses compared to WT-infected ponies. In conclusion, our findings are (i) that infection of ponies with EHV-1 leads to modulation of immune responses, which are correlated with disease pathogenesis, and (ii) that the ORF1/2 genes are of importance for disease outcome and modulation of cytokine responses.
Veterinary Research 02/2011; 42(1):23. · 4.06 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Mesenchymal stromal cells (MSC) are a very promising subpopulation of adult stem cells for cell-based regenerative therapies in veterinary medicine. Despite major progress in the knowledge on adult stem cells during recent years, a proper identification of MSC remains a challenge. In human medicine, the Mesenchymal and Tissue Stem Cell Committee of the International Society for Cellular Therapy (ISCT) recently proposed three criteria to define MSC. Firstly, cells must be plastic-adherent when maintained under standard culture conditions. Secondly, MSC must express CD73, CD90 and CD105, and lack expression of CD34, CD45, CD14 or CD11b, CD79α or CD19 and MHC class II antigens. Thirdly, MSC must be able to differentiate into osteoblasts, adipocytes and chondroblasts in vitro. Successful isolation and differentiation of equine MSC from different sources such as bone marrow, fat tissue, umbilical cord blood, Wharton's Jelly or peripheral blood has been widely reported. However, their unequivocal immunophenotyping is hampered by the lack of a single specific marker and the limited availability of monoclonal anti-horse antibodies, which are two major factors complicating successful research on equine MSC. Detection of gene expression on mRNA level is hereby a valuable alternative, although the need still exists to test several antibody clones in search for cross-reactivity. To date, commercial antibodies recognizing equine epitopes are only available for CD13, CD44 and MHC-II. Moreover, as the expression of certain adult stem cell markers may differ between species, it is mandatory to define a set of CD markers which can be uniformly applied for the identification of equine MSC.
Theriogenology 12/2010; 75(8):1431-43. · 1.96 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Equid herpesviruses types 1 and 4 (EHV-1 and EHV-4) are closely related pathogens of horses. While both viruses can infect the upper respiratory tract, EHV-1 regularly causes systemic infection, which is only rarely observed in the case of EHV-4. Little is known about the molecular basis for this striking difference in pathogenic potential. Recently, we have started a systematic analysis of differences in the amino acid sequences of proteins involved in virus replication, more specifically entry and egress, as well as proteins involved in immune evasion. Here, we summarize our findings relevant to glycoproteins D and G (gD and gG), which share a high degree of similarity between the viruses, yet exhibit important differences. We found that both these glycoproteins appear to be involved in the conquest of the mononuclear cell compartment. While gD is involved in infection of peripheral blood mononuclear cells through an RSD motif present in EHV-1 but not EHV-4, gG is implicated in thwarting innate responses by sequestration of chemokines. Again, the activity is only present in EHV-1, more specifically in a short stretch of variable amino acids in the extracellular domain of gG. The differences in the two glycoproteins of EHV-1 and EHV-4 are discussed, as is their role in pathogenesis. In addition, hypotheses are proposed related to the other equid respiratory alphaherpesviruses, EHV-8 and EHV-9, based on the amino acid sequences of gD and gG.
Veterinary Microbiology 02/2010; 143(1):21-8. · 3.33 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Vaccination is commonly used to control equine respiratory pathogens such as equine herpesvirus type 1 (EHV-1) and equine influenza virus (EIV). Here, we describe the generation and characterization of a recombinant EHV-1 modified live virus vaccine (MLV) based on a recent abortogenic EHV-1 strain, NY03. The immunogenicity and efficacy of the MLV was tested in horses in an EHV-1 vaccination/challenge experiment using the highly virulent neurovirulent EHV-1 strain OH03. Induction of a robust EHV-1-specific immune response was observed. Upon challenge infection, vaccinated horses were partially protected against disease as demonstrated by a significant reduction in clinical signs, nasal shedding and viremia levels. In addition, the NY03-based MLV was used to express the EIV H3 protein and immunogenicity was tested in horses. Expression of H3 was readily detected in NY03-H3-infected cells in vitro. Vaccination of horses resulted in the induction of a robust serological immune responses against two recent but genetically distinct EIV representatives, VA05 and NY-99, which were above the threshold predicted to be protective against development of clinical disease.
Vaccine 11/2009; 28(4):1048-55. · 3.77 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Dendritic cells (DCs) play a critical role in orchestrating both innate and adaptive components of the immune system and are therefore of pivotal importance in the initiation of immune responses to control and eliminate viral infections. A major focus of this review is to give an overview on the recent findings that point out the importance of DCs in controlling alphaherpesvirus infections, but also indicate that these viruses have evolved several strategies to inhibit and/or exploit DC functions to delay or escape elimination by the immune system. In addition, we point out the common features and interspecies differences between DCs from man and animal, and discuss the potential use of animal alphaherpesvirus homologues to gain further insights into the interaction between alphaherpesviruses and DCs in their natural virus-host environment. Finally, recent knowledge on the potential of alphaherpesviruses as vectors for DC stimulation and their use for immunotherapy is presented.
Reviews in Medical Virology 09/2009; 19(6):338-58. · 7.20 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: A single nucleotide polymorphism in the equine herpesvirus 1 (EHV-1) DNA polymerase gene (ORF30 A(2254) to G) has been associated with clinical signs of equine herpes myeloencephalopathy (EHM). The purpose of our study was to determine the odds ratio for this genetic marker and EHM using a panel of field isolates from North America collected over the past twenty-three years. EHV-1 isolates cultured at the Cornell University Animal Health Diagnostic Laboratory from 1984 to 2007 were retrieved along with their clinical histories. DNA was extracted from these EHV-1 cultures and allelic discrimination was performed using real-time PCR. The results were confirmed by sequencing of the target region in ORF30. PCR and sequencing were in 100% agreement and showed that 19 out of the 176 isolates had the ORF30 G(2254) allele (11%), of which 16 were EHM cases and 3 respiratory or abortion cases. The odds of having neurologic disease with the ORF30 G(2254) genotype were computed as 162 times greater than those with the opposite allele ORF30 A(2254) (95% confidence interval: 35-742). Despite this strong statistical significance, 24% (5/21) of horses with neurologic disease in our study population harbored the "non-neurologic" form of the allele (ORF30 A(2254)), suggesting that other factors may also contribute to the onset of EHM.
Veterinary Microbiology 07/2009; 139(3-4):375-8. · 3.33 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Epidemiological studies have shown that a single-nucleotide polymorphism in the equid herpesvirus type 1 DNA polymerase gene is associated with outbreaks of highly lethal neurological disease in horses. Reverse genetics experiments further demonstrated that a G(2254) A(2254) nucleotide mutation introduced in neurovirulent strain Ab4, which resulted in an asparagine for aspartic acid substitution (D(752) N(752)), rendered the virus nonneurovirulent in the equine. Here, we report that the nonneurovirulent strain equid herpesvirus type 1 strain NY03 caused lethal neurological disease in horses after mutation of A(2254) G(2254) (N(752) D(752)), thereby providing final proof that the D(752) allele in the viral DNA polymerase is necessary and sufficient for expression of the lethal neurovirulent phenotype in the natural host. Although virus shedding was comparable between the N(752) and D(752) variants, infection with the latter was accompanied by efficient establishment of prolonged cell-associated viremia in peripheral blood mononuclear cells and neurological disease in 2 of 6 animals.
The Journal of Infectious Diseases 06/2009; 200(1):20-5. · 6.41 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: BACKGROUND: Equine herpesvirus type 1 (EHV-1), a member of the Alphaherpesvirinae, is spread via nasal secretions and causes respiratory disease, neurological disorders and abortions. The virus is a significant equine pathogen, but current EHV-1 vaccines are only partially protective and effective metaphylactic and therapeutic agents are not available. Small interfering RNAs (siRNA's), delivered intranasally, could prove a valuable alternative for infection control. siRNA's against two essential EHV-1 genes, encoding the viral helicase (Ori) and glycoprotein B, were evaluated for their potential to decrease EHV-1 infection in a mouse model. METHODOLOGY/PRINCIPAL FNDINGS: siRNA therapy in vitro significantly reduced virus production and plaque size. Viral titers were reduced 80-fold with 37.5 pmol of a single siRNA or with as little as 6.25 pmol of each siRNA when used in combination. siRNA therapy in vivo significantly reduced viral replication and clinical signs. Intranasal treatment did not require a transport vehicle and proved effective when given up to 12 h before or after infection. CONCLUSIONS/SIGNIFICANCE: siRNA treatment has potential for both prevention and early treatment of EHV-1 infections.
PLoS ONE 02/2009; 4(1):e4118. · 4.09 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Viral chemokine-binding protein (vCKBP) are expressed by large DNA viruses, such as herpesviruses and poxviruses. vCKBP can bind chemokines with high affinity and efficiently neutralize their ability to induce cell migration. Recently, herpesvirus glycoprotein G (gG) was identified as a member of the vCKBP-4 subfamily. The structural domains of gG important for binding to chemokines and biological activity, however, are unknown. Here, we used equine herpesvirus type 1 (EHV-1) as a model to determine residues in EHV-1 gG that are involved in the processes of chemokine binding and interaction with target cells. First, comprehensive analysis of glycosylation of EHV-1 gG revealed that N-glycosylation is not required for binding of gG to chemokines but is essential for biological activity of the protein. Second, the epitope responsible for the binding to chemokines was localized to 40 amino acids in the hypervariable region (amino acids 301-340) of the protein. Third, hybrid molecules, designed as loss- and gain-of-function gG proteins, were engineered. In these hybrid glycoproteins the hypervariable regions of EHV-1 gG, a vCKBP, and the closely related EHV-4 gG, which does not display any chemokine binding capabilities, were exchanged. gG variants containing the EHV-1 hypervariable region were able to bind chemokines and were biologically active, whereas hybrid gGs containing the corresponding region of EHV-4 gG were not. Taking these results together, this report is the first to provide insight into the functional residues of an alphaherpesviral vCKBP.
Journal of Biological Chemistry 01/2009; 284(9):5968-76. · 4.77 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Equine herpesvirus 1 (EHV-1) is a member of the Alphaherpesvirinae, and its broad tissue tropism suggests that EHV-1 may use multiple receptors to initiate virus entry. EHV-1 entry was thought to occur exclusively through fusion at the plasma membrane, but recently entry via the endocytic/phagocytic pathway was reported for Chinese hamster ovary cells (CHO-K1 cells). Here we show that cellular integrins, and more specifically those recognizing RGD motifs such as alphaVbeta5, are important during the early steps of EHV-1 entry via endocytosis in CHO-K1 cells. Moreover, mutational analysis revealed that an RSD motif in the EHV-1 envelope glycoprotein D (gD) is critical for entry via endocytosis. In addition, we show that EHV-1 enters peripheral blood mononuclear cells predominantly via the endocytic pathway, whereas in equine endothelial cells entry occurs mainly via fusion at the plasma membrane. Taken together, the data in this study provide evidence that EHV-1 entry via endocytosis is triggered by the interaction between cellular integrins and the RSD motif present in gD and, moreover, that EHV-1 uses different cellular entry pathways to infect important target cell populations of its natural host.
Journal of Virology 10/2008; 82(23):11859-68. · 5.40 Impact Factor
