The primary production of an infectious recombinant Herpes Simplex Virus vaccine

The production and extracellular release of a recombinant Herpes Simplex Virus (type 2) from monolayers of infected complementing Vero cells (CR2) are addressed. Growth and virus production conditions are identified that provide adequate virus titers with cell seeding densities and viral multiplicities of infection that could be reasonably handled in manufacturing. Harvesting by sonication of cell monolayers is shown to give the highest recovery of infectious virus (to 2.5 x 10(6) pfu/mL) but leads to process stream contamination by cellular proteins through the rupturing of cells (to 28 pg protein/pfu). By comparison, freeze-thaw cycles and osmotic rupture by hypotonic saline or glycerol shock procedures yield only low virus recovery (typically <10% of that by sonication), and are accompanied by yet higher levels of protein contamination (up to 30-fold higher pg protein/pfu). Addition of the polyanionic polymers, heparin or dextran sulphate to a harvest using either hypotonic saline, glycerol shock or isotonic phosphate buffered saline increased the yield of infectious virus in the supernatant. By contrast, addition of polycationic poly-L-lysine resulted in negligible increase in the supernatant virus titer. The highest virus titers (4.7 x 10(7) pfu/mL) were achieved following treatment of roller bottle cultured cells displaying a high cytopathic effect with heparin at 50 microg/mL for at least 3 h post harvest. This procedure also gave the lowest levels of protein contamination (<2 pg protein/pfu). The fivefold lower yield of infectious virus from cultures displaying a low cytopathic effect (<70% CPE) indicates the importance of cell physiological state at harvest.     

Early adrenal infection by herpes simplex virus type-1 (Miyama + GC strain): special reference to inoculation dose and spread from the adrenal to the central nervous system

Male C3H/HeN mice, aged 5 weeks, were inoculated intraperitoneally (i.p.) with different doses (1 x 10(3), 1 x 10(5), 5 x 10(5), 1 x 10(6) pfu) of the herpes simplex virus type-1 (HSV-1) (Miyama + GC strain). The LD50 of this virus was 10(2) pfu (i.p.) per mouse. All the mice in each group died 12 days after inoculation. Adrenal necrosis was found to be dose-dependent, the threshold dose being 5 x 10(5) pfu. In addition, encephalitis and inflammatory cell infiltration in abdominal ganglia appeared in 3-4 days after inoculation. By the plaque method, HSV-1 was detected first in the adrenal glands, then in neurons in the spinal cord and the brain. These findings suggest that in mice inoculated with doses of virus sufficient to infect the adrenal gland, HSV-1 spreads to the central nervous system through peripheral nerves after replication in the adrenal.     

Inhibitory effects of Ginsenoside Rb1 on apoptosis caused by HSV-1 in Human Glioma Cells

To investigate the inhibitory effects of Ginsenoside Rb1 (GRb1) on apoptosis caused by Herpes Simplex Virus-1 (HSV-1) in Human Glioma Cells (U251),U251 cells were infected by HSV-1 at a multiplicity of...     

Evaluation of thymidine kinase and neomycin phosphotransferase II positive selection systems for recovery of genetically atypical and recombinant DNA vaccine viruses

Dominant phenotypic marker cell culture selection systems were evaluated for the recovery of thymidine kinase positive (TK+), thymidine kinase negative (TK-), and neomycin phosphotransferase II positive (NPT II+) viruses. From 1 to 100 pfu of each marker-positive virus was diluted into 10(6) pfu of marker-negative background virus prior to selection. All three selection systems recovered 100 or fewer pfu of marked virus from the background population (10(-4) fractional level). In some instances, 1 to 10 pfu of marked virus were recovered (10(-5)-10(-6) fractional levels). TK+ and NPT II+ selections yielded nearly pure marker positive virus (98.8% and 99.5% respectively). Populations surviving TK- selection were significantly less pure (58.7%, P less than 0.05). Purity of recovered viruses was independent of the initial fractional level of marker-positive virus. The use of TK+, TK-, and NPT II+ selection systems is discussed in the context of purity testing and environmental surveillance of recombinant DNA viral vaccines.     

Bioreactor production of recombinant herpes simplex virus vectors

Serotypical application of herpes simplex virus (HSV) vectors to gene therapy (type 1) and prophylactic vaccines (types 1 and 2) has garnered substantial clinical interest recently. HSV vectors and amplicons have also been employed as helper virus constructs for manufacture of the dependovirus adeno-associated virus (AAV). Large quantities of infectious HSV stocks are requisite for these therapeutic applications, requiring a scalable vector manufacturing and processing platform comprised of unit operations which accommodate the fragility of HSV. In this study, production of a replication deficient rHSV-1 vector bearing the rep and cap genes of AAV-2 (denoted rHSV-rep2/cap2) was investigated. Adaptation of rHSV production from T225 flasks to a packed bed, fed-batch bioreactor permitted an 1100-fold increment in total vector production without a decrease in specific vector yield (pfu/cell). The fed-batch bioreactor system afforded a rHSV-rep2/cap2 vector recovery of 2.8 x 10(12) pfu. The recovered vector was concentrated by tangential flow filtration (TFF), permitting vector stocks to be formulated at greater than 1.5 x 10(9) pfu/mL.     

Antiviral activity and dose optimum of recombinant macrophage colony-stimulating factor on herpes simplex genitalis in guinea pigs.

The antiviral activity of recombinant human macrophage CSF (M-CSF) against genital herpes simplex virus type-2 (HSV-2) infection in guinea pigs was investigated. M-CSF stimulates proliferation of human and guinea pig peripheral blood monocytes, specifically the plastic adherent esterase-positive mononuclear cells. When anti-HSV-2 activity of M-CSF was evaluated in guinea pigs by 6 daily injection (s.c.) of M-CSF at various doses (5 x 10(5) to 7 x 10(7) U/kg), we found 2 x 10(6) U/kg to be the optimum dose for protective efficacy against primary HSV-2 infection. Either at a lethal, 5 x 10(5) pfu, or sublethal 5 x 10(4) pfu of virus challenge, animals treated with the optimum regimen of M-CSF exhibited lower herpetic lesion scores (p less than 0.005), and lower mortality (p less than 0.025) than animals in placebo group. M-CSF treatment increased the HSV-infected cell killing activities of plastic-adherent mononuclear cells, indicating that in vivo administration of M-CSF may activate the antiviral effects of guinea pig macrophages that may play a role in protection against severity and mortality of herpetic disease.     

The affinity adsorptive recovery of an infectious herpes simplex virus vaccine

The chromatographic purification of a recombinant Herpes Simplex Virus (type 2) from salt- and heparin-released harvests of infected complementing Vero (CR2) cells is addressed. Functionalized matrices and process operating conditions are identified that provide adequate virus titres in eluates that are significantly reduced in CR2 cell protein and DNA and possess a low level of HSV-2 protein. Virus from diluted salt-released harvests (0.14 M NaCl) was not appreciably adsorbed onto either heparin-Sepharose or Cellufine-heparin matrices but was virtually completely adsorbed onto Cellufine-sulfate and heparin-HP matrices. Virus was recovered by either a linear salt gradient elution (0.14-2 M NaCl) or by a single-step elution with 1.5 M NaCl in phosphate buffer. Recoveries of infectious virus with step elution were 21% and 89%, respectively, for these matrices. Virus from undiluted salt-released harvest (0.8 M NaCl) was substantially adsorbed onto Cellufine-sulfate gel (44% adsorption) and completely adsorbed onto heparin-HP matrices. This virus was recovered with high yield by either gradient or step elution with phosphate-buffered saline. Finally, heparin-harvested virus was fed directly to these matrices and quantitatively adsorbed. The virus could be completely recovered from the heparin-HP matrix with 1.5 M NaCl buffer to provide a purified preparation containing only 0.05 pg protein/pfu and 1.2 x 10(-4) pg DNA/pfu.     

Respiratory Syncytial Virus Isolation by Combined Continuous Flow-Isopycnic Banding Centrifugation

A new zonal centrifuge rotor (B-IX) which combines continuous sample flow centrifugation with isopycnic banding has been used to isolate and concentrate respiratory syncytial virus from liter volumes of culture fluid. This isolation technique utilizes a sucrose density gradient to trap and isopycnically band the virus particles, and permits recovery of the particles from the rotor in an unaggregated condition.     

Production of high titre disabled infectious single cycle (DISC) HSV from a microcarrier culture

Disabled Infectious Single Cycle (DISC) HSV-2 has been cultured in the complimentary cell line CR2 to provide high titre bulk material suitable for the purification of the virus as a live viral vaccine. CR2 cells are cultured on the microcarrier Cytodex-1 at 5 g l-1 in small scale (1 l) and larger scale (15 l) reactors. The cells are infected at an MOI of 0.01 pfu cell-1 and the culture harvested 60–72 h later. The infected cells are removed from the microcarriers by the addition of a hypotonic saline and the virus released by low-pressure disruption techniques. Virus titres achieved are compared to the standard roller bottle process. The resulting material is the starting point for the purification of the DISC-HSV virus. This revised version was published online in July 2006 with corrections to the Cover Date.     

Continuous-Flow Ultracentrifugation of Canine Distemper Virus and Infectious Canine Hepatitis Virus

The use of a Spinco L-4 zonal centrifuge with the B-XVI continuous-flow rotor for the purification of canine distemper and infectious canine hepatitis viruses is described. Up to 68 liters of virus was processed at one time. Infectious canine hepatitis virus was found to band at 39% sucrose and canine distemper virus banded between 32 and 48% sucrose. The virus was concentrated 10-fold, and the purity of the virus, as measured by protein concentration, was increased by 99%.     

Production of reovirus type-1 and type-3 from Vero cells grown on solid and macroporous microcarriers

Two strains of reovirus were propagated in Vero cells grown in stationary or microcarriers cultures. Vero cells grown as monolayers on T-flasks or in spinner cultures of Cytodex-1 or Cultispher-G microcarriers could be infected with reovirus serotype 1, strain Lang (T1L), and serotype 3, strain Dearing (T3D). A regime of intermittent low speed stirring at reduced culture volume was critical to ensure viral infection of cells in microcarrier cultures. The virus titre increased by 3 to 4 orders of magnitude over a culture period of 150 h. Titres of the T3D reovirus strain were higher (43%) compared to those of the T1L strain in all cultures. Titres were significantly higher in T-flask and Cytodex-1 microcarrier cultures compared to Cultispher-G cultures with respect to either reovirus type. The viral productivity in the microcarrier cultures was dependent upon the multiplicity of infection (MOI) and the cell/bead ratio at the point of infection. A combination of high MOI (5 pfu/cell) and high cell/bead loading (>400 for Cytodex-1 and >1,000 for Cultispher-G) resulted in a low virus productivity per cell. However, at low MOI (0.5 pfu/cell) the virus productivity per cell was significantly higher at high cell/bead loading in cultures of either microcarrier type. The maximum virus titre (8.5 x 10(9) pfu/mL) was obtained in Cytodex-1 cultures with a low MOI (0.5 pfu/cell) and a cell/bead loading of 1,000. The virus productivity per cell in these cultures was 4,000 pfu/cell. The lower viral yield in the Cultispher-G microcarrier cultures is attributed to a decreased accessibility of the entrapped cells to viral infection. The high viral productivity from the Vero cells in Cytodex-1 cultures suggests that this is a suitable system for the development of a vaccine production system for the Reoviridae viruses.     

Vector potential of the salmon louse Lepeophtheirus salmonis in the transmission of infectious haematopoietic necrosis virus (IHNV)

To better understand the role of vector transmission of aquatic viruses, we established an in vivo virus-parasite challenge specifically to address (1) whether Lepeophtheirus salmonis can acquire infectious haematopoietic necrosis virus (IHNV) after water bath exposure or via parasitizing infected Atlantic salmon Salmo salar and if so, define the duration of this association and (2) whether L. salmonis can transmit IHNV to naive Atlantic salmon and whether this transmission requires attachment to the host. Salmon lice which were water bath-exposed to 1 x 10(5) plaque-forming units (pfu) ml(-1) of IHNV for 1 h acquired the virus (2.1 x 10(4) pfu g(-1)) and remained IHNV-positive for 24 h post exposure. After parasitizing IHNV-infected hosts (viral titer in fish mucus 3.3 x 10(4) pfu ml(-1)) salmon lice acquired IHNV (3.4 x 10(3) pfu g(-1)) and remained virus-positive for 12 h. IHNV-positive salmon lice generated through water bath exposure or after parasitizing infected Atlantic salmon successfully transmitted IHNV, resulting in 76.5 and 86.6% of the exposed Atlantic salmon testing positive for IHNV, respectively. In a second experiment, only salmon lice that became IHNV-positive through water bath exposure transmitted IHNV to 20% of the naive fish, and no virus was transmitted when IHNV-infected salmon lice were cohabitated but restrained from attaching to naive fish. Under laboratory conditions, adult L. salmonis can acquire IHNV and transmit it to naive Atlantic salmon through parasitism. However, the ephemeral association of IHNV with L. salmonis indicates that the salmon louse act as a mechanical rather than a biological vector or reservoir.     

Antiviral activity of recombinant cyanovirin-N against HSV-1

In this study, a standard strain of HSV-1 (strain SM₄₄) was used to investigate the antiviral activity of the recombinant Cyanovirin-N (CV-N) against Herpes simplex virus type 1 (HSV-1) in vitro and in vivo. Cytopathic effect (CPE) and MTT assays were used to evaluate the effect of CV-N on HSV-1 in Vero cells. The number of copies of HSV-DNA was detected by real-time fluorescence quantitative PCR (FQ-PCR). The results showed that CV-N had a low cytotoxicity on Vero cells with a CC₅₀ of 359.03±0.56 μg/mL, and that it could not directly inactivate HSV-1 infectivity. CV-N not only reduced the CPE of HSV-1 when added before or after viral infection, with a 50% inhibitory concentration (IC₅₀) with 2.26 and 30.16μg/mL respectively, but it also decreased the copies of HSV-1 DNA in infected host cells. The encephalitis model for HSV-1 infection was conducted in Kunming mice, and treated with three dosages of CV-N (0.5, 5 &; 10 mg/kg) which was administered intraperitoneally at 2h, 3d, 5d, 7d post infection. The duration for the appearance of symptoms of encephalitis and the survival days were recorded and brain tissue samples were obtained for pathological examination (HE staining). Compared with the untreated control group, in the 5mg/kg CV-N and 10mg/kg CV-N treated groups, the mice suffered light symptoms and the number of survival days were more than 9d and 14d respectively. HE staining also showed that in 5mg/kg CV-N and 10mg/kg CV-N treated groups, the brain cells did not show visible changes, except for a slight inflammation. Our results demonstrated that CV-N has pronounced antiviral activity against HSV-1 both in vitro and in vivo, and it would be a promising new candidate for anti-HSV therapeutics.     

Anti-Herpes Simplex Virus substances produced by the marine green alga, Dunaliella primolecta

Among 106 microalgae tested, the cytopathic effect (CPE) upon Vero cells of herpes simplex virus, Type 1 (HSV-1) was inhibited by four methanol extracts of Dunaliella bioculata C-523, D. primolecta C-525, Lyngbya sp. M-9 and Lyngbya aerugineo-coerulea M-12. The green alga, D. primolecta, had the highest anti HSV-1 activity, since 10 μg mL-1 of extract from this alga completely inhibited the CPE. This activity was similar to that of acyclovir at the same concentration. We compared anti-viral activities against adeno virus, herpes simplex virus-2 (HSV-2), Japanese Encephalitis and Polio viruses. Only the CPE of HSV-2 was inhibited. Thus, the factor was specific against HSV. The antiviral activity was apparently excited during HSV adsorption and invasion of the cells. We optimized the conditions for anti HSV-1 activity by prolonging the exposure of HSV-1 to the extract. After 2 h, the CPE of even a high titer of HSV-1 (106 TCID50/0.1 mL) was completely inactivated. By use of various chromatographic techniques, three green substances having anti-HSV activity were purified from the algal mass of D. primolecta, and 5 μg mL-1 of this purified substances completely inhibited the CPE. From the analysis of NMR and MS, the chemical structures of the active substances were identified as pheophorbide-like compounds. This revised version was published online in June 2006 with corrections to the Cover Date.     

The replication cycle of tanapox virus in owl monkey kidney cells.

The growth kinetics of tanapox virus in owl monkey kidney cells was elucidated by single-step growth curves at multiplicities of 10, 1.0, and 0.1 plaque forming units (pfu) per cell at 37 and 33 degrees C. Virus replicated equally well at both temperatures and produced a cytopathic effect that was characterized by densely packed rounded cells with retrogressed monolayer and granular vacuolated cytoplasm. Single-step growth curves revealed that the eclipse period varied from 24 h postinfection (hpi) at a multiplicity of infection of 10 pfu/cell to 48 hpi at 0.1 pfu/cell. The length of the latent period also varied from 36 hpi at 10 pfu/cell to 48 hpi at 0.1 pfu/cell. The intracellular virus, extracellular virus, and total virus titers reached their maximums relatively early at 10 pfu/cell as compared with 0.1 pfu/cell. About 78% of the mature progeny virion is retained intracellularly at 10 pfu/cell at 96 hpi. We conclude that tanapox virus replication is similar to other poxviruses, but the replication cycle is longer when compared with vaccinia virus.     

Optimization of reovirus production from mouse L-929 cells in suspension culture

Reovirus serotype 3 Dearing (T3D) has shown potential as a novel cancer therapy. To support the increasing demand for reovirus, a two-stage perfusion mode scheme is proposed for cell growth and reovirus production. Mouse L-929 cells were used as the host for reovirus infection due to their ability to grow well in suspension culture. Several L-929 cell growth and reovirus infection characteristics were investigated and optimized in spinner flask batch cultures. For the growth of L-929 cells, a balanced nutrient-fortification of SMEM medium increased the maximum cell density by 30%, compared to normal SMEM; however, ammonia and lactate accumulations were found to inhibit further cell growth. For the production of reovirus, approximately 90% increase in viral yield resulted when the infection temperature was reduced from 37 to 33 degrees C. Infectious reovirus particles were shown to be stable in conditioned medium at 37 and 33 degrees C. The final virus titer was dependent on the multiplicity of infection (MOI) and the host cell density at the time of infection. A combination of an MOI of 0.1 pfu/cell and an initial host cell density of 1.0 x 10(6) cells/mL in fortified medium resulted in a maximum virus titer of (4.59 +/- 0.16) x 10(9) pfu/mL and a specific yield of (2.34 +/- 0.08) x 10(3) pfu/cell. At an optimal harvest time of the infection process, 99% of the virus was associated with the cellular debris. Finally, the presence of 5.0 mM ammonia in the culture medium was shown to seriously inhibit the reovirus yield, whereas lactate concentrations up to 20 mM had no effect.     

Herpes simplex virus type 2 growth and latency reactivation by cocultivation are inhibited with antisense oligonucleotides complementary to the translation initiation site of the large subunit of ribonucleotide reductase (RR1)

Antisense oligonucleotides complementary to the translation initiation site of the herpes simplex virus type 2 (HSV-2) large subunit of ribonucleotide reductase (RR1) were studied for their ability to inhibit RR1 expression, HSV-2 growth, and its reactivation from latently infected ganglia. The oligomers caused a significant decrease (90%-97% inhibition) in HSV-2 RR1 expression and inhibited HSV-2 growth, with IC50 and IC90 values of 0.11 and 1.0 microM, respectively. The titers of HSV-2 mutants that are respectively deleted in the PK (ICP10deltaPK) or RR (ICP10deltaRR) domains of RR1 were also significantly (500-20,000-fold) decreased, indicating that the antisense oligomers interfere with the independent contributions of the two RR1 functions (PK and RR) toward virus growth. Inhibition was sequence specific, as evidenced by the failure of a two-base mutant (RR1TImu) to inhibit protein expression and HSV-2 growth. Furthermore, the antisense oligomers inhibited HSV-2 reactivation by cocultivation of latently infected ganglia (0/8). Virus was reactivated from ganglia cultured without oligomers, in the presence of unrelated oligomers (6/8), or in the presence of the two-base mutant RR1TImu (5/8) (p < 0.007 by two-tailed Fisher exact test). HSV-2 growth was not inhibited by antisense oligonucleotides complementary to the splice junction of HSV-2 immediate-early (IE) pre-mRNA 4 and 5 (IE4,5SA) or the translation initiation site of IE mRNA 4 (IE4TI), although the respective HSV-1-specific oligomers inhibit HSV-1 growth.     

HIV-1 C/B'亚型多价重组MVA病毒疫苗

目的：检测人类免疫缺陷病毒1型（HIV-1） C/B'亚型与痘苗病毒安卡拉株（MVA）的多价重组疫苗的免疫原性,此疫苗中包含HIV-1 C/B'CRF 株的五个基因,分别是env、gag、pol、nef、tat。方法：设105 pfu/mL 、106 pfu/mL、107 pfu/mL ADMVA三个剂量组,用ELISPOT方法检测细胞免疫反应。同时,以Gag蛋白作为包被抗原,使用间接ELISA的方法检测体液免疫反应。结果：免疫后的小鼠对插入基因env、gag、pol和nef所表达蛋白均产生了特异性细胞免疫应答,且免疫效果与免疫剂量呈正相关。ELISA结果表明, MVA重组疫苗免疫诱导产生了特异性体液免疫,抗HIV-1Gag的抗体滴度与免疫次数和免疫剂量都存在正相关性。结论：多价MVA重组疫苗能有效地诱导小鼠产生特异地细胞免疫和体液免疫反应。