Hexamethylene bisacetamide leads to reduced helper virus-free HSV-1 amplicon expression titers via suppression of ICP0

The herpes simplex virus (HSV)-derived amplicon vector has evolved into a promising gene transfer platform for widespread DNA delivery in gene replacement strategies and vaccine development given its ease of molecular manipulation, large transgene capacity, and transduction efficiencies of numerous cell types in vivo. The recent development of helper virus-free packaging methodologies bodes well for this vector system in its eventual implementation as a clinically viable therapeutic modality. For realization of clinical application, efforts have been made to enhance yields and quality of helper-free amplicon stocks. Hexamethylene bisacetamide (HMBA), a hybrid polar compound that exhibits stimulatory activity of HSV-1 immediate-early gene expression, has been employed as a standard reagent in helper virus-free packaging given its purported mode of action on virus gene expression kinetics. Unexpectedly, we have found that HMBA exhibits no titer-enhancing activity; in contrast, the compound enhances the proportion of amplicon virions that are non-expressive. Omission of HMBA during vector packaging led to a marked reduction in the ratios of vector genome-transducing to transgene-expressing virions. This effect was neither packaging-cell-specific nor amplicon-promoter-dependent. Analysis of resultant vector stocks indicated amplicon genome replication/concatenation was unaffected, but the level of particle-associated ICP0 was reduced in stocks packaged in the presence of HMBA. Inclusion of a co-transfected, ICP0-expressing plasmid into the packaging process led to significant rescue of amplicon expression titers, indicating that regulation of ICP0 concentrations is critical for maintenance of the amplicon genome expressive state.     

Improved HSV-1 amplicon packaging using virion host shutoff mutants lacking mRNAse activity

Given their generous transgene capacity and inherent neurotropism, herpes simplex virus (HSV-1)-based viral vectors are promising tools for gene delivery to the central nervous system. Despite their widespread pre-clinical use, vector toxicity remains a concern with regard to the use of herpes vectors in humans. One potential source of toxicity stems from the tegument-associated virion host shutoff protein (vhs), which induces translational arrest in the host cell through non-specific mRNAse activity. In the current study we utilized a series of HSV-1 viruses containing a deletion in the U(L)41 open reading frame to investigate: (1) the requirement of intact vhs function in amplicon packaging and (2) whether vhs influences the post-transduction survival of dissociated cortical neurons. Our results demonstrate that while amplicon yield was reduced an order of magnitude, U(L)41 deletion was associated with reduced vector toxicity. Furthermore, partial reconstitution of vhs function using mRNAse-inactive point mutants improved amplicon titers without imparting the toxicity observed with wild-type controls. These findings offer a novel approach to improving the titer and toxicity profiles of HSV-based viral vectors.     

Expression of HSV-1 ICP0 Antigen Peptide in Prokaryotic Cells and Preparation of Specific Antibody

As an immediate-early protein of herpes simplex virus, infected-cell polypeptide 0 (ICP0) exhibits complicated interactions with host cells, and its regulatory function on gene expression is of great importance. Since the ICP0 encoding sequence contains many rare codons which are absent in E.coli, and ICP0 is highly unstable in prokaryotic cells, expression of entire ICP0 in prokaryotic cells has never been reported. In order to further investigate the function of ICP0, a recombinant plasmid was constructed by subcloning a cDNA fragment encoding an amino-terminal of 105 residues of the ICP0 protein into pGEX-5x-1 vector. The resulting GST-105 fusion antigen peptide was expressed with high efficiency in E.coli. Antibodies prepared after the immunization of mice with purified fusion protein can recognize not only the denatured ICP0 protein, but also the native ICP0 protein with normal biological conformation.     

Expression of HSV-1 ICP0 antigen peptide in prokaryotic cells and preparation of specific antibody

As an immediate-early protein of herpes simplex virus, infected-cell polypeptide 0 (ICP0) exhibits complicated interactions with host cells, and its regulatory function on gene expression is of great importance. Since the ICP0 encoding sequence contains many rare codons which are absent in E.coli, and ICP0 is highly unstable in prokaryotic cells, expression of entire ICP0 in prokaryotic cells has never been reported. In order to further investigate the function of ICP0, a recombinant plasmid was constructed by subcloning a cDNA fragment encoding an amino-terminal of 105 residues of the ICP0 protein into pGEX-5x-1 vector. The resulting GST-105 fusion antigen peptide was expressed with high efficiency in E.coli. Antibodies prepared after the immunization of mice with purified fusion protein can recognize not only the denatured ICP0 protein, but also the native ICP0 protein with normal biological conformation. Foundation items: National natural science foundation items (30570081 and 30670094)     

Peptide based vaccine design: synthesis and immunological characterization of branched polypeptide conjugates comprising the 276-284 immunodominant epitope of HSV-1 glycoprotein D.

The importance of the length and conjugation site of a protective epitope peptide (276SALLEDPVG284) from glycoprotein D of herpes simplex virus in branched polypeptide conjugates has been investigated. A new set of peptides, with a single attachment site and truncated sequences, was prepared. The immunogenicity of conjugates and the specificity of antibody responses elicited were investigated in BALB/c, C57/B1/6 and CBA mice. It was found that the covalent coupling of the peptide comprising the 276-284 sequence of gD through its Asp residue at position 281 did not influence the immunogenic properties of the epitope, while involvement of the side chain of Glu at position 280 almost completely abolished immunogenicity. These results clearly indicated that the conjugation site of the epitope peptide influenced the intensity and specificity of antibody responses. Comparison of the immunological properties of conjugates containing truncated gD peptides revealed the presence of two epitopes within the 276-284 region. One of the proposed epitopes is situated at the N-terminal (276-281) region, while the other is located at the C-terminal end of the sequence (279-284). Binding data demonstrated that some of the peptides comprising these epitopes induced gD-specific responses in their conjugated form and also elicited an immune response that conferred protection against lethal HSV-1 infection. The correlation of peptide- and gD-specific antibody responses with the protective effect of the immune response is discussed.     

Ligand induced stabilization of the melting temperature of the HSV-1 single-strand DNA binding protein using the thermal shift assay

We have adapted the thermal shift assay to measure the ligand binding properties of the herpes simplex virus-1 single-strand DNA binding protein, ICP8. By measuring SYPRO Orange fluorescence in microtiter plates using a fluorescence-enabled thermal cycler, we have quantified the effects of oligonucleotide ligands on the melting temperature of ICP8. We found that single-stranded oligomers raise the melting temperature of ICP8 in a length- and concentration-dependent manner, ranging from 1 °C for (dT)₅ to a maximum of 9 °C with oligomers ?10 nucleotides, with an apparent K_d of <1 μM for (dT)₂₀. Specifically, the results indicate that ICP8 is capable of interacting with oligomers as short as 5 nucleotides. Moreover, the observed increases in melting temperature of up to 9 °C, indicates that single-strand DNA binding significantly stabilizes the structure of ICP8. This assay may be applied to investigate the ligand binding proteins of other single-strand DNA binding proteins and used as a high-throughput screen to identify compounds with therapeutic potential that inhibit single-strand DNA binding. As proof of concept, the single-strand DNA binding agent ciprofloxacin reduces the ligand induced stabilization of the melting temperature of ICP8 in a dose-dependent manner.     

The potential link between PML NBs and ICP0 in regulating lytic and latent infection of HSV-1

Herpes simplex virus type 1 (HSV-1) is a common human pathogen causing cold sores and even more serious diseases. It can establish a latent stage in sensory ganglia after primary epithelial infections, and reactivate in response to stress or sunlight. Previous studies have demonstrated that viral immediate-early protein ICP0 plays a key role in regulating the balance between lytic and latent infection. Recently, It has been determined that promyelocytic leukemia (PML) nuclear bodies (NBs), small nuclear sub-structures, contribute to the repression of HSV-1 infection in the absence of functional ICP0. In this review, we discuss the fundamentals of the interaction between ICP0 and PML NBs, suggesting a potential link between PML NBs and ICP0 in regulating lytic and latent infection of HSV-1.     

Efficient transduction and selection of human T-lymphocytes with bicistronic Thy1/HSV1-TK retroviral vector produced by a human packaging cell line

BACKGROUND: T-cells expressing the HSV1-TK suicide gene can be used for the control of graft-versus-host disease following allogeneic stem cell transplantation. To develop clinical trials based on such a strategy, we have generated under good manufacturing procedures a novel 'split genome' human packaging cell line (1704 cells). METHODS: To minimize the risk of generating replication-competent retroviruses, pol was truncated to remove sequences overlapping with env. To improve retroviral infection and selection of transduced T-cells, high titers of GALV-pseudotyped retroviral particles harboring a bicistronic Thy1-IRES-TK vector coding for the CD90 GPI-anchored membrane molecule were produced by 1704 cells. RESULTS: Using 1704 cell supernatant and an optimized transduction protocol, approximately 50% of primary T-cells were transduced and could then be purified (approximately 95%) using clinical-grade immunomagnetic beads directed against CD90. Over 96% of these OKT3/IL-2-activated CD90(+)-selected T-cells were killed by ganciclovir. Cell proliferation and cytokine production of transduced T-cells and HLA-restricted cytotoxicity of transduced T-cell clones were identical to those of their non-transduced counterparts cultured under the same conditions. CONCLUSIONS: GALV-pseudotyped retroviral particles harboring a bicistronic Thy1-IRES-TK vector allow efficient transduction and rapid selection of human T-cells under conditions applicable for clinical trials using the new human 1704 packaging cell line.     

Effect of temperature, medium composition, and cell passage on production of herpes-based viral vectors

Our work uses replication-defective genomic herpes simplex virus type-1 (HSV-1)-based vectors to transfer therapeutic genes into cells of the central nervous system and other tissues. Obtaining highly purified high-titer vector stocks is one of the major obstacles remaining in the use of these vectors in gene therapy applications. We have examined the effects of temperature and media conditions on the half-life of HSV-1 vectors. The results reveal that HSV stability is 2.5-fold greater at 33 degrees C than at 37 degrees C and is further stabilized at 4 degrees C. Additionally, a significantly higher half-life was measured for the vector in infection culture conditioned serum medium compared to fresh medium with or without serum. Synchronous infections incubated at 33 degrees C produced 2-fold higher amounts of vector than infected cells incubated at 37 degrees C, but with a lag of 16-24 h. Vector production yielded 3-fold higher titers and remained stable at peak levels for a longer period of time in cultures incubated at 33 degrees C than 37 degrees C. A pronounced negative effect of increased cell passage number on vector yield was observed. Vector production at 33 degrees C yielded similar levels regardless of passage number but was reduced at 37 degrees C as passage number increased. Together, these results contribute to improved methods for high-titer HSV vector production.     

HSV-1 HF株扩增子载体的构建及其在不同HSV血清型间的通用性研究

旨在构建HSV-1HF株的扩增子载体,研究其在不同血清型HSV辅助下的包装通用性。经酶切HF株的BAC-HSV-1,获得oriS和pac元件并测序。以pSilencer2.0-U6为骨架,以DsRed为报告基因构建HSV-1HF株的扩增子载体,利用脂质体2000转染扩增子载体至Vero细胞,分别应用HSV-1HF株和HSV-2HG52辅助HSV-1扩增子载体进行包装,待产生细胞病变效应后取上清,再次感染Vero细胞,观察Vero细胞内红色荧光蛋白表达情况。本研究首次构建了HSV-1HF株的扩增子载体,鉴定了HSV-1HF株oriS和pac元件,HSV-1HF株扩增子载体可以被HSV-1HF株和HSV-2HG52株包装并扩增。     

Interactions of the HSV-1 UL25 capsid protein with cellular microtubule-associated protein

An interaction between the HSV-1 UL25 capsid protein and cellular microtubule-associated protein was found using a yeast two-hybrid screen and β-D-galactosidase activity assays. Immunofluorescence microscopy of the UL25 protein demonstrated its co-localization with cellular microtubule-associated protein in the plasma membrane. Further investigations with deletion mutants suggest that UL25 is likely to have a function in the nucleus.     

HSV-1感染对神经胶质瘤细胞神经生长因子及其受体表达的影响

神经生长因子(NGF)主要由神经胶质细胞产生,通过特异的靶细胞表面的神经生长因子受体介导产生生物学效应,与神经细胞的生长发育、分化和凋亡等密切相关。单纯疱疹病毒1型(HSV-1)作为一种嗜神经病毒,易造成神经细胞、神经胶质细胞凋亡或死亡。本实验以U251人神经胶质瘤细胞为研究对象,观察HSV-1感染致U251细胞凋亡的过程中NGF及其受体的变化情况。结果发现U251细胞是HSV-1的容许细胞;HSV-1感染致U251细胞凋亡过程中,NGF及其低亲和力受体p75NTR出现表达强度随时间先增强后减弱的趋势,而高亲和受体Tr-kA持续低表达。推测HSV-1感染致神经细胞凋亡中可能调控了神经营养因子的表达。     

PIAS1 enhances SUMO-1 modification and the transactivation activity of the major immediate-early IE2 protein of human cytomegalovirus

The protein inhibitor of activated STAT1 (PIAS1), known to be a small ubiquitin-like modifier (SUMO) E3 ligase, was found to interact with the human cytomegalovirus IE2 protein. We found that the sumoylation of IE2 was markedly enhanced by wild-type PIAS1 but not by a mutant containing a Cys to Ser substitution at position 351 (C351S) within the RING finger-like domain. In target reporter gene assays, wild-type PIAS1, but not the C351S mutant, enhanced the IE2-mediated transactivations of viral polymerase promoter and cellular cyclin E promoter and this augmentation required the intact sumoylation sites of IE2. Our results suggest that PIAS1 acts as a SUMO E3 ligase toward IE2 and that it may regulate the transactivation function of IE2. To our knowledge, IE2 is the first viral target found to be regulated by a SUMO E3 ligase.