Heteroconjugate antibodies enhance cell-mediated anti-herpes simplex virus immunity

Impaired cell-mediated immunity predisposes individuals to severe systemic HSV infections. A potential approach for enhancing antiviral immunity is to alter the specificity of T cells and NK cells so that they become cytotoxic against HSV. We describe here the use of heteroconjugate antibodies to augment the killing of HSV-infected cells. Two different types of heteroconjugate antibodies were used: 1) CD3-specific mAb, covalently linked to HSV-specific mAb (e.g., anti-CD3 x anti-HSV-1 glycoprotein C); 2) FcR-specific mAb linked to HSV-specific mAb (e.g., anti-Fc gamma RIII x anti-HSV-1 glycoprotein D). Whereas freshly isolated, PBL were not cytotoxic against HSV-infected target cells in a 5-h 51Cr-release assay, co-incubation with either heteroconjugate resulted in significant cytotoxicity. In vitro activated PBL (anti-CD3 + IL-2) also became more potent killers of HSV-infected cells in the presence of each heteroconjugate. The specificity of anti-CD3 x anti-HSV-1 and anti-Fc gamma RIII x anti-HSV-1 gD for enhancing T cell and NK cell immunity, respectively, was confirmed by using cloned, homogeneous human T cell and NK cell lines as effectors. Kinetic analysis demonstrated that as soon as the infected cells began to express HSV glycoproteins on their surface they became susceptible to this enhanced killing. Prolonged culture of HSV-infected cells with heteroconjugate antibodies and effector cells also decreased the amount of viral replication that occurred, as measured in a plaque inhibition assay. These results suggest that heteroconjugate antibodies are potent immunotherapeutic tools that enhance anti-HSV immunity.     

Promyelocytic leukemia protein mediates interferon-based anti-herpes simplex virus 1 effects

Herpes simplex virus (HSV) 1 disaggregates the nuclear domain 10 (ND10) nuclear structures and disperses its organizing promyelocytic leukemia protein (PML). An earlier report showed that ectopic overexpression of PML precludes the disaggregation of ND10 but has no effect on viral replication. PML has been reported to mediate the effects of interferon (IFN) and viral mutants lacking ICP0 (Delta alpha 0 mutants). To test the hypothesis that HSV disaggregates ND10 structures and disperses PML to preclude IFN-mediated antiviral effects, we tested the accumulation of viral proteins and virus yields from murine PML(+/+) and PML(-/-) cells mock treated or exposed to IFN-alpha, IFN-gamma, or both and infected with the wild-type or Delta alpha 0 mutant virus. We report the following results. (i) The levels of growth of wild-type and mutant viruses and of accumulation of viral proteins were not significantly different in untreated PML(+/+) and PML(-/-) cells. (ii) Major effects of IFN-alpha and -gamma were observed in PML(+/+) cells infected with the Delta alpha 0 mutant virus, and more minor effects were observed in cells infected with the wild-type virus. The effects of the IFNs on either wild-type or the mutant virus in PML(-/-) cells were minimal. (iii) The mixture of IFN-alpha and -gamma was more effective than either IFN alone, but again, the effect was more drastic in PML(+/+) cells than in PML(-/-) cells. We concluded that the anti-HSV state induced by exogenous IFN is mediated by PML and that the virus targets the ND10 structures and disseminates PML in order to preclude the establishment of the antiviral state induced by IFNs.     

Mode of action of phosphonoformate as an anti-herpes simplex virus agent

Phosphonoformate inhibited the replication of Herpes simplex virus (HSV) type 1 and type 2 in culture. The concentration required to inhibit the replication of both types of virus by 2 logs at 28 h post-infection was approximately 150 microM. It was more potent than phosphonoacetate against the growth of both virus types. A virus mutant which is resistant to phosphonoacetate was cross-resistant to phosphonoformate. Arsonoacetate, at 300 microM, had no antivirus activity. Phosphonoformate also inhibited HeLa and KB cell growth; at a concentration of about 500 microM, cell growth was inhibited by 50%. The anti-cell growth effects of the drug were completely reversible. The antivirus effect of phosphonoformate was partially reversible, depending on the time and duration of exposure of infected cultures to the drug. To obtain the maximum antivirus effect, phosphonoformate had to be added within the first 3 h post-virus-infection and be continuously present for at least 18 h. Phosphonoformate, added at 0 h post-infection, suppressed the induction of virus-specific DNA polymerase and DNAase activities. dTMP incorporation into DNA was preferentially inhibited in nuclei isolated from infected cells compared to uninfected cells, and the degree of inhibition varied with the ionic strength of the assay. Phosphonoformate was a potent inhibitor of the purified HSV-1 and HSV-2 DNA polymerases, inhibiting DNA polymerase activity by 50% at a concentration of 3 microM and ionic strength of 0.2.     

Preparation of stable target cells for anti-herpes simplex virus cytotoxic T lymphocytes

Using an avirulent strain of herpes simplex virus (HSV), SKa, and a methylcholanthrene induced sarcoma cell line, Meth A cells, we have developed a reliable target cell system for detection of cell-mediated cytotoxicity directed against HSV-infected cells. SKa-infection in Meth A produced no progeny virus but induced HSV-specific surface antigens as revealed by radioimmunoassay using 125I-labeled HSV antibody. Spontaneous release of 51Cr from the SKa-infected Meth A cells was no more than that from uninfected control cells but a strong spontaneous 51Cr release was produced in Meth A cells infected with KOS, a virulent strain which produced a progeny virus in Meth A and was lytic for the cells. When used as a target, SKa-infected Meth A cells could detect HSV-specific cytotoxicity by spleen and lymph node lymphocytes of mice immunized with SKa and KOS. This system also detected effector cytotoxic lymphocytes stimulated in vitro by mixed cultures of immune spleen cells and KOS-infected Meth A cells. Thus, the system should be valuable in studies of cell-mediated cytotoxicity directed against HSV-infected cells.     

Natural killer cells as novel helpers in anti-herpes simplex virus immune response

Innate defenses help to eliminate infection, but some of them also play a major role in shaping the magnitude and efficacy of the adaptive immune response. With regard to influencing subsequent adaptive immunity, NK cells aided by dendritic cells may be the most relevant components of the innate reaction to herpes simplex virus (HSV) infection. We confirm that mice lacking or depleted of NK cells are susceptible to HSV-induced lesions. The quantity and quality of CD8(+) cytotoxic T lymphocytes generated in the absence of NK cells were diminished, thereby contributing to susceptibility to HSV-induced encephalitis. We demonstrate a novel helper role for NK cells, in that NK cells compensate for the loss of CD4 helper T cells and NK cell supplementation enhances the function of wild type anti-HSV CD8 T cells. In addition, NK cells were able to partially rescue the dysfunctional CD8(+) T cells generated in the absence of CD4 T helper cells, thereby performing a novel rescue function. Hence, NK cells may well be exploited for enhancing and rescuing the T-cell response in situations where the CD4 helper response is affected.     

Current status of natural products from plants as anti-herpes simplex virus 1 agents

Nucleoside analogues have been the mainstay of clinical treatment of herpes simplex virus 1 (HSV-1) infections since their development. However, the emergence of drug resistant strains has underlined the urgency of the discovery of novel anti-HSV-1 drugs. Natural products, which provided many novel drug leads, are known to be an important source of anti-HSV-1 agents. Herein, we present an overview of natural products with anti-HSV-1 activities isolated from a variety of plants reported in recent years. Several different compounds, mainly belonging to the three groups of polysaccharides, polyphenols and terpenes, showed antiviral effects against HSV-1, indicating their potential to be promising anti-HSV-1 agents.     

Synthesis and anti-herpes simplex viral activity of monoglycosyl diglycerides

Based on the discovery of antiviral beta-galactosyl diglycerides from Clinacanthus nutans leaves, 19 monoglycosyl diglycerides were synthesized and examined for inhibitory effect on herpes simplex virus types 1 and 2 (HSV-1, HSV-2). A study of the structure-activity relationships of the synthetic monoglycosyl diglycerides indicated that the fatty acyl moieties were critical for inhibitory action with higher activity displayed as the acyl groups became more olefinic in character. The sugar moiety was also important for anti-HSV action; however, the type of sugar (glucose or galactose) did not affect activity. The stereochemistry at C-2 of the glycerol backbone displayed no significant effect on anti-HSV activity. Among the compounds synthesized, 1,2-O-dilinolenoyl-3-O-beta-D-glucopyranosyl-sn-glycerol showed the highest inhibitory activity against HSV-1 and HSV-2 with IC50 values of 12.5+/-0.5 and 18.5+/-1.5 microg/ml, respectively.     

Glycosaminoglycans are not indispensable for the anti-herpes simplex virus type 2 activity of lactoferrin

Lactoferrin has been recognized as a potent inhibitor of human herpetic viruses, such as herpes simplex type 1 (HSV-1) and 2 (HSV-2). In particular, bovine lactoferrin (bLf) has been found to prevent viral infection by binding to heparan sulphate (HS) glycosaminoglycans (GAGs) that in turn can act as cell receptors for human herpetic viruses. In this study we further investigate the mechanism of inhibiting activity of both human lactoferrin (hLf) and bLf against HSV-2. The antiviral effect of these proteins towards HSV-2 strain 333 and its glycoprotein C (gC)-truncated derivative HSV-2 gC-neg1 has been tested in monkey kidney cells. Our results indicate that the antiviral activity of bLf does not involve gC-HS interaction as there was no difference in its effectiveness towards wild type and mutant virus. As regards hLf, the mutant virus HSV-2 gC-neg1 was more sensitive compared to the wild type, suggesting that the human protein might interact with some viral structures that in wild-type viruses are masked by gC. When the modulation of HSV-2 infection by bLf and hLf was investigated under different experimental conditions, the bovine protein proved more effective than the human protein. Moreover, we found that, differently from what observed with HSV-1, bLf inhibited HSV-2 plaque-forming activity also in cells devoid of GAG expression. These results suggest that bLf may block a virus receptor of non-GAG nature and add new information on the anti-herpes virus activity of this protein, confirming it as an outstanding candidate for the treatment of herpetic infections.     

Association between evolutionary history of angiotensinogen haplotypes and plasma levels

Over the last decade, considerable effort has been invested in studying the associations between angiotensinogen (AGT) variants, AGT plasma levels and high blood pressure. Evidence accumulated to date consistently supports the relationship between the AGT locus and the protein level, while an influence on blood pressure has been difficult to establish; in both instances the predisposing molecular variants are not fully defined. An evolutionary approach, taking into account the phylogenetic relationship between all the polymorphisms at this locus, may improve our understanding of the genetic nature of these quantitative phenotypes. Accordingly we sequenced a 6.8 kb region of the AGT gene in 57 Nigerian individuals (29 with high AGT plasma levels and 28 with low AGT plasma levels). Haplotypes were grouped into seven major haplogroups and their phylogenetic relationship was established. The association between haplogroups and AGT plasma levels was investigated. A significant linear correlation was detected between haplogroup genetic distance and AGT levels, suggesting a nonrandom accumulation of risk-associated mutations during the evolutionary history of the AGT gene.Ryk Ward has died since this article was written     

Association between the herpes simplex virus major DNA-binding protein and alkaline nuclease.

Herpes simplex virus encodes seven proteins which have been shown to be both necessary and sufficient for in vitro replication of origin-containing plasmids. We have shown previously that one of these proteins, the major DNA-binding protein mDBP, forms a complex with alkaline nuclease, which is not one of the seven essential proteins. In this study, we have employed immunological reagents and a series of deletion mutants to investigate this complex further. We have determined the regions of mDBP which are important in the formation of this complex, and we have shown that the intranuclear locations of alkaline nuclease and major DNA-binding protein overlap.     

Herpes simplex virus with highly reduced gD levels can efficiently enter and spread between human keratinocytes

The rapid spread of herpes simplex virus type 1 (HSV-1) in mucosal epithelia and neuronal tissue depends primarily on the ability of the virus to navigate within polarized cells and the tissues they constitute. To understand HSV entry and the spread of virus across cell junctions, we have previously characterized a human keratinocyte cell line, HaCaT. These cells appear to reflect cells infected in vivo more accurately than many of the cultured cells used to propagate HSV. HSV mutants lacking gE/gI are highly compromised in spread within epithelial and neuronal tissues and also show defects in cell-to-cell spread in HaCaT cells, but not in other, nonpolarized cells. HSV gD is normally considered absolutely essential for entry and cell-to-cell spread, both in cultured cells and in vivo. Here, an HSV-1 gD mutant virus, F-US6kan, was found to efficiently enter HaCaT cells and normal human keratinocytes and could spread from cell to cell without gD provided by complementing cells. By contrast, entry and spread into other cells, especially highly transformed cells commonly used to propagate HSV, were extremely inefficient. Further analyses of F-US6kan indicated that this mutant expressed extraordinarily low (1/500 wild-type) levels of gD. Neutralizing anti-gD monoclonal antibodies inhibited entry of F-US6kan, suggesting F-US6kan utilized this small amount of gD to enter cells. HaCaT cells expressed high levels of an HSV gD receptor, HveC, and entry of F-US6kan into HaCaT cells could also be inhibited with antibodies specific for HveC. Interestingly, anti-HveC antibodies were not fully able to inhibit entry of wild-type HSV-1 into HaCaT cells. These results help to uncover important properties of HSV and human keratinocytes. HSV, with exceedingly low levels of a crucial receptor-binding glycoprotein, can enter cells expressing high levels of receptor. In this case, surplus gD may be useful to avoid neutralization by anti-gD antibodies.     

Crystal structure of the B subunit of Escherichia coli heat-labile enterotoxin carrying peptides with anti-herpes simplex virus type 1 activity

Two chimeric proteins, consisting of the B subunit of Escherichia coli heat-labile enterotoxin with different peptides fused to the COOH-terminal ends, have been crystallized and their three-dimensional structure determined. The two extensions correspond to (a) a nonapeptide representing the COOH-terminal sequence of the small subunit of herpes simplex virus type 1 ribonucleotide reductase and (b) a 27-amino acid long peptide, corresponding to the COOH-terminal end of the catalytic subunit (POL) of DNA polymerase from the same virus. Both proteins crystallize in the P41212 space group with one pentameric molecule per asymmetric unit, corresponding to a solvent content of about 75%. The overall conformation of the B subunit pentamer in the two chimeric proteins, which consists of five identical polypeptide chains, is very similar to that in the native AB complex and conforms strictly to 5-fold symmetry. On the contrary, the peptide extensions are essentially disordered: in the case of the nonapeptide, only 5 and 6 amino acids were, respectively, positioned in two monomers, while in the other three only 2 residues are ordered. The extension is fully confined to the surface of the pentamer opposite to the face that interacts with the membrane and consequently it does not interfere with the ability of the B subunit to interact with membrane receptors. Moreover, the conformational flexibility of the two peptide extensions could be correlated to their propensity for proteolytic processing and consequent release of a biologically active molecule into cultured cells.     

The role of T cells in anti-herpes simplex virus immunity. I. Induction of antigen-specific cytotoxic T lymphocytes.

Mice infected with herpes simplex virus develop little or no cytotoxic T lymphocyte (CTL) response. However, in lymph nodes (LN's) draining a local site infected with HSV, antigen-specific CTL precursors are sensitized, which upon transfer to in vitro culture conditions develop within 72 hr into effective CTL. The in vivo blockade of CTL differentiation can be overcome by cyclophosphamide, suggesting that a cyclophosphamide-sensitive mechanism blocks the in vivo generation of HSV-immune CTL. The cytolytic activity of HSV-immune CTL is H-2 restricted and antigen specific. Thus CTL sensitized toward HSV type 1 discriminate between syngeneic targets infected with either the immunologic HSV variant type 1 or type 2 (and vice versa). H-2-matched target cells exposed for 30 min to infectious HSV are lysed within 60 min of contact with CTL. Since HSV replication is believed to require more than 4 to 5 hr, the data suggest that either the expression of HSV-dependent "early proteins" takes place within 30 to 90 min or cell membrane-integrated HSV virion represents the target antigen of CTL.     

Studies on the neutralization of herpes simplex virus. XI. Differences between slow-reacting complement-requiring neutralizing (s-CRN) antibodies in IgG and IgM

Late IgG and IgM from a rabbit immunized with herpes virus were tested for ordinary neutralizing (N) antibody, complement-requiring neutralizing (CRN) antibody and in addition CRN antibody detectable by overnight sensitization at 0 C (s-CRN antibody). Heat stability tests showed that IgG s-CRN antibody was slightly less resistant to heating at 70 C than were N and CRN antibodies, whereas all three activities of IgM were quickly degraded at this temperature. Dose-response curves with varying amounts of complement (C) or anti-antibody revealed a marked difference between IgG s-CRN and IgM s-CRN antibodies. While 1-hr sensitization at 37 C was insufficient to detect IgG s-CRN antibody, it had the same effect as overnight sensitization at 0 C for IgM s-CRN antibody. When sensitization at 0 C was prolonged to 3 days, unexpectedly high endpoints exceeding 1:10,000 were obtained even with IgM. consequently, enhancement by C was several hundred-fold with IgM in contrast to 5- to 10-fold enhancement of IgG s-CRN antibody, which was similar to that after overnight sensitization. Also IgM obviously required more C than did IgG. These results suggest that IgM of late serum is slower reacting and more C-dependent than IgG s-CRN antibody. Tests with early rabbit sera indicated that the s-CRN antibody detectable by 3-day sensitization reaches a high level before the appearance of N antibody.     

Association of plasma manganese levels with chronic renal failure

Manganese (Mn) is an essential trace element involved in the formation of bone and in amino acid, lipid and carbohydrate metabolism. Mn excess may be neurotoxic to humans, affecting specific areas of the central nervous system. However, relatively little is known about its physiological and/or toxicological effects, and very few data are available concerning the role of Mn in chronic renal failure (CRF). This paper describes a 12-month study of the evolution of plasma Mn levels in predialysis patients with CRF and the relationship with energy and macronutrient intake. The participants in this trial were 64 patients with CRF in predialysis and 62 healthy controls. Plasma levels of creatinine, urea, uric acid, total protein and Mn were measured. The glomerular filtration rate (GFR) was calculated using the Cockcroft-Gault index. The CRF patients had higher plasma levels of creatinine, urea, uric acid and Mn and a lower GFR than the controls. Plasma Mn was positively correlated with creatinine, plasma urea and plasma uric acid and was negatively correlated with the GFR and the intake of energy and macronutrients. In conclusion, CRF in predialysis patients is associated with increases in circulating levels of Mn.     

Metabolism of 9-(1,3-dihydroxy-2-propoxymethyl)guanine, a new anti-herpes virus compound, in herpes simplex virus-infected cells

The metabolism of 9-(1,3-dihydroxy-2-propoxymethyl)guanine (DHPG), one of the most promising new anti-herpes virus compounds, in HeLa cells infected with herpes simplex virus type 1 was compared with that in the uninfected HeLa cells. In the virus-infected cells, the uptake of DHPG was enhanced and the major metabolites were found to be the mono-, di-, and triphosphate derivatives. The formation of these metabolites was dependent on the extracellular concentration of DHPG (0.5 to 5.0 microM). Virus-induced thymidine kinase was capable of phosphorylating DHPG to its monophosphate which could be further phosphorylated to the di- and triphosphate derivatives by the host cellular enzymes. Incorporation of the DHPG into DNA was observed in virus-infected cells. In contrast with 9-(2-hydroxyethoxymethyl)guanine, DHPG seemed not to serve as a chain terminator, but to be incorporated internally into DNA strands.     

Association of plasma IgM with body size, histopathologic changes, and plasma chemistries in adult Pacific herring Clupea pallasi

Pacific herring Clupea pallasi immunoglobulin is an IgM-like molecule comprised of heavy and light chains with molecular weights of 79 and 25 to 27 kD, respectively. Purified immunoglobulin was used to generate highly specific polyclonal antibodies for development of a sandwich ELISA. The ELISA was used to quantify total plasma IgM in 602 Pacific herring captured in Prince William Sound and Sitka Sound, Alaska, USA. Plasma IgM concentrations ranged from 0.13 to 5.32 mg ml-1. Using multiple stepwise regression analysis, plasma IgM was highly correlated (p < or = 0.01) with body length, Ichthyophonus hoferi infection, plasma albumin, plasma cholesterol, liver macrophage aggregates, and focal skin reddening. I. hoferi was the only organism significantly associated with plasma IgM. Gender, site, and season (spring vs fall) did not contribute to significant differences in plasma IgM. This study contributes to the understanding of the interaction of body size, plasma chemistries, and pathological changes upon circulating immunoglobulins in fish.     

Defective production of anti-herpes simplex virus antibody by neonatal mice. Reconstitution with Ia+ macrophages and T helper lymphocytes from nonimmune adult syngeneic mice

Both neonatal humans and mice are exquisitely susceptible to severe HSV infection. We have now documented a profound defect in the ability of neonatal C57BL/6 mice to produce anti-HSV ADCC antibody. This ability is acquired over the first 2 to 4 wk of life. Reconstitution of neonatal mice by i.p. injection of peritoneal cells from adult nonimmune syngeneic mice both affords dose-dependent protection against lethal HSV infection and reconstitutes the antibody-production defect. By cell-separation techniques (adherence, nylon wool column purification, B cell panning) and cell ablation techniques (silica treatment, irradiation, anti-T cell, anti-Ia, anti-Lyt-1.2 and anti-Lyt-2.2 monoclonal antibodies plus complement treatment) the subpopulations involved in the antibody production reconstitution of neonatal mice by adult cells were identified. These include both an Ia+, radioresistant, adherent, silica-sensitive macrophage population and a nylon wool column-purified, radiosensitive, anti-T, anti-Lyt-1.2-sensitive helper T cell population. The latter cell may be substituted for by concanavalin A-stimulated lymphokine-containing spleen cell supernatants or human recombinant IL 2. In addition to reconstitution of ADCC antibody production, the same cell populations, or cells plus lymphokine-containing supernatants or IL 2, protected the newborn mice from lethal HSV infection. Further characterization of this system and of soluble replacement factors has implications for therapy or immunoprophylaxis of human neonates with, or at risk of, HSV infection.