Crossed immunoelectrophoretic studies of the solubility immunogenicity of herpes simplex virus antigens.

The nonionic detergent Triton X-100 was capable of solubilizing 90% of the protein content in herpes simplex virus (HSV)-infected rabbit cornea cells. The solubilized HSV antigens formed well-characterized precipitates by crossed immunoelectrophoresis in Triton X-100-containing agarose gel, allowing both identification and relative quantitation. Water-soluble and detergent-requiring HSV antigens were identified by different solubilization procedures in buffer with and without detergent. Five glycoprotein antigens were solubilized only in the presence of detergent, indicating their membrane-bound state. One non-glycosylated antigen was present in both a water-soluble and a membrane-bound form. Based upon the crossed immunoelectrophoretic precipitating patterns of Triton X-100-solubilized HSV antigens, it has been estimated that infected cells yield an amount of virus-specific protein equivalent to 2,000 enveloped virions per cell. Rabbits inoculated intracutaneously with Triton X-100-solubilized HSV antigens developed neutralizing antibodies against HSV almost as effectively as rabbits with an active HSV infection. Precipitins against individual HSV antigens in sera from rabbits infected with HSV and immunized with the Triton X-100-solubilized HSV antigens were assayed by the crossed immunoelectrophoretic technique. Sera from infected rabbits reacted more strongly and with a higher number of HSV antigens than sera from immunized rabbits.     

Persistence of herpes simplex virus type 1 in rat neurotumor cells.

Herpes simplex virus type 1 (HSV-1) infection of a rat central nervous system tumor cell line led to almost complete destruction of the cells. Cells that survived the infection could be isolated and shown to produce infectious HSV particles for variable lengths of time in culture ranging from 20 to 57 passages. Even though infectious virus production eventually ceased, the cell lines continued to produce herpes-specified proteins as measured by immunological techniques. These cells also showed herpesvirus-like structures in the electron microscope. The persistently infected cells that produced HSV antigens and bore HSV sequences were resistant to superinfection by HSV-1. The resistance was not due to failure of adsorption of the virus or to the production of interferon by the cells. The nature of the block in HSV replication in these neurotumor cells, which contain and partially express the HSV genome, is unknown, but may offer an interesting parallel to the known latency of HSV in neural tissues.     

Lymphocyte stimulation by herpes simplex virus (HSV) antigens. 1. Culture conditions, cell fractionation and presentation of HSV antigens.

Optimal culture conditions for rabbit lymphocytes were established. Inclusion of 2-mercaptoethanol in the medium greatly enhanced responses. Lymphocytes from the blood of HSV-immunized rabbits responded specifically in vitro to heat-killed (56 degree, 60 min) or UV-inactivated HSV preparations. A UV dose of 13,392 ergs/mm2 was the most suitable inactivating dose. Oral intramucosal injection was the most effective way of generating blood lymphocyte responses to HSV, but animals immunized in tradermally or in tramuscularly with HSV in Freund's adjuvant also produced antigen-reactive cells after five or more immunizations. There were differences in the shape of the dose-response curves to various HSV1 mutants which were probably due to differences in the production of "stimulatory" and inhibitory antigens. Appreciable lymphocyte stimulation could be obtained with tissue culture fluid and enveloped virus antigens. Lymphocytes from HSV1-immune animals were also responsive to HSV2 antigens.     

Protection of neonatal mice against herpes simplex virus infection: probable in vivo antibody-dependent cellular cytotoxicity

Infant mice are extremely susceptible to fatal Herpes simplex virus (HSV) infection. They are unable to produce antibody to HSV, and their leukocytes cannot mediate antibody-dependent cellular cytotoxicity (ADCC) to HSV-infected cells. In order to avoid H-2-dependent effector mechanisms and instead analyze possible in vivo ADCC, a murine model employing adoptive transfer of antibody and human leukocytes was developed. Administration of either human immune globulin or leukocytes i.p. from HSV immune or nonimmune humans could not protect infant C57BL/6 mice from fatal HSV infection. In contrast, a combination of a subneutralizing dilution of globulin and leukocytes from nonimmune or immune human donors, given one day before inoculation, was highly protective against lethal HSV infection. The cells involved included lymphocytes or monocyte-macrophages. At least 5 X 10(6) viable leukocytes (or 1 X 10(6) monocyte-macrophages) and immune serum globulin concentrations as low as 10(-8) were protective. Infected cell monolayer adsorption and DEAE column fractionation demonstrated that the protection by globulin was due to specific antiviral IgG antibody. Protection was n ot seen in animals receiving virus before immune transfer. Protection did not involve synergistic viral neutralization by antibody and cells, as shown by in vitro experiments. Animals receiving globulin and cells, unlike normal infant mice, had circulating antiviral antibody and peritoneal leukocytes able to mediate ADCC to HSV-infected cells. This is the first in vivo evidence for the role of human ADCC. This model also allows for the in vivo evaluation of the ability of cells from immunocompromised humans to curb viral infection.     

The relationship of polyoma virus-induced tumor (T) antigen to activation of DNA synthesis in rat myotubes

Rat myotubes infected with polyoma virus (PV) introduced into the multinucleated cells by virus-bearing myoblasts at the time of cell fusion incorporate ³H-TdR and exhibit mitotic-type figures. The infected myotubes also produce a viral-specific nuclear antigen, tumor (T) antigen, which appears in groups of adjacent nuclei or in all nuclei of the myotubes. The proportion of myotubes which synthesize DNA, T-antigen and exhibit mitotic-type figures is related to the multiplicity of virus infection.Intact myotubes which are resistant to infection with PV by virus absorption can be infected by microinjection of the virus into the cells. Myotubes thus infected produce T-antigen which appears in multiple nuclei, but do not incorporate ³H-TdR or contain mitotic-type figures. The data suggest that the resistance of myotubes to infection with PV might be due to a change in the cell surface membrane during differentiation so that virus cannot penetrate the cell. The T-antigen apparently has no bearing on the activation of the DNA-synthesizing apparatus in multinucleated muscle cells.     

Concanavalin A is mitogenic for resident peritoneal macrophages

Con A, a known T-cell mitogen, is also mitogenic for resident peritoneal macrophages. The stimulated cells morphologically resemble macrophages and are actively phagocytic. The concentration of con A (30 micrograms/ml) required to stimulate 3H-TdR incorporation is ten times that required for T-cell activation. Con A must be present throughout the entire culture period to produce the maximum effect, and con A-depleted supernatant fluids from con A-stimulated cells cannot replace the con A requirement. Stimulation of 3H-TdR incorporation occurs after a 48-hour lag period and is maximal on the fifth to seventh day of culture. At the peak of the response, 20-30% of the macrophages can be stimulated to incorporate 3H-TdR, but little or no increase in the total number of cells present in the culture occurs. This and pulse-chase experiments indicate that only a single cycle of replication occurs in the stimulated cells. Con A-responsive peritoneal macrophages appear to be a distinct subpopulation and might play a different role in the interaction with T cells and B cells in the immune response than the con A-non-responsive cells.     

Comparative studies on the inhibitory effects of interferon on various strains of herpes simplex viruses in vitro

The sensitivities to human leukocyte interferon of 10 strains of Herpes simplex virus (HSV) type 1 and 3 strains of type 2 were compared. All the strains were sensitive to interferon, although their sensitivities were less than that of vesicular stomatitis virus (VSV). There was no significant difference in the sensitivities to interferon of HSV type 1 and type-2 or among different strains of a given type of HSV. Nor was there any difference between the sensitivities of 5-iodo-2'-deoxyuridine (IDU)-sensitive and resistant strains isolated from the same patients. These results suggest that interferon should be useful in therapy of HSV infection.     

Replication of herpes simplex virus and cytomegalovirus in human leukocytes.

Human peripheral blood leukocytes, lymphocyte subpopulations, and hemic cell lines were examined for their ability to supprot HSV and CMV replication. Mitogen-stimulated mononuclear leukocytes, B lymphocytes, and T lymphcytes supported the replication of HSV to high titers over 3 to 5 days of infection. HSV replicated in unstimulated mononuclear leukocyte cultures of one of five donors, and to a limited degree in untreated B lymphocytes of three of five donors; HSV replication was not detected in unstimulated T lymphocytes (five donors). There was no evidence of enhanced uptake of 3H-thymidine in the untreated donor cells that replicated HSV. CMV replication was not detected during 9 to 10 days of infection in untreated or mitogen-treated mononuclear leukocytes and lymphocyte subpopulations from the same adult donors or in neonatal cord blood leukocytes. The ability of the cells to support HSV or CMV replication did not correlate with the presence of specific antiviral antibodies in the donor serum. HSV replication in B, T, and myeloid cell lines to high titers over 5 days of infection, whereas CMV failed to replicate in any of the hemic cell lines. A persistent HSV infection has been established in a T cell line (CEM) with high titers of infectious virus being produced concurrently with growth of the cells over the first 11 weeks of infection.     

Patterns of [3H] thymidine incorporation differ in immature rats and mature, cycling rats

By the time follicular development has progressed to the preovulatory stage, granulosa cells abutting the basement membrane no longer incorporate [3H] thymidine (3H-TdR). The purpose of this experiment was to determine when, during the course of follicular growth, cell proliferation in these mural granulosa cells ceases. Autoradiographs were prepared following continuous 3H-TdR infusion in vivo, or incubation with 3H-TdR in vitro. In cycling rats, the concentration of silver grains over mural regions of the granulosa layer was lower than over antral regions of most follicles with greater than 1000 cells in the largest cross section (LCS). This centripetal labeling pattern became more striking as follicular size increased. By proestrus, only the cells of the discus proligerus (cumulus and the portion of the follicular wall supporting the cumulus oocyte complex) continued to incorporate 3H-TdR. In contrast to cycling rats, centripetal labeling patterns were not seen in ovaries of prepubertal rats, even in follicles of the same size. The difference in follicular growth patterns between these two types of animals suggests an influence of cyclic gonadotropin surges on the control of granulosa cell proliferation.     

Differential Reliance on Autophagy for Protection from HSV Encephalitis between Newborns and Adults

Newborns are more susceptible to severe disease from infection than adults, with maturation of immune responses implicated as a major factor. The type I interferon response delays mortality and limits viral replication in adult mice in a model of herpes simplex virus (HSV) encephalitis. We found that intact type I interferon signaling did not control HSV disease in the neonatal brain. However, the multifunctional HSV protein γ34.5 involved in countering type I interferon responses was important for virulence in the brain in both age groups. To investigate this observation further, we studied a specific function of γ34.5 which contributes to HSV pathogenesis in the adult brain, inhibition of the cellular process of autophagy. Surprisingly, we found that the beclin binding domain of γ34.5 responsible for inhibiting autophagy was dispensable for HSV disease in the neonatal brain, as infection of newborns with the deletion mutant decreased time to mortality compared to the rescue virus. Additionally, a functional beclin binding domain in HSV γ34.5 did not effectively inhibit autophagy in the neonate, unlike in the adult. Type I IFN responses promote autophagy in adult, a finding we confirmed in the adult brain after HSV infection; however, in the newborn brain we observed that autophagy was activated through a type I IFN-independent mechanism. Furthermore, autophagy in the wild-type neonatal mouse was associated with increased apoptosis in infected regions of the brain. Observations in the mouse model were consistent with those in a human case of neonatal HSV encephalitis. Our findings reveal age-dependent differences in autophagy for protection from HSV encephalitis, indicating developmental differences in induction and regulation of this innate defense mechanism after HSV infection in the neonatal brain.     

Requirements for the induction of interleukin-6 by herpes simplex virus-infected leukocytes

Cytokines play important roles in the clearance of herpes simplex virus (HSV) infections and in virus-induced immunopathology. One cytokine known to contribute to resistance against HSV is interleukin-6 (IL-6). Here we have investigated virus-cell interactions responsible for IL-6 induction by HSV in leukocytes. Both HSV type 1 and type 2 are potent inducers of IL-6, and this phenomenon is augmented in the presence of gamma interferon. The ability to induce IL-6 is dependent on de novo protein synthesis and is sensitive to UV irradiation of the virus. Virus mutants lacking the virion-transactivating protein VP16 or any of the immediate-early proteins ICP0, ICP4, or ICP27 displayed unaltered capacities to induce IL-6. However, wild-type virus was unable to induce IL-6 in a macrophage cell line overexpressing a mutant of double-stranded RNA-activated protein kinase (PKR). This suggests a role for PKR in HSV-induced IL-6 expression. HSV infection led to enhanced binding to the kappaB, CRE, and AP-1 sites of the IL-6 promoter, and inhibitors against NF-kappaB and the p38 kinase strongly reduced accumulation of IL-6 mRNA in infected cells. Moreover, macrophage cell lines expressing dominant negative mutants of IkappaBalpha and p38 responded to HSV-1 infection with reduced IL-6 expression compared to the control-vector-transfected cell line. The results show that induction of IL-6 by HSV in leukocytes is dependent on PKR and cellular signaling through NF-kappaB and a p38-dependent pathway.     

Herpes simplex virus type 1 DNA is immunostimulatory in vitro and in vivo

Recently, prokaryotic DNAs containing unmethylated CpG motifs have been shown to be intrinsically immunostimulatory both in vitro and in vivo, tending to promote Th1-like responses. In contrast, CpG dinucleotides in mammalian DNAs are extensively methylated on cytosines and hence immunologically inert. Since the herpes simplex virus (HSV) genome is unmethylated and G+C rich, we predicted that CpG motifs would be highly prevalent in the HSV genome; hence, we examined the immunostimulatory potential of purified HSV DNA in vitro and in vivo. Mouse splenocyte cultures treated with HSV DNA or HSV-derived oligodeoxyribonucleotides (ODNs) showed strong proliferative responses and production of inflammatory cytokines (gamma interferon [IFN-γ], tumor necrosis factor [TNF], and interleukin-6 [IL-6]) in vitro, whereas splenocytes treated with mammalian CV-1 DNA or non-CpG ODN did not. After immunization with ovalbumin (OVA), only splenocytes from mice immunized with HSV DNA or HSV-ODN as the adjuvants proliferated strongly and produced typical Th1 responses, including CD8⁺ cytotoxic T-lymphocyte responses, upon restimulation with OVA. Furthermore, HSV-ODN synergized with IFN-γ to induce nitric oxide (NO), IL-6, and TNF production from macrophages. These results demonstrate that HSV DNA and HSV-ODN are immunostimulatory, driving potent Th1 responses both in vitro and in vivo. Considering that HSV DNA has been found to persist in nonneuronal cells, these results fuel speculation that HSV DNA might play a role in pathogenesis, in particular, in diseases like herpes stromal keratitis (HSK) that involve chronic inflammatory responses in the absence of virus or viral antigens.     

Distinct Upstream Role of Type I IFN Signaling in Hematopoietic Stem Cell-Derived and Epithelial Resident Cells for Concerted Recruitment of Ly-6Chi Monocytes and NK Cells via CCL2-CCL3 Cascade

Type I interferon (IFN-I)-dependent orchestrated mobilization of innate cells in inflamed tissues is believed to play a critical role in controlling replication and CNS-invasion of herpes simplex virus (HSV). However, the crucial regulators and cell populations that are affected by IFN-I to establish the early environment of innate cells in HSV-infected mucosal tissues are largely unknown. Here, we found that IFN-I signaling promoted the differentiation of CCL2-producing Ly-6C^hi monocytes and IFN-γ/granzyme B-producing NK cells, whereas deficiency of IFN-I signaling induced Ly-6C^lo monocytes producing CXCL1 and CXCL2. More interestingly, recruitment of Ly-6C^hi monocytes preceded that of NK cells with the levels peaked at 24 h post-infection in IFN-I–dependent manner, which was kinetically associated with the CCL2-CCL3 cascade response. Early Ly-6C^hi monocyte recruitment was governed by CCL2 produced from hematopoietic stem cell (HSC)-derived leukocytes, whereas NK cell recruitment predominantly depended on CC chemokines produced by resident epithelial cells. Also, IFN-I signaling in HSC-derived leukocytes appeared to suppress Ly-6G^hi neutrophil recruitment to ameliorate immunopathology. Finally, tissue resident CD11b^hiF4/80^hi macrophages and CD11c^hiEpCAM⁺ dendritic cells appeared to produce initial CCL2 for migration-based self-amplification of early infiltrated Ly-6C^hi monocytes upon stimulation by IFN-I produced from infected epithelial cells. Ultimately, these results decipher a detailed IFN-I–dependent pathway that establishes orchestrated mobilization of Ly-6C^hi monocytes and NK cells through CCL2-CCL3 cascade response of HSC-derived leukocytes and epithelium-resident cells. Therefore, this cascade response of resident–to-hematopoietic–to-resident cells that drives cytokine–to-chemokine–to-cytokine production to recruit orchestrated innate cells is critical for attenuation of HSV replication in inflamed tissues.     

Transfer of osteosarcoma-specific cell-mediated immunity in hamsters by rabbit dialyzable leukocyte extracts

We have investigated the transfer of specific cell-mediated immunity (CMI) to osteosarcoma-associated antigens (OSAA) to hamsters with dialyzable leukocyte extracts (DLE) from OSAA-immunized rabbits. The transfer of specific CMI was determined by leukocyte adherence inhibition (LAI) assay and skin testing. DLE was prepared from rabbits immunized with OSAA, purified protein derivative (PPD), or fibrosarcoma cell plasma membrane preparation (FSM). Control DLE was prepared from rabbits injected with 0.85% NaCl. Significant leukocyte adherence inhibition was observed with leukocytes from hamsters that had received OSAA-specific, PPD-specific, and FSM-specific rabbit DLE, when OSAA, PPD, and FSM were used as antigens, respectively. Similarly, significant ear swelling after injection of OSAA, PPD, or FSM was observed only in hamsters that had received DLE from rabbits immunized with OSAA, PPD, or FSM, respectively. These results suggest that CMI specific for OSAA, PPD, or FSM can be transferred to normal hamsters by DLE from immunized rabbits.     

Interferon Production by Human Cells In Vitro

The relative capacity of several types of human cells and tissue to produce interferon was studied. Types of cells and tissue included were fibroblasts from embryos, foreskins, and biopsied skins; amnion cells; peripheral leukocytes; established lymphoid cell lines; established heteroploid cell lines; and chorioamniotic membrane. When Newcastle disease virus was used as the inducer, fibroblasts and amnion cells produced more interferon per 10⁶ cells than leukocytes, lymphoid cells, and heteroploid cells. Only minor variations in interferon-producing capacity were observed among fibroblasts from 36 persons. Culture passage level, cell concentration, and inducer were factors that significantly affected interferon production.     

Virus replication and high-titered interferon production in human leukocyte cultures inoculated with Newcastle disease virus

Wheelock, Frederick E. (Western Reserve University, Cleveland, Ohio). Virus replication and high-titered interferon production in human leukocyte cultures inoculated with Newcastle disease virus. J. Bacteriol. 92:1415-1421. 1966.-High titers of interferon (20,480 culture-protecting units per ml) are produced in freshly prepared human leukocyte cultures inoculated with a Newcastle disease virus (NDV)-cell multiplicity of 1:1. NDV replicates to low titers in these cultures. Incubation of leukocytes at 37 C for 24 hr prior to inoculation of NDV results in almost complete loss of detectable interferon production, but virus replicates to higher titers than in the freshly prepared cultures. In contrast, no diminution of interferon production in response to phytohemagglutinin (PHA) occurs on 24 hr of incubation of cultures prior to addition of PHA. Experiments with cultures of predominantly pure cell fractions of peripheral blood indicate that the lymphocyte fraction produces interferon in response to either NDV or PHA, and that polymorphonuclear leukocytes produce no interferon in response to these agents. These studies suggest a hitherto unsuspected ability of human lymphocytes to produce high titers of interferon in vivo.     

Characterization of RNA synthesized in isolated nuclei of herpes simplex virus type 1-infected KB cells.

Nuclei isolated from herpes simplex virus (HSV)-infected KB cells actively synthesize HSV RNA in vitro; the RNA can be hybridized with HSV DNA or nuclear RNA from HSV-infected cells. Nascent RNA molecules labeled in vivo with 32PO4 were elongated, utilizing the nuclear system to incorporate Hg-CTP at their 3' ends, and then isolated on an affinity column. Hybridization of isolated nascent RNA molecules showed that greater than 50% of them were HSV specific and that more than 25% were self-complementary.     

Nature of leukemia-associated antigenicity of dinitrophenylated human lymphocytes and lymphoblasts

Using dinitrophenylated human lymphocytes and phytohaemagglutinin-stimulated human lymphoblasts as antigens, antibodies were produced in rabbits. The immunological reactivities of the antisera so produced were tested against various types of leukemic cells after absorbing the sera with pooled normal leukocytes. Both the sera showed reactivity with all types of leukemic cells and no specific affinity for lymphoid leukemic cells was seen. This may suggest the presence of some common antigens on all types of leukemic cells or that dinitrophenylation brings about similar changes on all types of normal leukocytes.     

Anti-CeHV1 antibodies of two cynomolgus macaques cross-react with HSV2 but not HSV1 antigens in ELISA

BACKGROUND: The aim of the study was to compare the cross-reactivity of macaque anti-CeHV1 antibodies with type 1 and type 2 human herpes simplex viruses (HSV1 and HSV2). METHODS: We studied the serum of 344 animals which had been tested either positive (n = 39) or negative (n = 305) for the presence of CeHV1 antibodies by expert laboratories. Macaque serums were studied by means of two ELISA: one based on HSV1 antigen-coated wells, the other on polystyrene beads coated with HSV1 and HSV2 antigens in approximately equal proportions. RESULTS: In the serum of two animals originating from Vietnam, we found anti-CeHV1 antibodies cross-reacting with HSV2 but not with HSV1 antigens. For the serum with the highest titer, inhibition by soluble antigens confirmed the high affinity of the antibodies for HSV2 antigens. CONCLUSIONS: Tests using HSV1 and HSV2 in a combined way are better suited to macaque screening than tests using only HSV1 antigens.