Comparison of guinea pig cytomegalovirus and guinea pig herpes-like virus: growth characteristics and antigentic relationship

Species selective interaction of Alphaherpesvirinae with the "unspecific" immune system of the host

During evolution Herpesviridae have developed glycoproteins, which interact with essential components of the immune system. Besides immunoglobulin-binding proteins (= Fc-receptors), expressed by several members of the herpesfamily, the interaction with the complement system plays a role in the pathogenicity of herpes simplex virus. Here we report that the ability to interact with the third complement component (C3), the central mediator of complement activation, was also found among several animal alphaherpesviruses. This interaction appeared to be species-selective as the viral proteins preferentially bound to the C3 originated from the respective host. That could provide a possible explanation for the evolution of a variety of herpesviruses as the species tropism observed among Herpesviridae may be influenced by specific adaptation of protective virus-proteins to the immune system of the different hosts. The data have critical implications for the studies of virus host interactions in heterologous systems and support a role for the C3-binding proteins in pathogenesis. Since the C3-binding proteins are conserved among different herpesviruses they could serve as suitable subunit-vaccine candidates.

Animal cytomegaloviruses

Cytomegaloviruses are agents that infect a variety of animals. Human cytomegalovirus is associated with infections that may be inapparent or may result in severe body malformation. More recently, human cytomegalovirus infections have been recognized as causing severe complications in immunosuppressed individuals. In other animals, cytomegaloviruses are often associated with infections having relatively mild sequelae. Many of these sequelae parallel symptoms associated with human cytomegalovirus infections. Recent advances in biotechnology have permitted the study of many of the animal cytomegaloviruses in vitro. Consequently, animal cytomegaloviruses can be used as model systems for studying the pathogenesis, immunobiology, and molecular biology of cytomegalovirus-host and cytomegalovirus-cell interactions.

Cytomegalovirus infection in immunocompromised guinea pigs: a model for testing antiviral agents in vivo

An experimental model for testing antiviral agents against severe cytomegalovirus (CMV) infection in immunocompromised hosts was developed. The model consisted of cyclophosphamide (Cy) treatment of CMV-infected guinea pigs to simulate CMV infection in immunodeficient individuals. Of the 3 Cy regimens tested, a single 300 mg/kg dose administered one day after virus inoculation resulted in the most severe CMV infection considering mortality rates, mean day of death and loss of body weight. Evaluation of responses to both T and B cell mitogens suggested that the severe and lethal CMV infection resulted from the combined immunosuppressive effect of Cy and CMV. The nucleoside analog [9-(1-3-dihydroxy-2-propoxymethyl)guanine (DHPG) was used to assess the usefulness of the CMV-infected immunocompromised host model. DHPG (100 mg/kg/day for 8 days) prevented death but did not reduce virus infectivity titers in blood of Cy-treated, CMV-infected guinea pigs. This model of CMV infection in immunocompromised guinea pig is a relevant and convenient experimental tool for the assessment of candidate anti-CMV agents under well-defined experimental conditions, such as appropriate CMV inoculum and Cy regimen.

Enhanced in vitro reactivation of latent herpes simplex virus from neural and peripheral tissues with hexamethylenebisacetamide

We evaluated the effect of the demethylating agent hexamethylenebisacetamide on reactivation of latent herpes simplex virus type 2 (HSV-2) from guinea pig neural and extraneural tissues. Four explant cultures from the dorsal root ganglia of 42 latently infected guinea pigs and vaginal and cervical explant cultures from 33 animals were divided so that half received 5 mM of hexamethylenebisacetamide supplemented media and half media alone. HSV-2 was recovered earlier and from a greater percentage of treated cultures than controls. For example, seven days after explant, HSV-2 was recovered from 35 of 84 (42%) treated dorsal root ganglia cultures compared to seven of 84 control cultures (p less than 0.0001). Likewise, HSV-2 was recovered seven days after explant from 11 of 66 (17%) treated external genital skin cultures and 2 of 66 control cultures (p less than 0.009), Hexamethylenebisacetamide had no effect on productive HSV-2 infection in guinea pig dorsal root ganglia cultures. This study provides evidence for a role of demethylation in the reactivation of latent HSV from neural as well as peripheral tissues and suggests that latent virus exists at these sites in a similar state. Hexamethylenebisacetamide should be useful in studies of herpes virus latency because it decreases the time necessary to recover virus from latently infected tissues and enhances the recovery of virus.

Detection of guinea pig cytomegalovirus nucleic acids in cultured cells with biotin-labelled hybridization probes

Biotin labelled hybridization probes prepared from recombinant plasmids containing segments of the guinea pig cytomegalovirus (GPCMV) genome were used to detect GPCMV nucleic acids in guinea pig cells by in situ hybridization. The time course of GPCMV infection was assessed in two cultured cell types, guinea pig embryo (GPE) cells and 104C1 cells, a transformed and cloned guinea pig cell line. Detection of GPCMV nucleic acids was accomplished in both cell types with individual GPCMV DNA fragments and with mixtures of GPCMV DNA fragments. When compared to other established methods of GPCMV detection, the method of in situ hybridization enabled the detection of a higher percentage of positive cells early during the course of the infection. In addition, differences in the replication cycle of GPCMV in the two cultured cell lines could be demonstrated. These findings will facilitate future studies of GPCMV tissue tropism in vivo.

The placenta as a site of cytomegalovirus infection in guinea pigs

The development of cytomegalovirus (CMV) infection in the placenta was studied in Hartley guinea pigs inoculated at midgestation, and its role in determining the outcome of fetal CMV infection was assessed. A hematogenous spread of CMV from the mother to the placenta occurred early during the course of the infection. However, the virus remained present in placental tissues long after CMV had been cleared from maternal blood (i.e., 3 and 4 weeks postinoculation). At that time, the virus was able to replicate in placental tissues in the presence of specific maternal antibodies. Viral nucleocapsids were seen within nuclei of trophoblastic cells, and virions were present surrounding infected cells. In addition, typical CMV-induced histopathological lesions bearing CMV antigens were consistently localized at the transitional zone between the capillarized labyrinth and the noncapillarized interlobium. Whenever CMV infection of the fetus occurred, virus was isolated from the associated placenta. Among placental-fetal units with CMV-infected placentas, only 27% of the fetuses were found to be infected. In addition, there was a delay in the establishment of the infection in the fetus in relation to the placenta, although frequencies of virus isolation in placental and fetal tissues peaked at 3 weeks after CMV inoculation. These results suggest that during primary CMV infection of pregnant guinea pigs, the placenta not only serves as a reservoir for CMV but also acts to limit transmission of the virus to the fetus.

Hearing Loss in Experimental Cytomegalovirus Infection of the Guinea Pig Inner Ear: Prevention by Systemic Immunity

Guinea pig cytomegalovirus (GPCMV) has been used to establish a reproducible model of viral labyrinthitis and hearing loss. Cochlear function was assessed by electrophysiological recordings of cochlear microphonic (CM) and eighth nerve N1 compound action potential (AP) thresholds prior to and up to eight days following inoculation of the scala tympani. Inner ear inoculation of seronegative subjects with live GPCMV produced profound elevations in CM and AP thresholds: 70% of these subjects had their thresholds raised to the limits of the sound system throughout the tested frequency range of 0.10 to 32 kHz. Histopathologic effects associated with CM and AP threshold shifts were primarily limited to the perilabyrinthine compartment, and were greatest in the most basal cochlear turns. Systemic infection with GPCMV produced an immune response, but did not affect CM or AP thresholds. Subsequent inoculation of the inner ear of these seropositive animals with live GPCMV did not result in either CM or AP threshold shifts, or cochlear histopathology. Inoculations of inactivated virus into the inner ears of seronegative and seropositive animals produced only moderate CM and AP threshold effects. Primary GPCMV labyrinthitis thus results in significant cochlear dysfunction and histopathologic changes which are prevented by prior systemic infection with GPCMV.

Asynchronous depression of responses to T- and B-cell mitogens during acute infection with cytomegalovirus in the guinea pig

The nonspecific functional capacity of spleen cells, taken from female guinea pigs with primary acute cytomegalovirus (CMV) infection, was assessed using lipopolysaccharide (LPS), a B-cell mitogen, and concanavalin A (Con A), a T-cell mitogen. Proliferative responses to the two mitogens were found to be significantly depressed in animals inoculated with CMV as compared to control animals. The defect in Con A responsiveness occurred earlier during the course of the infection than the defect in LPS responses. Although responses to the mitogens were depressed at the time of peak virus activity in the spleen, the possibility of lytic destruction of the spleen cells by the virus during in vitro culture was excluded. In addition, the depression in Con A responsiveness was noted with a wide range of Con A concentrations, and preculture studies failed to result in enhanced reactivity of the cells from infected animals. We conclude that reductions of both B- and T-cell functions, which differ in their timing during the course of acute CMV infection, occur concurrently with an enhanced viral specific immune response in guinea pigs acutely infected with CMV.

Characterization of guinea pig cytomegalovirus DNA

The genome of guinea pig cytomegalovirus (GPCMV) was analyzed and compared with that of human cytomegalovirus (HCMV). GPCMV and HCMV DNAs were isolated from virions and further purified by CsCl centrifugation. Purified GPCMV DNA sedimented as a single peak in a neutral sucrose gradient and was infectious when transfected into guinea pig embryo fibroblast cells. The cytopathology was characteristic of that seen after infection with GPCMV. Virus DNA purified from virions isolated from infected GPEF or 104C1 cells had a CsCl buoyant density of 1.713 g/cm3, which corresponds to a guanine plus cytosine content of 54.1%. The CsCl buoyant density of GPCMV DNA was slightly less than that of HCMV DNA (1.716 g/cm3), but sufficiently different so that the two virus DNA peaks did not coincide. GPCMV DNA cosedimented with T4 DNA in a neutral sucrose gradient. Restriction endonuclease cleavage of GPCMV or HCMV DNAs with HindIII, XbaI, or EcoRI yielded fragments easily separable by agarose gel electrophoresis and ranging from 1.0 X 10(6) to 25.8 X 10(6) daltons. The number, size, and molarity of GPCMV DNA fragments generated by restriction enzymes were determined. Hybridization of restriction endonuclease-cleaved GPCMV DNA with radioactively labeled HCMV DNA and, conversely, hybridization of restriction endonuclease-cleaved HCMV DNA with radioactively labeled GPCMV DNA indicated sequence homology between the two virus DNAs.

Malignant transformation of guinea pig cells after exposure to ultraviolet-irradiated guinea pig cytomegalovirus

Guinea pig cells were malignantly transformed in vitro by ultraviolet (uv)-irradiated guinea pig cytomegalovirus (GPCMV). When guinea pig hepatocyte monolayers were infected with uv-irradiated GPCMV, three continuous epithelioid cell lines which grew in soft agarose were established. Two independently derived GPCMV-transformed liver cells and a cell line derived from a soft agarose clone of one of these lines induced invasive tumors when inoculated subcutaneously or intraperitoneally into nude mice. The tumors were sarcomas possibly derived from hepatic stroma or sinusoid. Transformed cell lines were also established after infection of guinea pig hepatocyte monolayers with human cytomegalovirus (HCMV) or simian virus 40 (SV40). These cell lines also formed colonies in soft agarose and induced sarcomas in nude mice. It is concluded that (i) GPCMV can malignantly transform guinea pig cells; (ii) cloning of GPCMV-transformed cells in soft agarose produced cells that induced tumors with a shorter latency period but with no alteration in growth rate or final tumor size; and (iii) the tumors produced by GPCMV-and HCMV-transformed guinea pig cells were more similar to each other in growth rate than to those induced by SV40-transformed guinea pig cells.

Isolation of a cytomegalovirus-like agent from wild rats

In 8 of 10 wild rats trapped in The Netherlands, an infectious viruslike agent was isolated predominantly from the salivary glands and could be serially passed in laboratory rats. In rat embryo cells a typical cytomegalo-like cytopathic effect was produced. The morphologic and cultural characteristics of the isolated agent were comparable with those of the mouse cytomegalovirus (MCMV). The virus-nucleocapsid had a size of 92 nm and was not ether-resistant. The extracellular nucleocapsids were often enclosed by an outer layer of very variable shape and size. The formation of Fc receptors on cells infected with the rat virus could be demonstrated. The wild rats possessed neutralizing antibodies to the isolated agent. The rat agent grew only in rat embryo fibroblast cells while MCMV grew in rat and mouse embryo cells. The rat agent gave plaques in REF monolayers. Electron microscope studies showed the presence of nucleocapsids in the nucleus.

Cytomegalovirus-induced mononucleosis in guinea pigs

The effects of cytomegalovirus (CMV) infection on hematopoietic and lymphoid tissues were studied in guinea pigs. Blood parameters, histopathology, and virus distribution in the bone marrow, spleen, lymph nodes, and thymus were assessed during primary nonlethal acute and chronic guinea pig CMV infection. Transient hematological changes comparable to those seen in human CMV mononucleosis were observed during acute infection. These included anemia and leukocytosis with atypical lymphocytes. Splenomegaly and stimulation of spleen and lymph node T- and B-cell areas were also noted. These changes occurred at the peak of virus recovery from all tissues tested, as well as from macrophages and B- and T- cell-enriched spleen subpopulations. Virus was cleared rapidly from blood and bone marrow; blood counts, spleen size, and histology returned to normal within 1 month after virus inoculation. However, guinea pigs failed to eliminate the virus completely from lymphoid tissues, since virus persisted in splenic macrophage and B-lymphocyte-enriched populations during chronic infection. The data suggest that CMV-infected mononuclear cells play a role in the establishment of generalized acute infection and virus persistence.

Immunity to herpes simplex virus type 2: cell-mediated immunity in latently infected guinea pigs

Cell-mediated (CMI) and humoral immunity to herpes simplex virus type 2 (HSV-2) were evaluated in infected strain 13/N guinea pigs with (45%) and without a history of recurrent herpetic disease. Virus was isolated by cocultivation from active herpetic lesions (9 of 10) as well as from the footpads (17 of 38), sacral ganglia (7 of 21), and sciatic nerves (1 of 21) of asymptomatic animals. Viral isolates grew in cells of human origin and were neutralized by hyperimmune anti HSV-2 sera. Humoral immunity measured by the presence of virus-neutralizing antibody was similar in both experimental groups. The involvement of CMI in recurrent disease was assessed by comparing lymphocyte transformation (LT) and leukocyte migration inhibition factor (LIF) responses in animals with a history of recurrent disease studied while asymptomatic (quiescent) and in animals without clinical evidence of recurrent disease (seropositive controls). Spleen cells from quiescent animals evidenced significant impairment of both LIF and LT responses as reflected in the requirement of higher antigen concentrations (up to 58-fold) and longer in vitro culture periods (up to 2.5 days) to mount responses comparable in magnitude to those observed in the seropositive control groups. Peripheral blood lymphocyte cultures obtained from quiescent animals showed similar impairment of LIF responses but displayed intact LT response. The data suggest that recurrent disease is associated with an impairment in the generation of anamnestic effector functions as reflected by altered kinetics and dose response patterns in in vitro secondary responses.

New endogenous herpesvirus of guinea pigs: biological and molecular characterization

Two known guinea pig herpesviruses, guinea pig cytomegalovirus (GPCMV) and guinea pig herpes-like virus (GPHLV), and well characterized. A third herpesvirus (GPXV) was originally isolated from leukocytes of healthy strain 2 guinea pigs. Growth of GPXV in guinea pig embryo fibroblastic cells produced a characteristic cytopathic effect. Electron microscopy of guinea pig cells infected with GPXV revealed the morphological development of a herpesvirus. Cross-neutralization tests and immunoferritin electron microscopy demonstrated that GPXV, GPCMV, and GPHLV were serologically distinct herpeviruses of guinea pigs. To confirm the distinction between these three herpesviruses, DNA genomes were compared by CsCl equilibrium buoyant density measurements and restriction endonuclease cleavage analysis. 32P-labeled viral DNA ws obtained from nucleocapsids isolated from virus-infected cells, and the buoyant density of GPXV DNA differed from that of GPCMV and GPHLV. Cleavage of viral DNAs with restriction endonucleases followed by gel electrophoresis revealed distinct patterns for each virus.

Viruses of guinea pigs: considerations for biomedical research

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Expression of herpesvirus in adherent cells derived from bone marrow of latently infected guinea pigs

The role of bone marrow adherent cells in the latency of guinea pig herpes-like virus (GPHLV) was explored. Cultures of macrophage-enriched adherent cells derived from infected guinea pigs were examined for evidence of latent GPHLV infection. Expression of the virus was detected in these cultures 9 to 10 days after in vitro cultivation. Increasing virus infectivity titers as well as light and electron microscopic evidence of virion assembly in macrophages and fibroblasts were demonstrated. Infections virus was detected in the bone marrow adherent cells that had attached for 30 or 120 minutes but only following reverse cocultivation. The data showed not only that the bone marrow adherent cells were susceptible to GPHLV in vitro but also that GPHLV was harbored by the macrophage-enriched bone marrow population in vivo in latently infected guinea pigs.

Comparison of guinea pig cytomegalovirus and guinea pig herpes-like virus: pathogenesis and persistence in experimentally infected animals

The pathogenesis of guinea pig cytomegalovirus (GPCMV) and guinea pig herpes-like virus (GPHLV) in guinea pigs was compared. Animals were inoculated with the two viruses by different routes and sacrificed after varying periods of time. GPCMV was consistently isolated from salivary gland 2 weeks postinoculation and thereafter following intraperitoneal or subcutaneous incoulaton. Virus was less frequently found in other tissues including blood, spleen, and kidney. Intranuclear inclusions were seen in tissue sections of salivary gland after inoculation with GPCMV- infected tissue suspension, but were only rarely found after inoculation with tissue culture virus. In GPHLV-infected guinea pigs, consistent latent infection of leukocytes and other tissues was detected by cocultivation techniques. Intranuclear inclusions were not found in the spleen, salivary gland, or other infected tissues after GPHLV infection with either tissue culture virus or infected tissue suspension. Guinea pigs inoculated with GPCMV produced high titers of specific neutralizing antibody to the homologous virus; those inoculated with GPHLV developed long-term viremia accompanied by minimal neutralizing antibody levels to the virus.