Oncornavirus of guinea pigs : I. Morphology and distribution in normal and leukemic guinea pig cells

Two morphologically distinct types of oncornavirus particles were observed in guinea pig cells. In tissues of leukemic guinea pigs, intracisternal A-type particles 90–100-nm diameter, predominated. Extracellular particles with dense core, approximately 90–110 nm in diameter, were seen only occasionally at the intercellular space of the tissues, but were predominant in plasma and sera of the same animals. Placental and fetal tissues obtained from normal guinea pigs showed only intracisternal A-type particles. Cultured guinea pig cells when treated with BrdU revealed many intracytoplasmic A-type particles 90–100-nm diameter. Budding of these A-type particles at the cell membrane to form extracellular enveloped A-type particles was observed. Extracellular virus particles with dense cores, 110–120 nm in diameter, similar to those seen in tissues and plasma of leukemic guinea pigs, were abundant in the BrdU-treated cultures. The morphology and distribution of the intracellular and extracellular virus particles in tissues and tissue cultures derived from leukemic and normal guinea pigs are compared, and the relationships between these virus particles are discussed.     

Ultrastructural studies of the envelopment and release of guinea pig herpes-like virus in cultured cells

The process of envelopment and release of guinea pig herpes-like virus was examined in both infected guinea pig kidney and thymus tissue culture cells by electron microscopy. The majority of the nucleocapsids were enveloped by budding into nuclear vacuoles; some were enveloped by budding from the inner nuclear membrane. Budding into cytoplasmic vacuoles was also seen. Many enveloped virus particles inside the nuclear vacuoles were pear shaped with a tail-like structure. Approximately 23% of pear-shaped virus particles were seen in the infected thymus fibroblastic cells, but only 6% were found in the infected epithelial cells. The envelopes of all nuclear enveloped virus particles appeared as smooth membranes, while the majority of particles exhibiting fuzzy and thick dense envelopes were seen in the cytoplasm or extracellular space. The average diameter of the cytoplasmic or extracellular enveloped virus particles was approximately 167 nm, and the average diameter of the nuclear enveloped virus particles was about 146 nm.Data also showed that mature nuclear virus particles were first released into perinuclear cisterna and then traveled through cytoplasmic channels to the extracellular space.     

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

The growth characteristics of guinea pig cytomegalovirus (GPCMV) and guinea pig herpes-like virus (GPHLV) in cell cultures were compared. Guinea pig fibroblast cells were highly susceptible to infection with both viruses, whereas guinea pig kidney cells were sensitive only to GPHLV. No cytopathic effect was observed in the latter cell system after infection with GPCMV,nor was there an increase in virus titer, although the cirus persisted in the kidney cells for 2 to 3 weeks postinfection. Electron microscope studies showed nonvirion tubular structures in GPCMV -infected fibroblast cells, but not in GPHLV- infected cells. Large packages of enveloped nuclear virus particles were commonly seen in GPHLV -infected cells, especially kidney epithelial cells, but none were found in the GPCMV -infected fibroblasts. Complete enveloped extracellular virus particles were present in both virus-cell systems. Both viruses showed narrow host spectra and replicated well only in guinea pig cells although GPHLV multiplied to some degree in rabbit cells. No antigenic relationship could be demonstrated between the two viruses using antisera specific for each virus that was produced in rabbits and guinea pigs. Rabbits produced high neutralizing antibody titers to GPHLV, whereas guinea pigs were the animals of choice for GPCMV antiserum production.     

Histopathologic and ultrastructural studies of disseminated cytomegalovirus infection in strain 2 guinea pigs

Inbred strain 2 guinea pigs developed severe disseminated disease during acute experimental guinea pig cytomegalovirus (GPCMV) infection. A high mortality rate (100%) resulted, with most animals dying between 10 and 14 days after high dose (7.5 X 10(5) TCID50) virus inoculation. Infectious virus was recovered from many tissues, including spleen, lungs, liver, pancreas, heart, adrenals, kidneys, and salivary glands. The rate of GPCMV isolation from these tissues ranged from 50 to 100%. Gross lesions were observed in the spleen, liver, and lungs. On histologic examination, lesions were also seen in many other organs, including heart, pancreas, kidneys, adrenals, brain, intestines, and salivary glands. Intranuclear viral inclusions were present in many cell types of various organs. Under electron microscopic examination, cells with viral inclusions were easily found in the spleen, and liver, but less readily in the lungs, kidneys, salivary glands, and other organs. Most of the intranuclear inclusions consisted of electron-dense fibrils (10 nm diameter), viral nucleocapsids (100 nm), and tubular structures (60 nm diameter). Dense bodies and enveloped dense virions containing single or multiple capsids were present in the cytoplasm of many infected cells. The morphologic developments of GPCMV in these visceral tissues of strain 2 guinea pigs resembled those seen in GPCMV-infected cultured guinea pig cells but differed from those observed in the infected salivary gland duct cells. Strain 2 guinea pigs are a useful animal model for studying disseminated infection in CMV-associated human diseases.     

A latent guinea pig herpes-like virus: isolation and envelopment.

A guinea pig herpes-like virus (GPHLV) has been isolated from randomly selected guinea pigs. This virus is serologically related, if not identical, to the guinea pig herpes-like virus isolated by Hsiung-Kaplow. The frequency of latent infection in guinea pigs was found to be highly variable among animals of the same commercial origin. Ultrastructural studies have shown that the morphological development of this virus was similar to that reported for other herpes viruses in the early stages, but frequently differed at the envelopment stage. In the cytoplasm, virus particles were associated with electron-dense zones from which they acquired a thick and rough envelope.     

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.     

Infection of highly differentiated human and guinea pig astrocytes with herpes simplex and measles viruses

The morphogenesis of type I herpes simplex virus and measles virus (Edmonston strain) is studied in primary cultures of highly differentiated human and guinea pig astrocytes. It is shown that astrocytes are involved in infection. Under varied conditions of inoculation, herpes simplex virus causes acute infection, while measles virus induces both acute and chronic infection. Chronic infection is associated with impaired assembly of virions, accumulation of thickened ribonucleoproteins (25–37 nm in diameter) in the cytoplasm, and budding of “empty” viral particles into the extracellular space. Persisting measles virus reactivates 78±9.4% of cells, which is accompanied by hypertrophy and hyperproduction of the glial fibrillar acid protein. Translated fromByulleten' Eksperimental'noi Biologii i Meditsiny, Vol. 122, No. 10, pp. 413–417, October, 1996     

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.     

Ultrastructure of Kaposi's sarcoma-associated herpesvirus (KSHV)/human herpesvirus-8 (HHV-8) in a primary effusion lymphoma cell line treated with tetradecanoyl phorbol acetate (TPA)

The ultrastructure of Kaposi's sarcoma-associated herpesvirus (KSHV)/human herpesvirus-8 (HHV-8) has not yet been fully elucidated, although some findings have been reported using primary effusion lymphoma (PEL) cell lines, KS-1, harboring no Epstein–Barr virus (EBV) coinfection. In the present study, detailed fine structural examination of KSHV/HHV-8 was performed after stimulation of the PEL-derived cell line KS-1 with 12-O-tetradecanoyl-phorbol-13-acetate (TPA) in vitro. While unstimulated KS-1 cells contained a small number of intranuclear virus particles associated with no extracellular mature particles, KS-1 cells stimulated with TPA produced many extracellular mature particles as well as intranuclear particles, in addition to interesting tubulo-reticular structures and aggregated tubular structures in vesicles. The induced intranuclear particles were empty, doughnut shaped, and dense cored, with outer and inner diameters of 100–110 nm and 60–70 nm, respectively. Dense-cored extracellular mature particles were 150–160 nm in diameter, and some contained doughnut-shaped cores, together with a few megaloviruses, 260 nm in outer diameter. These findings indicate that KS-1 cells treated with TPA can produce extracellular mature particles as well as intranuclear particles, which were proven to be KSHV/HHV-8.     

Experimental infection and immune response of guinea pigs with varicella-zoster virus.

An immune response (fluorescent antibody to membrane antigen) was detected in guinea pigs inoculated with varicella-zoster virus (VZV) adapted to guinea pig embryonic cells, including the Oka vaccine strain, even when inoculation was by an external route, i.e., nasal or corneal. Live or UV-inactivated virus having the same virus titer before irradiation was administered to guinea pigs by the corneal route, and antibody induction was detected only with live virus. The transmission of VZV from infected guinea pigs to noninfected ones was suggested by the appearance of antibody in the serum of the latter, who were kept in the same cage. The time course of the appearance of humoral and cellular immune responses in guinea pigs was examined by the fluorescent antibody to membrane antigen test and the skin reaction, with varicella antigen representing delayed-type hypersensitivity. When VZV was injected subcutaneously, skin reaction appeared as early as 4 days after inoculation, which preceded the appearance of detectable antibody by 2 to 6 days. In in vitro studies, the Oka vaccine showed a higher adsorption rate and better growth in guinea pig embryonic cells than did other wild-type strains when assayed by the infectious center assay. These results suggest that a system of VZV adapted to guinea pig cells and guinea pigs provides a good animal experimental model for immunological study of VZV infection.     

Pathogenicity of wild-type and temperature-sensitive mutants of herpes simplex virus type 2 in guinea pigs.

The pathogenicity of herpes simplex virus type 2 strain 186, the wild-type (WT) strain, and four temperature-sensitive (ts) mutants was studied after genital inoculation of female guinea pigs. Infection with the WT virus was generally severe, with extensive skin lesions in 89% and mortality in 37% of inoculated animals. Guinea pigs inoculated with ts mutants manifest remarkably mild disease, with lesions occurring in only 16% of the guinea pits and a mortality rate of 7%. WT virus was recovered from nerve and non-nerve tissues of all acutely infected animals and from the majority of latently infected animals (71%). Virus was isolated from nerve or genital tissues from only 13% of ts mutant-inoculated animals during acute infection and from 7% during latent infection. Three of the seven isolates from mutant-infected animals appeared to be WT virus. Identification of WT and ts mutant isolates was done by biological characterization in selective cell cultures at permissive (33 degrees C) and nonpermissive (38 degrees C) temperatures. One month after initial infection with WT virus, guinea pigs were challenged with the same virus and were completely resistant to overt clinical disease. Animals inoculated with ts mutants A1b and C2b had mild manifestations of disease after challenge with WT virus; however, the capacity of WT virus to establish latent infection was conserved. Although complement-required neutralizing antibodies were detectable after challenge in animals previously inoculated with mutant virus A1b, C2b, or D6b, there was no significant protection against subsequent infection with WT virus. No complement-required neutralizing antibodies were detected in F3b animals after challenge. The present study of WT and ts mutants of herpes simplex virus type 2 in the guinea pig model provides a means for better understanding the mechanisms of pathogenesis and latency after genital infection.     

Congenital and perinatal infection with Junin virus in guinea pigs

Junin virus infection in guinea pigs is known to be similar to human Argentine hemorrhagic fever (AHF). The guinea pig was chosen as a model for transplacental transmission of Junin virus, as both guinea pig and man have a similar placental structure. Pregnant guinea pigs were infected with the pathogenic XJ strain of Junin virus intramuscularly route at different stages of pregnancy. The group infected during the last third of pregnancy produced 16 newborn, but mortality reached 100%: 18% were born with typical AHF hemorrhagic signs, 54% without signs, and the remainder were stillborn. Virus was recovered from organs of newborns, as well as placental tissues. A second group, infected in the second third of pregnancy, died with intrauterine fetuses, all of which showed hemorrhagic signs and virus present. In a last group, infected in the first third of pregnancy, fetuses were free from macroscopic lesions. In order to determine whether lactation may be an alternative infection route in guinea pigs, mother guinea pigs were infected with Junin virus at different times postparturition. The 84% noninfected newborn housed together with their infected mothers died during the suckling period, half with typical AHF signs. Junin virus transmission from mother to fetus was thus proved, and lactation may be considered as an alternative perinatal infection route.     

Outcome of herpes simplex virus type 2 infection in guinea pigs.

Factors that influence the outcome of genital herpes simplex virus (HSV) infection were explored in a guinea pig model. The viral inoculum required to establish infection in 50% of animals (ID50) was similar for inbred (strain 2) and outbred (Hartley) guinea pigs. However, the viral inoculum required to produce clinical disease in 50% of the animals (CD50) was 10 times greater for strain 2 compared to Hartley animals. HSV infection of both inbred and outbred animals was more likely to result in death of weanling than adult animals. The duration and severity of genital disease and the magnitude of vaginal viral replication were similar for strain 2 and Hartley animals in both young and adult animals. The lethal dose for 50% of animals (LD50) was 100-fold greater than the CD50 for Hartley animals, but the LD50 and the CD50 were equal in strain 2 guinea pigs. Viral cultures of homogenized neural tissues from infected animals revealed that HSV ascended to the level of the temporal cortex in strain 2 guinea pigs while virus was never recovered above the lumbar spinal cord in Hartley animals. Endogenous peripheral blood mononuclear cell-mediated cytolytic activity against HSV-infected targets was greater prior to HSV inoculation in survivors compared to animals that died. A fatal outcome of genital HSV-2 may relate to the failure to limit CNS viral replication. Death is more common among guinea pigs that have low endogenous HSV-directed natural killer activity, such as occurs among strain 2 and young animals whether inbred or outbred.     

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.     

Ultrastructural development of guinea pig cytomegalovirus in cultured guinea pig embryo cells.

The ultrastructural development of guinea pig cytomegalovirus (GPCMV) in guinea pig embryo cells was studied using electron microscopy. Tubular structures were found in nuclei of virus infected cells, followed by the appearance of intranuclear inclusions containing virus nucleocapsids. While some nucleocapsids were enveloped at the inner nuclear membrane, others were released into the cytoplasm where they were associated with, or within, dense matrix which was subsequently enveloped by cytoplasmic membranes to form enveloped dense virions. Dense bodies without virus capsids were formed in the cytoplasm and enveloped in a similar manner. An involvement of the nuclear pores in the release of unenveloped virus capsids from the nucleus to the cytoplasm was postulated. Evidence that the enveloped dense virions and dense bodies shared common envelope antigen(s) was obtained by immunoelectron microscopy. The similarities and differences in the ultrastructural development of GPCMV and other cytomegaloviruses are discussed.     

Rotavirus-Like, Calicivirus-Like, and 23-nm Virus-Like Particles Associated with Diarrhea in Young Pigs

Virus particles morphologically similar to caliciviruses and rotaviruses were detected by electron microscopy (EM) in the intestinal contents of a 27-day-old diarrheic nursing pig. A third small spherical 23-nm virus-like particle was also observed. Calicivirus-like particles averaged 33 nm in diameter. Similar to rotaviruses, rotavirus-like particles were present as single-capsid 55-nm forms or double-capsid 70-nm particles. Most gnotobiotic pigs orally exposed to samples containing these three viruses developed diarrhea and villous atrophy of the small intestine, and all shed the three viruses in their intestinal contents. Attempts to propagate these viruses in cell culture were unsuccessful. The antigenic relationship of the rotavirus-like particles to known rotaviruses was explored by immune EM and immunofluorescent staining. By these techniques, the rotavirus-like particles did not cross-react with antisera to porcine, bovine, or human rotaviruses or to reovirus type 3. Antisera from gnotobiotic pigs exposed to all three viruses had enzyme-linked immunosorbent assay and virus neutralization titers of <4 against porcine rotavirus. Previous infection of gnotobiotic pigs with the mixture containing rotavirus-like particles failed to protect them against a subsequent challenge with porcine rotavirus. The antigenic relationship of the calicivirus-like particles to known caliciviruses was investigated by immune EM and virus neutralization. By these tests, the calicivirus-like particles did not react with antisera against feline calicivirus strain 255 or M-8. In a study conducted at Plum Island Animal Disease Center, antiserum against the three combined agents did not specifically neutralize any serotype of swine vesicular exanthema virus.     

Development of an Equine Herpesvirus in Two Cell Culture Systems: Light and Electron Microscopy

Development of equine herpesvirus strain 82A was studied in cells from primary horse kidney (HOK) cultures and an equine dermis (ED) cell strain. HOK and ED cells are equally susceptible to the 82A virus infection and yield about the same amount of infectious virus. Intranuclear inclusions were present in both cell systems, but a ring-shaped syncytial formation was observed only in infected ED cells. Ultrastructural studies revealed the presence of dense granules 30 nm in diameter and characteristic star-like clusters of granules in the infected HOK cells, but these granules were rarely seen in the infected ED cells. Viral nucleocapsids were associated with homogenous nuclear matrices, with moderate electron density in both cell systems. Viral nucleocapsids acquired envelopes by budding into the nuclear vacuoles in both HOK and ED cells. Budding from inner nuclear membranes into perinuclear cisterna or into cytoplasmic vacuoles also was observed frequently in HOK cells but was not seen often in infected ED cells. Multiple, membrane-bound intranuclear inclusions of fibrillar material which may be associated with virus envelopes were seen only in infected ED cells. Enveloped virus particles seen in nuclear vacuoles or perinuclear cisterna were more regular in shape and had a 130-nm diameter, whereas the enveloped virus particles seen in the cytoplasm and extracellular space were more irregular in shape and had a 130- to 160-nm diameter.     

Mice immunized with a subviral particle containing the Japanese encephalitis virus prM/M and E proteins are protected from lethal JEV infection.

Extracellular subviral particles produced by HeLa cells infected with a recombinant vaccinia virus encoding the prM and E genes of Japanese encephalitis virus (JEV) were purified and characterized. These particles contained the JEV prM/M and E proteins embedded in a lipid bilayer, and RNA was not detected in particles using the polymerase chain reaction and primers recognizing a part of the JEV E gene. The particles were uniformly spherical with a 20-nm diameter and had 5-nm projections on their surface. Mice that received a single inoculation of the purified extracellular particles emulsified with Freund's complete adjuvant were fully protected against 4.9 x 10(5) LD50 of JEV. Comparison of the neutralizing and hemagglutination-inhibiting antibody titers and radioimmunoprecipitation data showed that immunization with the particles induced an immune response similar to that following inoculation with the recombinant vaccinia virus.     

Growth characteristics of colonies in monolayer cultures of guinea pig spleen

In two independent series of experiments, in each of which 16 monolayer cultures of guinea pig spleen cells were set up (four at each time), the distribution of the colonies formed by their diameter was studied 6, 7, 10, and 12 days after explanation. At all times studied the distribution of the colonies corresponded to the normal law of distribution; this points to homogeneity of the colony-forming cell population in the hematopoietic organs of guinea pigs as regards their ability to form colonies in monolayer cultures.