Characterization of the epidermal growth factor receptor in pig oviduct and endometrium

Two different plaque variants of Japanese encephalitis virus were selected from a wild-type Taiwanese isolate using Vero cells. One variant was found to exhibit small plaque morphology with retarded virus replication kinetics in Vero cells, and was demonstrated to be resistant to monoclonal antibody (mAb) E3.3 neutralization. The other variant showed large plaque morphology, was sensitive to mAb E3.3 neutralization, and manifested reduced virulence in mice on both intracranial and intraperitoneal inoculations. These two variants propagated in Vero cells retained high levels of infectivity but had relatively low HA titers as compared with the parent strain. The envelope sequences of these two variants showed four amino acid differences at residues E-85 (Glu/Arg), E-306 (Glu/Gly), E-331 (Ser/Arg), and E-387 (Met/Arg). Our results indicated the neutralizing epitope of Japanese encephalitis virus did not overlap with virus virulence determinant.     

Role of the stress-activated protein kinases in endothelin-induced cardiomyocyte hypertrophy

3-beta-Hydroxysteroid dehydrogenase (3-beta-HSD) activity coded for by the A44L gene of vaccinia virus (VV) was demonstrated in CV-1 cultures infected by all five VV strains tested, viz. WR, Praha virus, DRYVAX Wyeth-derived virus (DD), LIVP and MVA. Deletion of the A44L gene in two Praha virus-derived clones (the moderately virulent P13 and the highly attenuated P20), the WR and DD viruses resulted in absence of 3-beta-HSD activity from infected cultures. The virulence for mice of P13 was not affected, and that of WR was only slightly decreased, by the A44L gene deletion. Recombinant VVs expressing either varicella-zoster virus glycoprotein E (VZV-gE) or hepatitis B virus preS2-S protein (HBV-preS2-S) and their respective A44L deleted mutants were used in immunogenicity tests in mice. In terms of antibody response to VV and the recombinant proteins, the deletion resulted in a lowering the immunogenicity in the moderately virulent clone P13 virus and its progenies. In the highly attenuated P20 and DD viruses and their progenies no effects were apparent.     

Virulence heterogeneity of a predominantly avirulent Western equine encephalitis virus population

Selective removal of small plaque (SP) Western equine encephalitis (WEE) virus from a population heterogeneous with respect to virulence and plaque morphology permitted direct detection of a small sub-population of virulent large plaque (LP) WEE virus. Selective removal of SP-WEE virus was achieved by intracardiac (i.c.a.) inoculation of hamsters; plasma obtained 60 min after inoculation was proportionately enriched for LP-WEE virus since only the SP-WEE virus was cleared. By this method, the proportion of LP- to SP-WEE virus, in a population of SP-WEE virus which appeared to be homogeneous by conventional plaquing methods, was calculated to be 1 LP- to 250000 SP-WEE virions. The presence of a virulent LP-WEE virus sub-population explains why a single passage of a high but not low dose of SP-WEE virus in hamsters resulted in the emergence of an LP-WEE virus population with enhanced virulence.     

Correlation between production of listeriolysin O by variants of Listeria monocytogenes and their virulence for rabbits

L. monocytogenes serovar 1/2a NCTC 7973 was passaged through rabbits and the severity of infection at each passage was determined by counting viable bacteria from infested organs and recording the time of death. A comparative evaluation of the levels of hemolysin produced in vitro by the original and six variant cultures (V1-V6) was done by determination of hemolytic units (CHU). While virulence of the cultures enhanced at each passage (2.2 x 10(9) CFU/g of the spleen for V6 as compared to 5.0 x 10(6) CFU/g spleen for the parent culture), the CHU decreased considerably, 3 CHU for the V6 as compared to 40 CHU for the parent strain. The results suggest that the level of in vitro production of listeriolysin may not parallel the pathogenicity of L. monocytogenes for rabbits.     

Molecular characterization of mouse-virulent poliovirus type 1 Mahoney mutants: involvement of residues of polypeptides VP1 and VP2 located on the inner surface of the capsid protein shell

Most poliovirus (PV) strains, including PV PV-1/Mahoney, are unable to cause paralysis in mice. Determinants for restriction of PV-1/Mahoney in mice have been identified by manipulating PV-1 cDNA and located on the viral capsid protein VP1. These determinants consist of a highly exposed amino acid sequence on the capsid surface corresponding to the B-C loop (M. Murray, J. Bradley, X. Yang, E. Wimmer, E. Moss, and V. Racaniello, Science 241:213-215, 1988; A. Martin, C. Wychowski, T. Couderc, R. Crainic, J. Hogle, and M. Girard, EMBO J. 7:2839-2847, 1988) and of residues belonging to the N-terminal sequence located on the inner surface of the protein shell (E. Moss and V. Racaniello, EMBO J. 10:1067-1074, 1991). Using an in vivo approach, we isolated two mouse-neurovirulent PV-1 mutants in the mouse central nervous system after a single passage of PV-1/Mahoney inoculated by the intracerebral route. Both mutants were subjected to two additional passages in mice, plaque purified, and subsequently characterized. The two cloned mutants, Mah-NK13 and Mah-NL32, retained phenotypic characteristics of the parental PV-1/Mahoney, including epitope map, heat lability, and temperature sensitivity. Mah-NK13 exhibited slightly smaller plaques than did the parental virus. The nucleotide sequences of the mutant genomes were determined, and mutations were identified. Mutations were independently introduced into the parental PV-1/Mahoney genome by single-site mutagenesis. Mutated PV-1/Mahoney viruses were then tested for their neurovirulence in mice. A single amino acid substitution in the capsid proteins VP1 (Thr-22-->Ile) and VP2 (Ser-31-->Thr) identified in the Mah-NK13 and Mah-NL32 genomes, respectively, conferred the mouse-virulent phenotype to the mouse-avirulent PV-1/Mahoney. Ile-22 in VP1 was responsible for the small-plaque phenotype of Mah-NK13. Both mutations arose during the first passage in the mouse central nervous system. We thus identified a new mouse adaptation determinant on capsid protein VP1, and we showed that at least one other capsid protein, VP2, could also express a mouse adaptation determinant. Both determinants are located in the inside of the three-dimensional structure of the viral capsid. They may be involved in the early steps of mouse nerve cell infection subsequent to receptor attachment.     

Experimental in vivo passage of H2 strain of live attenuated vaccine of hepatitis A in common marmosets

Common marmosets with negative serum antibodies against hepatitis A virus (anti-HAV) and normal liver functions were used for the tests of passage of H2 vaccine strain of HAV to explore its residual virulence after attenuation and possibility of its reversion. Common marmosets were inoculated with attenuated live vaccine, and fecal suspension and/or proliferative liquid in tissue culture of the progeny of vaccine HAV excreted from their feces were passaged in common marmosets. Result of three serial passages in vivo indicated that there was no significant difference in serum anti-HAV titer, and no or low-level changes in activities of liver enzymes, no pathological changes in liver tissues observed, and detectable but minimal HAV was shed in stool of the all animals.     

Direct isolation and identification of recombinant pseudorabies virus strains from tissues of experimentally co-infected swine

Tissue homogenates were obtained from swine co-infected with 2 vaccine strains of pseudorabies virus (PRV). Viral isolates derived by serial plaque purification directly from tissue homogenates, without an intervening step of isolation and amplification on cell cultures, were characterized as recombinant and parental PRV genotypes on the basis of thymidine kinase and glycoprotein X gene combinations. Use of limiting dilutions and recovery of virus isolates as individual plaques minimized the likelihood of in vitro recombination serving as a confounding source of recombinant PRV. The thymidine kinase and glycoprotein X gene sequences were classified as wild-type or deleted, using a battery of polymerase chain reaction assays. Results substantiate the observation that PRV vaccine strains can form genetic recombinants in vivo after experimentally induced co-infection.     

The extracellular domain of vaccinia virus protein B5R affects plaque phenotype, extracellular enveloped virus release, and intracellular actin tail formation

Vaccinia virus produces two morphologically distinct forms of infectious virus, termed intracellular mature virus (IMV) and extracellular enveloped virus (EEV). EEV is important for virus dissemination within a host and has different surface proteins which bind to cell receptors different from those used by IMV. Six genes are known to encode EEV-specific proteins. One of these, B5R, encodes a 42-kDa glycoprotein with amino acid similarity to members of the complement control protein superfamily and contains four copies of a 50- to 70-amino-acid repeat called the short consensus repeat (SCR). Deletion of B5R causes a small-plaque phenotype, a 10-fold reduction in EEV formation, and virus attenuation in vivo. In this study, we inserted mutated versions of the B5R gene lacking different combinations of the SCRs into a virus deletion mutant lacking the B5R gene. The resultant viruses each formed small plaques only slightly larger than those of the deletion mutant; however, the virus containing only SCR 1 formed plaques slightly larger than those of viruses with SCRs 1 and 2 or SCRs 1, 2, and 3. All of these viruses produced approximately 50-fold more infectious EEV than wild-type virus and formed comet-shaped plaques under liquid overlay. Despite producing more EEV, the mutant viruses were unable to induce the polymerization of actin on intracellular virus particles. The implications of these results for our understanding of EEV formation, release, and infectivity are discussed.     

Replication in cultured C2C12 muscle cells correlates with the neuroinvasiveness of California serogroup bunyaviruses

The neuroinvasiveness of California serogroup bunyaviruses is determined by the ability of the virus to replicate in striated muscle after peripheral inoculation of mice. Neuroinvasiveness was mapped to the medium (M) RNA segment of the virus, which encodes the viral glycoproteins, when reassortants were made between La Crosse/original virus, a neuroinvasive isolate, and Tahyna-181/57 virus, a nonneuroinvasive clone. We have tested the murine muscle cell line C2C12 as a surrogate for myotropism and have found that there is a slight, but reproducible difference in the replication of virus clones bearing the M RNA segment of La Crosse/original virus compared to clones bearing the M RNA segment of Tahyna-181/57 virus, as determined by viral titer, antigen expression, and plaque formation.     

The various Sendai virus C proteins are not functionally equivalent and exert both positive and negative effects on viral RNA accumulation during the course of infection

Recombinant Sendai viruses were prepared which cannot express their Cprime, C, or Cprime plus C proteins due to mutation of their respective start codons ([Cprime-minus], [C-minus] and [double mutant], respectively). The [Cprime-minus] and [C-minus] stocks were similar to that of wild-type (wt) virus in virus titer and plaque formation, whereas the double-mutant stock had a much-reduced PFU or 50% egg infective dose/particle ratio and produced very small plaques. Relative to the wt virus infection, the [Cprime-minus] and [C-minus] infections of BHK cells resulted in significantly greater accumulation of viral RNAs, consistent with the known inhibitory effects of the Cprime and C proteins. The double-mutant infection, in contrast, was delayed in its accumulation of viral RNAs; however, once accumulation started, overaccumulation quickly occurred, as in the single-mutant infections. Our results suggest that the Cprime and C proteins both provide a common positive function early in infection, so that only the double mutant undergoes delayed RNA accumulation and exhibits the highly debilitated phenotype. Later in infection, the same proteins appear to act as inhibitors of RNA accumulation. In infections of mice, [Cprime-minus] was found to be as virulent as wt virus whereas [C-minus] was highly attenuated. These results suggest that the Cprime and C proteins cannot be functionally equivalent, since C can replace Cprime for virulence in mice whereas Cprime cannot replace C.     

Lethal infection of newborn mice, caused by hepatitis C virus

Intracerebral infection of mice aged 2-3 days with hepatitis C virus (HCV) from chronically infected suckling mouse brain cultures and porcine embryo cells resulted in the death of animals after 12-14 days. Repeated passages of HCV in animals decreased the incubation period to just 3-4 days. Blood serum of surviving mice collected during the 4th week postinfection contained antiHCV antibodies detected by enzyme immunoassay and hemagglutination inhibition test. The results are proof of creation of a new in vivo model of experimental HCV infection.     

Persistence of hepatitis C virus in newborn mice brain cell culture

A model of chronic infection of primary cultures of suckling mouse brain (SMB) cells actively producing hepatitis C virus (HCV) is developed. Destruction and repopulation of cells was observed for at least 6 months; this phenomenon was paralleled by virus release in culture medium. Persistent HCV contained in SMB cultures induced a cytopathogenic effect in PS, BHK-21, Vero, HAK, and click embryo cell cultures, its infective titers being 10.0-12.0 lg TCD50/0.2 ml. Persistent HCV formed heterogeneous plaques under agar in chick embryo cells. The polymerase chain reaction (PCR) regularly detected the HCV RNA at the stage of cell destruction in the culture fluid of HCV-infected cell cultures. The cytopathogenic activity of persistent HCV was neutralized by anti-HCV positive patients' sera with the neutralization index of 8.0-9.0 lg. The results of persistent HCV neutralization were confirmed by PCR. Immunofluorescence detected virus-specific HCV antigens in 15-40% of infected cells. Hence, the SMB-HCV system realized the cytopathogenic potential of HCV circulating in the blood of patients with hepatitis C. This system is promising for the study of the pathogenesis of HCV infection at a cellular level, for screening for specific and nonspecific antiviral agents, and for preparing native virus-specific proteins and RNA.     

Multiple molecular pathways for fitness recovery of an RNA virus debilitated by operation of Muller's ratchet

Repeated bottleneck passages of RNA viruses result in fitness losses due to accumulation of deleterious mutations. We have analysed the molecular events underlying fitness recovery of a highly debilitated foot- and-mouth disease virus (FMDV) clone, upon serial passage in BHK-21 cells. The debilitated clone included an unusual, internal polyadenylate extension preceding the second functional AUG initiation codon, and a number of additional mutations scattered throughout the genome. Comparison of entire genomic nucleotide sequences in the course of passaging documented that loss of the internal polyadenylate was the first event in the process of fitness recovery. Further increases of fitness were associated with very few true reversions and with the accumulation of additional mutations affecting non-coding and coding regions. Remarkably, four biological subclones of the same debilitated FMDV clone gained fitness through three separate molecular pathways regarding correction of the internal polyadenylate: (i) a true reversion to yield the wild-type sequence at the second functional AUG; (ii) a shortening of the internal polyadenylate tract; or (iii) a deletion of 69 residues spanning the site of the polyadenylate extension. The results document that an RNA virus can find multiple pathways to reach alternative high fitness peaks on the fitness landscape.     

The S2 gene of equine infectious anemia virus is dispensable for viral replication in vitro

Equine infectious anemia virus (EIAV) contains the simplest genome among lentiviruses in that it encodes only three putative regulatory genes (S1, S2, S3) in addition to the canonical gag, pol, and env genes, presumably reflecting its limited tropism to cells of monocyte/macrophage lineage. Tat and Rev functions have been assigned to S1 and S3, respectively, but the specific function for the S2 gene has yet to be determined. Thus, the function of S2 in virus replication in vitro was investigated by using an infectious molecular viral clone, EIAVUK. Various EIAVUK mutants lacking S2 were constructed, and their replication kinetics were examined in several equine cell culture systems, including the natural in vivo target equine macrophage cells. The EIAV S2 mutants showed replication kinetics similar to those of the parental virus in all of the tested primary and transformed equine cell cultures, without any detectable reversion of mutant genomes. The EIAVUK mutants also showed replication kinetics similar to those of the parental virus in an equine blood monocyte differentiation-maturation system. These results demonstrate for the first time that the EIAV S2 gene is not essential and does not appear to affect virus infection and replication properties in target cells in vitro.     

Deletions and duplication in internal inverted repeat sequence of long region/unique sequence of long region (IRL/UL) of herpes simplex virus type-1 (HSV-1) genome are not evidently associated with intracranial and foot-pad pathogenicity in mouse model

The biological properties of three deletion variants (1704, 1705 and 1706) of herpes simplex virus type-1 (HSV-1) strain 17 syn+, were studied by establishing a base line pathogenicity of nine individual plaques from the parental 17 syn+ elite stock. Restriction enzyme analysis of deoxyribonucleic acid (DNA) from each of the nine plaque stocks and intracranial inoculation into three weeks old BALB/c mice showed no difference in the size of fragments and distribution of the sites or their 50% lethal dose (LD50) values [plaque forming units (pfu)/mouse] as compared to the parental 17 syn+ stock. Inoculation of the variants into three weeks old BALB/c mice showed that 1705 was not different in pathogenicity from the wild type following intracranial and footpad inoculations. On the other hand variants 1704 and 1706, when compared to the wild type virus were less virulent on intracranial inoculation i.e. the difference in LD50 values was approximately one log and two logs respectively and both the variants failed to kill any of the animals following footpad inoculation even at the dose of 1 x 10(7) pfu/mouse. During in vivo replication experiment in the peripheral nervous system of mice, 1704 and 1706 grew very poorly.     

Growth and protective potentials of attenuated strains of equid herpesvirus 1 in the lungs of mice

Attenuated equid herpesvirus 1 (EHV-1) strains with different passage histories in bovine kidney cells (BKC), i.e. BK77, BK161, BK271 and BK343, were examined for their growth in mouse lungs after intranasal inoculation. BK77 and BK161 were recovered from lungs with almost the same titres, and were found to be about 100 times lower than that of the parent HH1 strain. The growth abilities of high-passaged BK271 and BK343 were markedly reduced. Although partial growth of BK343 in the lungs of athymic nude mice was observed, the virus was almost eradicated from their lungs within 1 week. By contrast, the parent HH1 persisted in the lungs of nude mice for at least 1 week. The mice immunized with the BKC-passaged viruses were partially protected against subsequent challenge with the parent HH1. Antibodies were detected by ELISA. These results demonstrate that, although serial BKC-passage lowered the growth ability of the parent HH1, the descendant viruses still have a partial protective potential in mice.     

Autotransplantation of teeth: is there a role?

BACKGROUND: The available human prostate cancer cell lines that are metastatic in athymic nude mice all have complex, highly aneuploid karyotypes. Other prostatic cells immortalized by transforming genes of SV40 or HPV and converted to tumorigenicity by additional genetic manipulation are not reported to be metastatic. METHODS: Tumorigenic sublines of human prostate epithelial cells previously immortalized by transfection with the SV40T antigen gene were obtained by sequential passage in male athymic nude mice. These sublines were evaluated histopathologically for tumorigenicity and metastasis in athymic nude mice after subcutaneous, intraperitoneal, and intraprostatic injection. Each subline was characterized by standard (GTG-banding) cytogenetic and FISH analysis, and RNase protection assays for androgen receptor expression. RESULTS: Two sublines produced metastases in lungs and the diaphragm of most mice after either intraprostatic or intraperitoneal injection. The M2205 subline formed large local tumors after intraprostatic injection. Cytogenetic aberrations present in the metastatic sublines, but not in the tumorigenic, nonmetastatic lines or the parental P69SV40T line, included dup(11)(q14q22), der(16) t (16;19) (q24;q13.1), which resulted in the loss of the short arm and proximal long arm of chromosome 19 (19q13.1-->19pter), and loss of the Y chromosome. None of the sublines expressed the androgen receptor. CONCLUSIONS: These cytogenetically defined, SV40T-immortalized human prostate epithelial cell lines, with distinct biological behaviors in vivo, provide additional tools for the genetic analysis of the emergence of metastatic capacity.     

Alternanthera philoxeroides (Mavt.) Griseb protection against fetal epidemic hemorrhagic fever virus infection in suckling mice

It has been confirmed that Alternanthera philoxeroides (APG) can markedly protect suckling mice from being infected by epidemic hemorrhagic fever (EHF) virus. After the infected mice were treated with the effective components their survival rate increased, pathological lesion and virus antigen in the tissues mitigated as compared with the controls. Therapeutical dose of APG caused only slight deformation of the hepatic cells.     

Increases in insulin-like growth factor binding protein-2 accompany decreases in proliferation and differentiation when porcine muscle satellite cells undergo multiple passages

Subjecting cloned porcine myogenic satellite cells to multiple passages leads to decreased rates of cell division and myotube formation. Because IGF have been implicated in the regulation of muscle cell proliferation and differentiation, the present study was conducted to characterize secretion of IGF-I and IGF-binding proteins (IGFBP) in cultures of cloned porcine satellite cells at two stages of multiple passaging. To this end, we obtained a single porcine satellite cell clone that demonstrated relatively high capacities for cellular proliferation and differentiation into myotubes at the fifth passage but that had greatly diminished capacities for proliferation and myotube formation by the seventh passage. The predominant IGFBP secreted by this satellite cell clone was immunologically identified as IGFBP-2, and quantities of it were increased in medium from seventh-passage cultures. Quantities of IGF-I in medium were determined with a newly developed "titration" radioimmunoassay in which interference from IGFBP was minimized by adding a range of saturating quantities of IGF-II. Medium IGF-I concentrations in seventh-passage cultures were also increased relative to the fifth-passage cultures when expressed per unit of DNA. It is hypothesized that the observed increase of IGF-I in medium likely resulted from protective sequestration of IGF-I by IGFBP-2 rather than from enhanced IGF-I secretion. In summary, these data suggest that multiple passaging of cloned porcine satellite cells results in increased secretion of IGFBP-2, which is associated with depressed cell proliferation and myotube formation, perhaps because the increased IGFBP-2 sequestered IGF-I and reduced its bioactivity.