"Physiological interaction" does not explain the H-2 requirement for recognition of virus-infected cells by cytotoxic T cells.

B10.A (H-2Kk, H-2Dd) ectromelia-immune T cells from secondary responses in vitro were protent killers of both infected L929 (H-2Kk H-2Dk) and infected P-815 (H-2Kd, H-2Db) target cells. Specific competition with unlabelled targets showed that two separate T cell subsets were responsible for lysis of infected L929 and infected P-815 cells. One hypothesis to account for this (a form of "physiological interaction") is that T cells which kill one target e.g. infected L929) display only one out of two possible self-complementary recognition structures, in this example the H-2Kk alloantigen, not H-2Dd, whereas T cells that lyse infected P-815 targets display only H-2Dd, not H-2Kk. This hypothesis was tested and seems untenable because of the following results: A.TH (H-2Ks, H-2Dd) ectromelia-immune, secondary cytotoxic T cells which killed infected SJL/J (H-2Ks, H-2Ds) targets were themselves inactivated by pre-incubation with SJL/J cytotoxic T cells generated in one-way mixed lymphocyte reaction (MLR) against BALB/c (H-2Kd, H-2Dd). A.TL (H-2Ks, H-2Dd) ectromelia-immune secondary cytotoxic T cells which killed infected BALB/c targets were themselves inactivated by BALB/c cytotoxic T cells generated in MLR against SJL/J. Thus, virus-immune T cells which lyse infected targets by virtue of shared H-2K are also displaying H-2D alloantigen, and vice versa.     

Macrophage-mediated suppression of con A-induced IL-2 production in spleen cells from syphilitic rabbits

Blast transformation studies have indicated a diminished T cell response in spleen cell preparations from rabbits infected with Treponema pallidum. IL-2 synthesis by T lymphocytes is required for proliferation of these cells. Thus, Con A-induced IL-2 generation was measured in syphilitic animals infected for 9 to 14 days. IL-2 production in the infected rabbits was only one-half that observed for uninfected rabbits. This marked decrease in IL-2 was not caused by decreased IL-1 secretion by adherent cells from infected animals because similar levels were found in both infected and uninfected splenic cultures. This decrease was also not caused by an increase in infected spleen cell adsorption of IL-2; similar numbers of receptors for this IL were present in Con A-stimulated infected and uninfected splenic preparations. The inhibited IL-2 production in infected spleen cells was reversed upon removal of the adherent cells and also elevated upon addition of indomethacin to the cultures. PGE levels were also elevated in splenic cultures from infected animals. Finally, IL-2 synthesis, when evaluated at various days postinfection, showed that at 4 days, splenic cells generated twice as much IL-2 as uninfected cells. At 9 to 14 days, IL-2 levels were dramatically decreased (50% lower than that observed in uninfected cultures), and suppression of IL-2 by adherent cells was observed as late as 35 days post-infection. We propose that premature down regulation (suppression) of IL-2 secretion is mediated by adherent cells via a cyclo-oxygenase product, most likely PGE. These results may explain why most, but not all, treponemes are cleared during infection, and why the secondary manifestations of the disease occur.     

Lack of correlation between cytotoxic T lymphocytes and lethal murine lymphocytic choriomeningitis

Adoptive transfer of lymph node and spleen cells from mice infected with LCM virus to similarly infected immunocompromised recipients has been the classic way to demonstrate the lethal role of T cells in the CNS disease caused by this virus. Isolation and adoptive transfer techniques are presented here which show that Thy-1+ cells isolated from the meningeal infiltrates (MI) of LCM virus-infected mice possess this property. We compared various T cell functions of MI cells taken from mice infected with two strains of LCM virus differing markedly in their pathogenicities. One of these strains, termed aggressive, caused a typical, invariably fatal, CNS disease within 7 to 10 days after infection. The other virus, termed docile, killed few mice after the standard intracerebral inoculation, and could persist in the mice for 6 mo or more. The yields of MI leukocytes from mice infected with docile virus varied from 50 to 100% of those found in mice infected with aggressive virus (3 X 10(6) cells/brain). On a cell-to-cell basis, the CTL activity in the MI of mice infected with docile virus ranged from 50 to 100% of that found in the MI of mice infected with aggressive virus. MI cells from mice infected with aggressive virus consistently caused lethal disease by adoptive transfer into immunocompromised (irradiated) recipients infected with either strain of virus. All attempts to induce lethal disease by adoptive transfer of MI cells (or splenocytes) from mice infected with docile virus into irradiated recipients failed. The latter experiments with the docile-MI cells were performed with six times the number of aggressive-MI cells needed to kill irradiated recipients by adoptive transfer. The possible reasons for this discordance between CTL and in vivo killer function are discussed.     

Roles for the E4 orf6, orf3, and E1B 55-Kilodalton Proteins in Cell Cycle-Independent Adenovirus Replication

Adenoviruses bearing lesions in the E1B 55-kDa protein (E1B 55-kDa) gene are restricted by the cell cycle such that mutant virus growth is most impaired in cells infected during G(1) and least restricted in cells infected during S phase (F. D. Goodrum and D. A. Ornelles, J. Virol. 71:548-561, 1997). A similar defect is reported here for E4 orf6-mutant viruses. An E4 orf3-mutant virus was not restricted for growth by the cell cycle. However, orf3 was required for enhanced growth of an E4 orf6-mutant virus in cells infected during S phase. The cell cycle restriction may be linked to virus-mediated mRNA transport because both E1B 55-kDa- and E4 orf6-mutant viruses are defective at regulating mRNA transport at late times of infection. Accordingly, the cytoplasmic-to-nuclear ratio of late viral mRNA was reduced in G(1) cells infected with the mutant viruses compared to that in G(1) cells infected with the wild-type virus. By contrast, this ratio was equivalent among cells infected during S phase with the wild-type or mutant viruses. Furthermore, cells infected during S phase with the E1B 55-kDa- or E4 orf6-mutant viruses synthesized more late viral protein than did cells infected during G(1). However, the total amount of cytoplasmic late viral mRNA was greater in cells infected during G(1) than in cells infected during S phase with either the wild-type or mutant viruses, indicating that enhanced transport of viral mRNA in cells infected during S phase cannot account for the difference in yields in cells infected during S phase and in cells infected during G(1). Thus, additional factors affect the cell cycle restriction. These results indicate that the E4 orf6 and orf3 proteins, in addition to the E1B 55-kDa protein, may cooperate to promote cell cycle-independent adenovirus growth.     

Persistent reovirus infection of CHO cells resulting in virus resistance.

We obtained a persistently infected line of Chinese hamster ovary cells by selection for resistance to reovirus infection. The cells were persistently infected by a population of viruses that were (i) cytopathic for parental chinese hamster ovary cells and (ii) similar to wild-type reovirus in molecular characteristics. The growth rate, plating efficiency, and morphology of the cells were altered. A large majority of the cells in the population were infected. There was no detectable interferon present in the medium. The cells were relatively resistant to a wide range of viruses.     

Lack of apoptosis in Sendai virus-infected HEp-2 cells without participation of viral antiapoptosis gene.

Sendai virus (SeV) has been reported to induce apoptosis in many types of cells. In HEp-2 cells, however, it did not induce apoptosis in most of the infected cells under the conditions in which vesicular stomatitis virus induced massive apoptosis. The use of a novel technique, which allows the detection of viral antiapoptotic activity in the infected cells, showed that SeV does not have any antiapoptotic activity to interfere with the induction of apoptosis. Consistently, vesicular stomatitis virus-induced apoptosis was not interfered with by preinfection with SeV. These results indicate that the observed lack of apoptosis in these SeV-infected cells does not result from the suppression of apoptosis by viral antiapoptotic activity in the infected cells and suggest that, without activating a signaling pathway for the induction of apoptotic response in the infected cells, SeV can escape apoptosis of the cells, allowing long-term survival of the infected cells.     

Optimization of conditions for preparation of the solid phase of infected cells in the immunoenzyme analysis of monoclonal antibodies

The conditions of immunoenzyme assay have been studied on the solid state phase of infected cells using the model of monoclonal antibodies MAK-14-7 to the virus of Venezuelan equine encephalomyelitis (VVEE) and monoclonal antibodies OKA-1 to vaccine virus in the systems of VNK-21 cells or 4647 cells infected by VVEE, or HeLa cells infected by vaccine virus. The titer of monoclonal antibodies detected grows with the dose of infected cells fixed in the holes of micropanel used for reaction and with the multiplicity of infection. The most intensive and contrasting dyeing of conjugate has been registered when the cells have been fixed with 0.25% glutaraldehyde 24 h after infection. The titers of ascytic preparations of monoclonal antibodies MAK-14-7 and OKA-1 under the optimal conditions of immunoenzyme assay reaction on the solid phase of infected cells present 1 : 10 000 and 1 : 100 000.     

Trichinella spp.: differential expression of acid phosphatase and myofibrillar proteins in infected muscle cells

Major alterations are induced in muscle cells infected by either Trichinella spiralis or Trichinella pseudospiralis. To investigate the response of muscle to these infections we have analyzed the expression of acid phosphatase (ACP, EC 3.1.3.2), adult skeletal muscle myosin heavy chain, and muscle tropomyosin proteins in infected mouse skeletal muscle cells. Using T. spiralis-infected cells, we provide strong evidence that the tartrate-sensitive ACP of these cells was synthesized by the infected cell and localized in lysosomes. Isoenzyme analysis indicated that the ACP activity was of host muscle cell origin and the specific activity of this ACP was 2.5 times greater than that in associated inflammatory cells. Increased ACP activity was also demonstrated in muscle cells infected by T. pseudospiralis. In synchronized muscle infections, increased ACP activity was detected at 5 days post-muscle infection for both parasites. ACP activity was further increased in infected muscle cells at later times tested. This increased infected cell ACP activity represents the earliest positive enzyme marker yet described indicating expression of the infected cell phenotype. In contrast, myofibrillar proteins were not detected in muscle cells chronically infected by T. spiralis but were detected in muscle cells infected by T. pseudospiralis. Decrease in myofibrillar protein levels was detected by 10 days post-muscle infection by T. spiralis. The data presented demonstrate significant differences and similarities in the phenotypes of muscle cells infected by these two parasites and establish criteria that could facilitate identification of parasite factors that may be involved in these phenomena.     

The carboxyl-terminal 120-residue polypeptide of infectious bronchitis virus nucleocapsid induces cytotoxic T lymphocytes and protects chickens from acute infection.

Specific cytotoxic T-lymphocyte (CTL) responses to nucleocapsid of infectious bronchitis virus (IBV) were identified by using target cells infected with a Semliki Forest virus (SFV) vector. Effector cells for CTL assays were collected from chickens infected with the Gray strain of IBV or inoculated with a DNA plasmid encoding nucleocapsid proteins. IBV-specific CTL epitopes were mapped within the carboxyl-terminal 120 amino acids of the nucleocapsid protein. CTL lysis of target cells infected with SFV encoding nucleocapsid was major histocompatibility complex restricted and mediated by CD8+ T cells. In addition, splenic T cells collected from chickens inoculated in the breast muscle with a DNA plasmid encoding this CTL epitope(s) recognized target cells infected with wild-type virus or an SFV vector encoding nucleocapsid proteins. CTL activity of splenic T cells collected from chicks immunized with a DNA plasmid encoding CTL epitopes was cross-reactive, in that lysis of target cells infected with serologically distinct strains of IBV was dose responsive in a manner similar to that for lysis of target cells infected with the homologous strain of IBV. Furthermore, chickens immunized with a DNA plasmid encoding a CTL epitope(s) were protected from acute viral infection.     

猫肾F_(81)传代细胞中犬细小病毒原位PCR检测方法

目的　建立在猫肾F81 细胞中犬细小病毒原位PCR的检测方法。方法　在猫肾F81 细胞上感染犬细小病毒 ,设计特异性引物 ,用直接原位PCR法在染毒 12h ,2 4h ,48h细胞片上检测出犬细小病毒 ,并与常规免疫组化的方法进行了比较。结果　在染毒 48h的细胞片上 ,用阳性记分法将两种检测方法得到的阳性细胞进行统计比较 ,差异极显著 (P <0 .0 0 1) ,用原位PCR法所得出的阳性率高。结论　原位PCR法检测犬细小病毒具有敏感性高和组织定位的优点     

Inhibition of Intracellular Multiplication of Adenovirus by Interaction between Infected and Uninfected Cells

The possibility that virus multiplication may be inhibited by interaction of infected cells with uninfected cells was tested by experiments, using human adenovirus type 12 (Ad 12). Permissive human cells (human embryonic kidney = HEK, KB or HeLa) were infected and seeded on uninfected or infected “nonpermissive” cell (human embryonic lung = HEL) monolayers, and virus yields or proportions of viral antigen-synthesizing cells were compared with each other. Both the virus yields and the proportions of viral antigen-positive cells were not reduced significantly when seeded on infected HEL cells, while when seeded on uninfected HEL cells both of them were reduced remarkably, compared with the yield and the proportion of controls seeded on glass. Similar results were obtained regardless of the type of permissive cells, HEK, KB, or HeLa. Similar reduction of the yield was observed when seeded on HEL cells infected with Ad 12 inactivated by heat or by antiserum, and partial reduction was observed when seeded on HEL cells infected with UV-inactivated Ad 12, depending on the extent of UV dosis. These experiments showed that intracellular virus multiplication may be inhibited by interaction of infected cells with uninfected cells, and this may be due to the difference in the cell surface structure.     

粉纹夜蛾核型多角体病毒诱导的胸苷激酶特性研究

粉纹夜蛾(Trichoplusia ni)核型多角体病毒(TnNPV)感染草地贪夜蛾(Spodop-tera frugiperda)细胞后能诱导提高胸苷激酶的活性。不论是正常或感染细胞中的胸苷激酶都可将脱氧胞苷磷酸化,酶活最适pH及Mg~( )离子浓度值基本相同,DEAE-纤维素和Cibacron blue-sepharose柱层析所得酶活性图谱亦相似。TnNPV在胸苷激酶缺陷型的草地贪夜蛾细胞中能正常复制,但被感染细胞不具有胸苷激酶活性。由此可以确定,经TnNPV感染诱导后,活性有所提高的胸苷激酶不是病毒基因编码的。     

Eimeria necatrix: Induced proteolytic sensitivity of infected chick crypt cells

While devising a protocol for the isolation of chick crypt cells infected with Eimeria necatrix, it was observed that infected cells were readily lysed by 0.25% trypsin. Time-course studies at 17 C with 5.5 × 10⁵ cells at 96 hr postinfection revealed that 0.001% trypsin effectively lysed >90% of infected cells within 10 min. Uninfected crypt cells were not lysed under these conditions. To determine the site of action of trypsin, the plasma membrane proteins from trypsin-treated and untreated infected cells were analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. While the major proteins were unaffected by the trypsin treatment, some minor changes were noted: (1) three components (～-60, ～-52, and ～-20 KDa) were trypsin sensitive and (2) a new band (～-42 KDa) appeared in the membrane of trypsin-treated infected cells. Previously, it was found that the plasma membrane of infected cells, in contrast to uninfected cells, accumulated gel-phase lipid (J. E. Thompson, M. A. Fernando, and J. Pasternak, Biochimica et Biophysica Acta555, 472–487, 1979). Here, it was examined whether trypsin would perturb the physical state of the plasma membrane of infected cells. Both X-ray diffraction patterns and transition temperature studies revealed no difference between membranes from untreated and trypsin-treated infected cells. Thus, “trypsin sensitivity” may be a secondary phenomenon that is due primarily to the cellular leakiness that accompanies the accumulation of gel-phase lipid in the plasma membrane of infected cells. The uptake of trypsin may stimulate the release of catabolic enzymes that, consequently, lyse an infected cell.     

NF-kappaB and inhibitor of apoptosis proteins are required for apoptosis resistance of epithelial cells persistently infected with Chlamydophila pneumoniae

Infection with Chlamydophila pneumoniae (Cpn) renders host cells resistant to apoptosis induced by a variety of stimuli. While modulation of apoptosis has been extensively studied in cells acutely infected with Cpn, very little is known on how persistent chlamydial infection influences host cell survival. Here we show that epithelial cells persistently infected with Cpn resist apoptosis induced with TNFalpha or staurosporine. Cpn induced the activation of nuclear factor kappa B (NF-kappaB) and inhibition of NF-kappaB with a chemical inhibitor or by silencing expression of the p65 subunit sensitized infected cells for apoptosis induction by staurosporine or TNFalpha. Persistent infection resulted in the upregulation of the NF-kappaB regulated inhibitor of apoptosis protein 2 (cIAP-2) but not inhibitor of apoptosis protein 1 (cIAP-1). Interestingly, silencing of either cIAP-1 or cIAP-2 sensitized infected cells, suggesting that IAPs play an important role in the apoptosis resistance of persistently infected cells.     

Spectroscopic detection and identification of infected cells with herpes viruses

Matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) and Fourier transform infrared (FTIR) microspectroscopy were previously applied for the identification of various biological samples. In the present study, normal cells in culture and cells infected with herpes simplex virus type 2 (HSV-2) or varicella-zoster virus (VZV) were analyzed by MALDI-TOF and FTIR microscopy. Specific spectral biomarkers for rapid and reliable monitoring and identification of infected cells and probably for the discrimination between these viruses were searched. The results show consistent spectral peaks in all examined normal uninfected human fibroblast cells both in MALDI-T0F and FTIR microscopy. In HSV-2- or VZV-infected cells, two unique peaks for each appeared at m/z 5397 and 5813 or at m/z 3501 and 4951, respectively, in MALDI-TOF spectra. In addition, several peaks that appeared in control uninfected cells at the region m/z 13,000-20,000 disappeared completely in all examined infected samples. When these infected cells were examined by FTIR microscopy, a band at 859 cm(-1) in control uninfected cells was significantly shifted to 854 cm(-1) in both HSV2- and VZV-infected cells. In addition, phosphate levels were considerably increased in all infected cells compared to normal uninfected cells. These parameters could be used as a basis for developing a spectral method for the detection and identification of cells infected with herpes viruses.     

Tumor-Specific Transplantation Antigen Activity of Freshly Adenovirus-Infected Cells

Newborn hamsters were inoculated with human adenovirus type 12 (Ad12) within 24 hr of birth for tumor induction, and 15 days later, intercurrently immunized with Ad12-infected cells (KB; HeLa; FL; HEK; MoE; HaE). Tumor development was then observed for 75 days thereafter. Tumor formation was prevented at a statistically significant level by immunization with any of the above-mentioned infected cells. The immunization was effective even with abortively infected cells (HaE; MoE) or with cells infected in the presence of 5-fluorodeoxyuridine. The induced immunity was Ad12-specific, since neither cells infected with Ad2, Ad7 or Ad18 nor CV-1 cells infected with SV40 were able to prevent tumor formation. The most plausible explanation to these findings could be that Ad12-specific tumor-specific transplantation antigen is induced on the surface of freshly virus-infected cells and it is responsible for induction of specific cellular immunity. This gives an experimental support to our hypothesis on the mechanism of induction of cellular immunity against virus infections and to the hypothesis proposed by Habel and by Sjögren to explain the immunoresistance against tumor cells induced following viral immunization.     

Accumulation and activation of natural killer cells in local intraperitoneal HIV-1/MuLV infection results in early control of virus infected cells

Natural killer (NK) cells are important effectors in resistance to viral infections. The role of NK cells in the acute response to human immunodeficiency virus 1 (HIV-1) infected cells was investigated in a mouse model based on a HIV-1/murine leukemia virus (MuLV) pseudovirus. Splenocytes infected with HIV-1/MuLV were injected intraperitoneally and local immunologic responses and persistence of infected cells were investigated. In vivo depletion with an anti-NK1.1 antibody showed that NK cells are important in resistance to virus infected cells. Moreover, NK cell frequency in the peritoneal cavity increased in response to infected cells and these NK cells had a more mature phenotype, as determined by CD27 and Mac-1 expression. Interestingly, after injection of HIV-1/MuLV infected cells, but not MuLV infected cells, peritoneal NK cells had an increased cytotoxic activity. In conclusion, NK cells play a role in the early control of HIV-1/MuLV infected cells in vivo.     

Suppression of responses to cryptococcal antigen in murine cryptococcosis

Subpopulations of spleen cells responsible for responsiveness and unresponsiveness to cryptococcal antigen in vitro were identified. Lymphocytes which responded in lymphocyte transformation (LT) assays were nylon wool nonadherent and theta antigen positive. These lymphocytes required the presence of an accessory cell which could be supplied by normal peritoneal exudate cells. Spleen cells taken from mice which had been infected for 3 to 15 days were tested to determine their ability to respond to cryptococcal antigen in LT assays. A minimal response was detected at the ninth day of infection. The response of infected spleen cells was attributed to a nonadherent lymphocyte. Nonadherent spleen cells of infected animals had enhanced responses after removal of adherent cells and addition of normal peritoneal exudate cells. Suppressor cells were detected in the spleens of infected mice by the 12th day of infection and thereafter. A nonadherent suppressor cell was identified, but indirect evidence suggested that an adherent cell could also be present in infected spleens.     

Ultrastructural study of the early development and localization of Loma salmonae in the gills of experimentally infected rainbow trout

The early ultrastructural stages of Loma salmonae were studied in the gills of experimentally infected rainbow trout. No parasitic stages were identified during the first 2 wk of the infection. By week 3 postexposure (PE), uninucleate and binucleate meronts were recognized within host cells (no xenomas) associated with the capillary channels of secondary lamellae and lamellar arteries. An inflammatory reaction was absent. In secondary lamellae, infected cells were isolated from the capillary lumen, and some were recognized as pillar cells. In lamellar arteries, infected cells were localized beneath the endothelium and not in the lumen. Inflammatory reaction and destruction of parasites inside blood cells in the lumen of secondary lamellae were observed by week 4 PE. Three hypotheses, i.e., isolation, internalization, and evasion, are proposed to explain the localization of the infected cells in the gills. It is concluded that meronts are the earliest parasitic stage observed by week 3 PE, pillar cells are secondarily infected by phagocytosis of infected cells in the blood, endothelial cells of gills are not infected, and inflammatory response to the parasite starts by week 4 PE.     

Immunologic mechanisms in the pathogenesis of virus-induced murine leukemia. III. Target cell specificity of autoreactive thymocytes.

Thymocytes from preleukemic mice persistently infected with Moloney murine leukemia virus (MuLV-M-carriers) were vigorously autoaggressive toward normal syngeneic target cells; they exhibited a graded response to allogeneic cells, but they spared xenogeneic cells or syngeneic cells infected with MuLV-M or MuLV-G (Gross). Syngeneic target cells infected with nononcogenic lymphocytic choriomeningitis virus (LCMV), or transformed by the chemical carcinogen 3-methylcholanthrene were not similarly spared. This phenomenon, apparently induced by MuLV-M, is not associated with all persistent virus carrier states. Thymocytes from mice persistently infected with LCMV or with the lactic dehydrogenase virus (LDHV) failed to demonstrate an autoaggressive behavior. That transplantable lymphoma cells (derived from MuLV-M-carriers) were autoreactive in a pattern similar to thymocytes from preleukemic mice suggests a unique role for MuLV in the events leading from altered recognition of "self" to lymphoma.