Antoinette Tishon

Differences in Affinity of Binding of Lymphocytic Choriomeningitis Virus Strains to the Cellular Receptor α-Dystroglycan Correlate with Viral Tropism and Disease Kinetics

ABSTRACT α-Dystroglycan (α-DG) was recently identified as a receptor for lymphocytic choriomeningitis virus (LCMV) and several other arenaviruses, including Lassa fever virus (W. Cao, M. D. Henry, P. Borrow, H. Yamada, J. H. Elder, E. V. Ravkov, S. T. Nichol, R. W. Compans, K. P. Campbell, and M. B. A. Oldstone, Science 282:2079–2081, 1998). Data presented in this paper indicate that the affinity of binding of LCMV to α-DG determines viral tropism and the outcome of infection in mice. To characterize this relationship, we evaluated the interaction between α-DG and several LCMV strains, variants, and reassortants. These viruses could be divided into two groups with respect to affinity of binding to α-DG, dependence on this protein for cell entry, viral tropism, and disease course. Viruses that exhibited high-affinity binding to α-DG displayed a marked dependence on α-DG for cell entry and were blocked from infecting mouse 3T6 fibroblasts by 1 to 4 nM soluble α-DG. In addition, high-affinity binding to α-DG correlated with an ability to infiltrate the white pulp (T-dependent) area of the spleen, cause ablation of the cytotoxic T-lymphocyte (CTL) response by day 7 postinfection, and establish a persistent infection. In contrast, viruses with a lower affinity of binding to α-DG were only partially inhibited from infecting α-DG−/− embryonic stem cells and required a concentration of soluble α-DG higher than 100 nM to prevent infection of mouse 3T6 fibroblasts. These viruses that bound at low affinity were mainly restricted to the splenic red pulp, and the host generated an effective CTL response that rapidly cleared the infection. Reassortants of viruses that bound to α-DG at high and low affinities were used to map genes responsible for the differences described to the S RNA, containing the virus attachment protein glycoprotein 1.

T Cells Infiltrate the Brain in Murine and Human Transmissible Spongiform Encephalopathies

ABSTRACT CD4 and CD8 T lymphocytes infiltrate the parenchyma of mouse brains several weeks after intracerebral, intraperitoneal, or oral inoculation with the Chandler strain of mouse scrapie, a pattern not seen with inoculation of prion protein knockout (PrP−/−) mice. Associated with this cellular infiltration are expression of MHC class I and II molecules and elevation in levels of the T-cell chemokines, especially macrophage inflammatory protein 1β, IFN-γ-inducible protein 10, and RANTES. T cells were also found in the central nervous system (CNS) in five of six patients with Creutzfeldt-Jakob disease. T cells harvested from brains and spleens of scrapie-infected mice were analyzed using a newly identified mouse PrP (mPrP) peptide bearing the canonical binding motifs to major histocompatibility complex (MHC) class I H-2b or H-2d molecules, appropriate MHC class I tetramers made to include these peptides, and CD4 and CD8 T cells stimulated with 15-mer overlapping peptides covering the whole mPrP. Minimal to modest Kb tetramer binding of mPrP amino acids (aa) 2 to 9, aa 152 to 160, and aa 232 to 241 was observed, but such tetramer-binding lymphocytes as well as CD4 and CD8 lymphocytes incubated with the full repertoire of mPrP peptides failed to synthesize intracellular gamma interferon (IFN-γ) or tumor necrosis factor alpha (TNF-α) cytokines and were unable to lyse PrP−/− embryo fibroblasts or macrophages coated with 51Cr-labeled mPrP peptide. These results suggest that the expression of PrPsc in the CNS is associated with release of chemokines and, as shown previously, cytokines that attract and retain PrP-activated T cells and, quite likely, bystander activated T cells that have migrated from the periphery into the CNS. However, these CD4 and CD8 T cells are defective in such an effector function(s) as IFN-γ and TNF-α expression or release or lytic activity.

Measles virus infection results in suppression of both innate and adaptive immune responses to secondary bacterial infection

Among infectious agents, measles virus (MV) remains a scourge responsible for 1 million deaths per year and is a leading cause of childhood deaths in developing countries. Although MV infection itself is not commonly lethal, MV-induced suppression of the immune system results in a greatly increased susceptibility to opportunistic bacterial infections that are largely responsible for the morbidity and mortality associated with this disease. Despite its clinical importance, the underlying mechanisms of MV-induced immunosuppression remain unresolved. To begin to understand the basis of increased susceptibility to bacterial infections during MV infection, we inoculated transgenic mice expressing the MV receptor, CD46, with MV and Listeria monocytogenes. We found that MV-infected mice were more susceptible to infection with Listeria and that this corresponded with significantly decreased numbers of macrophages and neutrophils in the spleen and substantial defects in IFN-gamma production by CD4(+) T cells. The reduction in CD11b(+) macrophages and IFN-gamma-producing T cells was due to reduced proliferative expansion and not to enhanced apoptosis or to altered distribution of these cells between spleen, blood, and the lymphatic system. These results document that MV infection can suppress both innate and adaptive immune responses and lead to increased susceptibility to bacterial infection.

Perturbation of differentiated functions during viral infectionin Vivo I. Relationship of lymphocytic choriomeningitis virus and host strains to growth hormone deficiency

Disordered growth and glucose metabolism secondary to growth hormone deficiency is associated with persistent lymphocytic choriomeningitis virus (LCMV) infection. C3H/St, BALB/WEHI, and SWR/J mice infected at birth with LCMV:ARM carried virus in their blood and organs throughout life but only C3H/St mice developed growth hormone insufficiency. BALB/WEHI and SWR/J infected mice contained normal amounts of growth hormone in their pituitaries and a relatively small proportion of the cells containing growth hormone replicated the virus. In susceptible C3H/St mice, the disease-causing viral strains (LCMV:ARM, E-350, and Pasteur) replicated to higher titers and infected the vast majority of cells producing growth hormone in the anterior lobe of the pituitary. In contrast, LCMV strains Traub and WE replicated in far fewer growth hormone-producing cells and failed to disorder growth hormone synthesis. In another paper (Y. Riviere, R. Ahmed, P. Southern, and M. B. A. Oldstone (1985), Virology 142, 175-182) these findings are used to make reassortants between LCMV:ARM (disease positive) and LCMV:WE (disease nil) and the pathogenic effect is mapped to the small RNA segment of LCMV:ARM. Peptides cleaved by trypsin and chymotrypsin from growth hormone molecules isolated from infected cells or control cells were equivalent when examined by two-dimensional electrophoresis. Further, transfer of antibody to interferon failed to alter the growth hormone insufficiency in these mice, although it corrected LCMV-induced liver disease of BALB mice, suggesting that interferon did not play a dominant role in this disease. The selective tropism of LCMV:ARM for cells containing growth hormone over cells that contain prolactin was observed in both infected animals and in cultured GH-3 cells.

Immune complex disease associated with spontaneous murine leukemia: Incidence and pathogenesis of glomerulonephritis☆

Glomerulonephritis accompanies a large proportion of murine leukemia viral infections. AKR mice, which spontaneously developed leukemia after natural infection by Gross murine leukemia virus showed progressive manifestations of immune complex glomerulonephritis. Hence, by 9 months of age, 68% of these mice had histologic evidence of nephritis, whereas 89% had granular deposits of viral antigen, host immunoglobulin, and complement in their glomeruli. Subepithelial and subendothelial deposits were seen by electron microscopy. Similarly, nearly all mice of strains ordinarily not subject to renal disease developed immune complex glomeru-lonephritis after experimental infection with Raucher leukemia virus.

A role for dual viral hits in causation of subacute sclerosing panencephalitis

Subacute sclerosing panencephalitis (SSPE) is a progressive fatal neurodegenerative disease associated with persistent infection of the central nervous system (CNS) by measles virus (MV), biased hypermutations of the viral genome affecting primarily the matrix (M) gene with the conversion of U to C and A to G bases, high titers of antibodies to MV, and infiltration of B cells and T cells into the CNS. Neither the precipitating event nor biology underlying the MV infection is understood, nor is their any satisfactory treatment. We report the creation of a transgenic mouse model that mimics the cardinal features of SSPE. This was achieved by initially infecting mice expressing the MV receptor with lymphocytic choriomeningitis virus Cl 13, a virus that transiently suppressed their immune system. Infection by MV 10 days later resulted in persistent MV infection of neurons. Analysis of brains from infected mice showed the biased U to C hypermutations in the MV M gene and T and B lymphocyte infiltration. These sera contained high titers of antibodies to MV. Thus, a small animal model is now available to both molecularly probe the pathogenesis of SSPE and to test a variety of therapies to treat the disease.

Behavioral effects of persistent lymphocytic choriomeningitis virus infection in mice

Lymphocytic choriomeningitis virus (LCMV) is a nonlytic murine virus that provides a valuable model system for studying the behavioral correlates of CNS viral infection. Newborn or immunosuppressed mice infected with LCMV develop a persistent tolerant infection characterized by continuous viral production. Virus can be found in various body organs including lung, liver, kidney, and brain. In brain, neurons are the predominant CNS cells infected and the greatest number of persistently infected neurons are found in the cerebral cortex, hippocampus, other limbic structures and parts of the hypothalamus. Despite continuous infection throughout the animals life, neurons show no structural injury or dropout. Mice from the DBA/2J strain were infected with LCMV (1000 plaque-forming units) within 18 h of birth and tested for behavioral function as adults. Plaque assays indicated persistent infection in virus-injected mice. Mice were tested for their ability to learn a Y-maze spatial discrimination to avoid the onset of a mild footshock (0.43 mA). The number of correct avoidance responses made during training was taken as a measure of acquisition performance. The virus-infected mice showed a deficit in acquisition of the Y-maze discrimination compared to that seen in vehicle-injected and noninjected controls. Following additional training to reach control levels of performance, the infected mice and the controls were injected with the cholinergic antagonist scopolamine. Scopolamine (2.0 mg/kg) disrupted the performance of the infected mice significantly more than control performance, suggesting that a cholinergic dysfunction accounted for some of the learning deficit. A separate group of virus-infected mice exhibited hypoactivity during the first exposure to a locomotor testing apparatus.(ABSTRACT TRUNCATED AT 250 WORDS)

Virus-lymphocyte interactions III. Biologic parameters of a virus variant that fails to generate CTL and establishes persistent infection in immunocompetent hosts

Viruses that cause in vivo persistent infections avoid the hosts immunologic surveillance machinery. A major component of that armamentarium is virus-specific MHC-restricted cytotoxic T lymphocyte (CTL) response of the host. Studies with lymphocytic choriomeningitis virus (LCMV) have uncovered a parental virus (CTL+) that in immuno-competent adults induces CTL and terminates acute infection and a variant (CTL-) that fails to elicit CTL responses and establishes a persistent state (R. Ahmed et al. (1984) J. Exp. Med. 160, 521-540). The biologic properties, similarities, and differences between CTL+ and CTL- viruses as regards their interactions with lymphocytes of newborn and adult mice is recorded here. CTL+ and CTL- viruses persist in lymphocytes of newborn inoculated mice, primarily within the T helper subset. Approximately 2% of lymphocytes express viral nucleic acid sequences while only 0.04% score as infectious centers suggesting incomplete viral replication. These levels were maintained over the course of infectious. In contrast, CTL- virus but not CTL+ persists in lymphocytes of mice inoculated when adults. Lymphocytes easily scored as infecting centers but rarely displayed nucleic acid sequences suggesting a different balance of incomplete to complete virion replication. Further, infectious centers decreased by 10-fold from the 3rd to 68th day of infection and the total numbers of T lymphocytes in the circulation decreased suggesting CTL- may replicate in and destroy lymphocytes of adult mice. In the following paper the primary nucleotide structure of the LCMV small RNA segment, the segment responsible for generation of CTL and encoding the proteins recognized by CTL, for CTL+ and CTL- viruses is reported.

Novel LCMV-specific H-2k restricted CTL clones recognize internal viral gene products and cause CNS disease

H-2k (C3H/Hej) cytotoxic T lymphocytes (CTL) specific for lymphocytic choriomeningitis virus (LCMV) were cloned. Three clones recognizing internal viral antigens were studied. One such CTL clone recognized neither the glycoprotein nor nucleoprotein encoded by the viral short RNA segment, but reacted with a protein encoded by the long RNA segment, either the viral polymerase, or the Z protein. This one clone, in addition to primary CTL harvested from immunized C3H mice, failed to lyse target cells expressing the Z protein, suggesting recognition was to the viral polymerase. Two other clones recognized the viral nucleoprotein, amino acids 93-100, as determined by protein deletion and peptide mapping studies. When introduced directly into the central nervous systems of LCMV-infected histocompatible mice, all clones were active in vivo and capable of causing immunopathologically mediated death.

Cytotoxic T lymphocytes do not control lymphocytic choriomeningitis virus infection of BB diabetes-prone rats.

BioBreeding Worcester diabetes-prone (BBdp) rats develop insulin-dependent autoimmune-driven diabetes mellitus spontaneously and intravenous administration of 1 x 10(7) p.f.u. of lymphocytic choriomeningitis virus (LCMV) to young adult mice prevents disease. The virus is lymphotropic, binding to and replicating in such cells. BBdp rats fail to generate virus-specific major histocompatibility complex-restricted cytotoxic T lymphocyte (CTL) responses when challenged with this dose or other doses of LCMV, Pichinde virus or vaccinia virus. Yet such rats clear virus effectively and show no evidence of persistent infection. Associated with this clearance of virus and establishment of immunity is the production of neutralizing antibodies. In contrast, diabetes-resistant (BBdr) rats generate virus-specific CTL responses. Furthermore LCMV binds to fewer lymphoid cells of BBdr rats (in comparison to those of BBdp rats) and replicates in fewer lymphocytes (by one order of magnitude) from these rats. Thus, unlike mice in which CTLs play a dominant role in the control of LCMV infection, BBdp rats do not overcome this infection via CTLs. In addition, both the BBdp rats and their BBdr counterpart may provide useful models for determining whether or how individual lymphocyte subsets function in the induction of CTL responses, for the analysis of virus-induced immunosuppression and for the use of viruses or their products as therapeutic modalities.