Oligoclonal T cells are infiltrating the brains of children with AIDS: sequence analysis reveals high proportions of identical beta-chain T-cell receptor transcripts.

We have recently described the presence of perivascular CD3+ CD45RO+ T cells infiltrating the brains of children with AIDS. To determine whether these infiltrates contain oligoclonal populations of T cells, we amplified by PCR beta-chain T-cell receptor (TCR) transcripts from autopsy brains of four paediatric patients with AIDS. The amplified transcripts were cloned and sequenced. Sequence analysis of the beta-chain TCR transcripts from all four patients revealed multiple identical copies of TCR beta-chain transcripts, suggesting the presence of oligoclonal populations of T-cells. These TCR transcripts were novel. The presence of oligoclonal populations of T cells in the brains of these four paediatric patients with AIDS suggests that these T cells have undergone antigen-driven proliferation and clonal expansion very likely in situ, in the brains of these AIDS patients, in response to viral or self-antigens. Although the specificity of the clonally expanded beta-chain TCR transcripts remains to be elucidated, none of the beta-chain TCR transcripts identified in this study were identical to those specific for HIV-1 antigens that are currently reported in the GENBANK/EMBL databases. Certain common CDR3 motifs were observed in brain-infiltrating T cells within and between certain patients. Large proportions (24 of 61; 39%) of beta-chain TCR clones from one patient (NP95-73) and 2 of 27 (7%) of another patient (NP95-184-O) exhibited substantial CDR3 homology to myelin basic protein (MBP)-specific TCR derived from normal donors or TCR expressed in the brain of patients with multiple sclerosis (MS) or with viral encephalitis. These two patients (NP95-73 and NP95-184-O) also shared HLA class II with the normal donors and the MS patients who expressed these homologous TCR. Pathologic examination at autopsy of the brains revealed the presence of myelin pallor only in patient NP95-73. T-cell clones identified in the brain of patients NP95-73 and NP95-184-O may recognize MBP or another CNS self antigen and this recognition may be restricted by either DRB1*15 or DQB1*0602 specificities.

Immunopathology of secondary-progressive multiple sclerosis.

Twenty-three plaques obtained at early autopsy from 2 patients with secondary-progressive multiple sclerosis were examined immunohistochemically for microglia/macrophages, and for immunoglobulins and components of activated complement. Most of the lesions examined in both cases exhibited evidence of low-grade active demyelination of an unusual type (frustrated phagocytosis) in periplaque white matter. This included linear groups of microglia engaging short segments of disrupted myelin that were associated with deposits of C3d, an opsonin formed during complement activation. Similar microglia/C3d/myelin profiles were not observed in newly forming lesions in cases of acute multiple sclerosis or other central white matter diseases. As C3d coupling is known to increase the immunogenicity of potential antigens enormously, present findings point to disrupted myelin close to plaques as a possible source of the putative multiple sclerosis antigen. Ongoing myelin destruction found in a high proportion of old, established plaques was surprising. It suggests that slowly expanding lesions (progressive plaques), in which ongoing myelin breakdown occurs in the absence of florid perivascular cell cuffing or other histological signs of acute inflammation, contribute to disease progression in cases of secondary-progressive multiple sclerosis.

Presence of oligoclonal T cells in cerebrospinal fluid of a child with multiphasic disseminated encephalomyelitis following hepatitis A virus infection.

We have investigated the clonality of beta-chain T-cell receptor (TCR) transcripts from the cerebrospinal fluid (CSF) and peripheral blood from a 7-year old child who developed a multiphasic disseminated encephalomyelitis following an infection with hepatitis A virus. We amplified beta-chain TCR transcripts by nonpalindromic adaptor (NPA)-PCR-Vbeta-specific PCR. TCR transcripts from only five Vbeta families (Vbeta13, Vbeta3, Vbeta17, Vbeta8, and Vbeta20) were detected in CSF. The amplified products were combined, cloned, and sequenced. Sequence analysis revealed in the CSF substantial proportions of identical beta-chain of TCR transcripts, demonstrating oligoclonal populations of T cells. Seventeen of 35 (48%) transcripts were 100% identical, demonstrating a major Vbeta13.3 Dbeta2.1 Jbeta1.3 clonal expansion. Six of 35 (17%) transcripts were also 100% identical, revealing a second Vbeta13 clonal expansion (Vbeta13.1 Dbeta2.1 Jbeta1.2). Clonal expansions were also found within the Vbeta3 family (transcript Vbeta3.1 Dbeta2.1 Jbeta1.5 accounted for 5 of 35 transcripts [14%]) and within the Vbeta20 family (transcript Vbeta20.1 Dbeta1.1 Jbeta2.4 accounted for 3 of 35 transcripts [8%]). These results demonstrate the presence of T-cell oligoclonal expansions in the CSF of this patient following infection with hepatitis A virus. Analysis of the CDR3 motifs revealed that two of the clonally expanded T-cell clones exhibited substantial homology to myelin basic protein-reactive T-cell clones. In contrast, all Vbeta TCR families were expressed in peripheral blood lymphocytes. Oligoclonal expansions of T cells were not detected in the peripheral blood of this patient. It remains to be determined whether these clonally expanded T cells are specific for hepatitis A viral antigen(s) or host central nervous system antigen(s) and whether molecular mimicry between hepatitis A viral protein and a host protein is responsible for demyelinating disease in this patient.

Apoptosis in chronic rejection of human cardiac allografts.

BACKGROUND: We investigated the role of apoptosis (programed cell death) in the pathogenesis of chronic rejection. METHODS: Epicardial coronary arteries from cardiac allografts with chronic rejection were examined for apoptosis by the TUNEL assay. Double labeling was carried out using anti-CD3, anti-CD68, and anti-von Willenbrand factor (vWF) monoclonal antibodies. Additional immunostaining was carried using anti-Fas, anti-Fas-L, and anti-Bcl-2 monoclonal antibodies. Apoptosis-associated oligonucleosomal DNA degradation was assessed by DNA agarose gel electrophoresis. The transcription level of apoptosis-related caspase genes were determined using microarrays. RESULTS: Apoptotic cells (TUNEL+) were detected within the arterial wall and in perivascular areas. Double labeling demonstrated that apoptotic cells included T cells (CD3+), monocyte/macrophages (CD68+), and vascular endothelial cells (VWF+). Numbers and densities of TUNEL+ cells did not correlate with the degree of arterial stenosis. Apoptosis-associated oligonucleosomal DNA degradation was assessed by agarose gel electrophoresis of DNA, which showed DNA fragments of approximately 180 bp and multimers thereof (DNA laddering gel), which are characteristic for DNA fragmentation in apoptotic cells. Microarray analysis demonstrated that the apoptosis related caspases 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, were all transcribed (caspases 8, 9, and 10 were highly up-regulated). These results are consistent with the involvement of apoptosis in chronic rejection. Immunoreactivity for Fas/Fas-L was present at the sites of apoptotic cells. Immunoreactivity for Bcl-2 was present in areas with very few apoptotic cells. CONCLUSIONS: Apoptotic cells include T cells, monocyte/macrophages, and endothelial cells. Apoptosis, likely through the Fas/Fas-L system, is involved in the pathogenesis of chronic rejection in cardiac allografts.

Differential expression of TGF-beta, IL-2, and other cytokines in the CNS of Theiler's murine encephalomyelitis virus-infected susceptible and resistant strains of mice.

Intracranial inoculation of susceptible SJL mice with Theiler's murine encephalomyelitis virus (TMEV) results in biphasic disease consisting of early acute disease, followed by late chronic demyelinating disease, associated with mononuclear infiltrates and demyelinating lesions. In contrast, resistant C57BL/6 (B6) mice develop only early acute disease. We employed cytokine-specific RT-PCR to determine the expression of cytokine transcripts in the CNS of TMEV-infected SJL and B6 mice. During early acute disease, we have found a strong proinflammatory (Th1) cytokine response in the CNS of both TMEV-infected SJL and B6 mice, demonstrated by the expression of transcripts for IFN-gamma, IL-1, IL-6, IL-12p40, and TNF-alpha. At 8 days postinfection (p.i.), TGF-beta1 and TNF-alpha transcripts were present at significantly higher levels (P < 0.01) in the CNS of SJL susceptible mice in comparison to those found in the CNS of B6 mice. Immunohistochemical staining revealed that TGF-beta protein was expressed in leptomeningeal mononuclear inflammatory cell infiltrates in the brain of SJL mice but not in B6 mice, at 8 days p.i. TGF-beta may be responsible for the failure of SJL mice to develop an effective anti-TMEV CTL response. During late chronic demyelinating disease, high levels of proinflammatory Th1 cytokines were found in the CNS of SJL mice, but not B6 mice. Significantly higher levels (P < 0.01) of anti-inflammatory cytokine transcripts (IL-4, IL-5, and IL-10 (Th2 cytokines) and TGF-beta) were found in the spinal cord of TMEV-infected SJL mice with chronic demyelinating disease than in the spinal cord of B6 mice during the same time period (39 or 60 days p.i.). These anti-inflammatory cytokines may contribute to the downregulation of the proinflammatory response in SJL mice. High levels of IL-2 transcripts and protein appeared transiently in the spinal cord of TMEV-infected SJL mice before the onset of demyelinating disease and coincided with an influx of new T cells into the CNS and/or expansion of remaining T cells that have not been eliminated after viral clearance.

Angiocentric CD3(+) T-cell infiltrates in human immunodeficiency virus type 1-associated central nervous system disease in children.

A significant proportion of brain tissue specimens from children with AIDS show evidence of vascular inflammation in the form of transmural and/or perivascular mononuclear-cell infiltrates at autopsy. Previous studies have shown that in contrast to inflammatory lesions observed in human immunodeficiency virus type 1 (HIV-1) encephalitis, in which monocytes/macrophages are the prevailing mononuclear cells, these infiltrates consist mostly of lymphocytes. Perivascular mononuclear-cell infiltrates were found in brain tissue specimens collected at autopsy from five of six children with AIDS and consisted of CD3(+) T cells and equal or greater proportions of CD68(+) monocytes/macrophages. Transmural (including endothelial) mononuclear-cell infiltrates were evident in one patient and comprised predominantly CD3(+) T cells and small or, in certain vessels, approximately equal proportions of CD68(+) monocytes/macrophages. There was a clear preponderance of CD3(+) CD8(+) T cells on the endothelial side of transmural infiltrates. In active lesions of transmural vasculitis, CD3(+) T-cell infiltrates exhibited a distinctive zonal distribution. The majority of CD3(+) cells were also CD8(+) and CD45RO+. Scattered perivascular monocytes/macrophages in foci of florid vasculitis were immunoreactive for the p24 core protein. In contrast to the perivascular space, the intervening brain neuropil was dominated by monocytes/macrophages, microglia, and reactive astrocytes, containing only scant CD3(+) CD8(+) cells. Five of six patients showed evidence of calcific vasculopathy, but only two exhibited HIV-1 encephalitis. One patient had multiple subacute cerebral and brainstem infarcts associated with a widespread, fulminant mononuclear-cell vasculitis. A second patient had an old brain infarct associated with fibrointimal thickening of large leptomeningeal vessels. These infiltrating CD3(+) T cells may be responsible for HIV-1-associated CNS vasculitis and vasculopathy and for endothelial-cell injury and the opening of the blood-brain barrier in children with AIDS.

Inducible nitric oxide synthase and nitrotyrosine are found in monocytes/macrophages and/or astrocytes in acute, but not in chronic, multiple sclerosis.

We have examined the localization of inducible nitric oxide synthase (iNOS) and nitrotyrosine (the product of nitration of tyrosine by peroxynitrite, a highly reactive derivative of nitric oxide [NO]) in demyelinating lesions from (i) two young adult patients with acute multiple sclerosis (MS), (ii) a child with MS (consistent with diffuse sclerosis), and (iii) five adult patients with chronic MS. Previous reports have suggested a possible correlation between iNOS, peroxynitrite, related nitrogen-derived oxidants, and the demyelinating processes in MS. We have demonstrated iNOS-immunoreactive cells in both acute-MS and diffuse-sclerosis-type lesions. In acute-MS lesions, iNOS was localized in both monocytes/macrophages and reactive astrocytes. However, foamy (myelin-laden) macrophages and the majority of reactive astrocytes were iNOS negative. In specimens from the childhood MS patient, iNOS protein was present only in a subpopulation of reactive or hypertrophic astrocytes. In contrast, no iNOS staining was detected in chronic-MS lesions. Immunohistochemical staining of acute-MS lesions with an antibody to nitrotyrosine revealed codistribution of iNOS- and nitrotyrosine-positive cells, although nitrotyrosine staining was more widespread in cells of the monocyte/macrophage lineage. In diffuse-sclerosis-type lesions, nitrotyrosine staining was present in hypertrophic astrocytes, whereas it was absent in chronic-MS lesions. These results suggest that NO and nitrogen-derived oxidants may play a role in the initiation of demyelination in acute-MS lesions but not in the later phase of the disease.

Amplification of T-cell receptor alpha- and beta-chain transcripts from mouse spleen lymphocytes by the nonpalindromic adaptor-polymerase chain reaction.

We employed the nonpalindromic adaptor-PCR (NPA-PCR) method to amplify T-cell receptor (TCR) alpha- and beta-chain transcripts from the spleen of normal SJL mice. The NPA-PCR method has been specifically designed for the amplification of transcripts with variable or unknown 5' ends, such as TCRs and immunoglobulins (Ig). This method has certain distinct advantages over existing two-sided PCR methods for the amplification of TCR transcripts. Two NPA-PCR amplifications are sufficient to amplify all the TCR transcripts (one for the alpha-chain and another one for the beta-chain). Amplification of TCR transcripts by classical two-sided PCR requires a minimum of 45 amplification reactions for the murine TCR (20 for the V alpha families and 25 for the V beta families), using 45 different V-family-specific amplification primers. cDNA was synthesized from spleen RNA, using oligonucleotides complementary to sequences of either the murine TCR C alpha or C beta regions. The NotI restriction site was conjugated to these primers and therefore, a NotI restriction site was incorporated at the 3' end of the cDNA. A double-stranded nonpalindromic adaptor (EcoRI-XmnI strand and XmnI G strand, which are complementary to each other) was ligated onto both ends of the double-stranded cDNA. The adaptor was removed from the 3' end by NotI nuclease digestion whereas the adaptor was retained at the 5' end. Two rounds of PCR amplification were carried out. In the first, the EcoRI-XmnI adaptor was used as 5' end amplification primer; an antisense C region primer, designated mC alpha 2 or mC beta 2 (for the alpha- and beta-chain, respectively), was used as 3' amplification primer. In the second round of PCR amplification the same 5' end primer and a 3' end antisense primer, designated mC alpha 1 or mC beta 1, were used. These mC alpha 1 and mC beta 1 primers are located 5' to the mC alpha 2/mC beta 2 primers that were used for the first amplification. The amplified transcripts were cloned. Colonies were screened using a 32P-labeled probe, either C alpha or C beta, located 5' to those used for the last amplification and many positive clones were isolated and sequenced. All clones were unique when compared to each other, as anticipated for polyclonal T-cell populations. Comparison of the sequences obtained to those in the GENBANK/EMBL database revealed that they were typical of mouse alpha- or beta-chain TCR. With the exception of two beta-chain TCR transcripts, all the sequences shown here (36 alpha-chain and 20 beta-beta chain) have not been previously reported to the GENBANK/EMBL database.

Inducible nitric oxide synthase in Theiler's murine encephalomyelitis virus infection.

We investigated the role of inducible nitric oxide synthase (iNOS) in Theiler's murine encephalomyelitis virus (TMEV) infection of susceptible (SJL) and resistant (C57BL/6 [B6]) strains of mice. TMEV is an excellent model of virus-induced demyelinating disease, such as multiple sclerosis (MS). Previous studies of others have suggested that NO may play a role in the pathogenesis of demyelinating disease. The presence and level of iNOS were determined in the brains and spinal cords of SJL and B6 TMEV-infected mice by the following methods: (i) PCR amplification of iNOS transcripts, followed by Southern blotting with an iNOS-specific probe, and (ii) immunohistochemical staining with an anti-iNOS-specific affinity-purified rabbit antibody. iNOS-specific transcripts were determined in the brains and spinal cord of both SJL and B6 TMEV-infected mice on days 0 (control), days 3, 6, and 10 (encephalitic stage of disease), and days 39 to 42, 66, and 180 (demyelinating phase) postinfection (p.i.). iNOS-specific transcripts were found in the brains and spinal cords of both SJL and B6 TMEV-infected mice at 6, 10, and 39 (SJL) days p.i., but they were absent in mock-infected mice and in TMEV-infected SJL and B6 mice at 0, 3, 66, and 180 days p.i. Immunohistochemical staining confirmed the presence of iNOS protein in both TMEV-infected SJL and B6 mice at days 6 and 10 p.i., but not at days 0, 3, 66, and 180 days p.i. Weak iNOS staining was also observed in TMEV-infected SJL mice at 42 days p.i. iNOS-positive staining was found in reactive astrocytes surrounding areas of necrotizing inflammation, particularly in the midbrain. Weak iNOS staining was also observed in cells of the monocyte/macrophage lineage in areas of parenchymal inflammation and necrosis (mesencephalon) and in leptomeningeal and white matter perivascular infiltrates of the spinal cord. Rod-shaped microglia-like cells and foamy macrophages (myelin-laden) were iNOS negative. These results suggest that NO does not play a direct role in the late phase of demyelinating disease in TMEV-infected mice.

An anti-LFA-1 monoclonal antibody (LDA-8) induces cellular aggregation of human lymphoblastoid cell lines and peripheral blood lymphocytes.

The human leukocyte-function-associated antigen-1 (LFA-1) plays a key role in intercellular adhesion interactions of the immune response. A monoclonal antibody (mab), designated LDA-8, is described that recognizes LFA-1. In contrast to nearly all other anti-LFA-1 mabs, which inhibit cellular aggregation, LDA-8 induces cell-cell aggregation. The LDA-8 mab was generated by immunizing mice with membrane fragments from the Jurkat T-cell line. The LDA-8 mab stained peripheral blood mononuclear cells (PBMC), monocyte-depleted peripheral blood lymphocytes, purified monocytes, and a number of T and B tumor cell lines. The LDA-8 mab induced aggregation of PBMC from normal donors, as well as of cells from T-cell lines (MOLT4 and CEM). Control mabs directed against HLA class 1 or CD4 did not induce aggregation. Aggregation was concentration- and time-dependent. EDTA added to the cultures 1 hour prior to or together with the LDA-8 mab did not inhibit LDA-8-induced aggregate formation. Anti LFA-1 alpha-chain mab added to the cells 1 hour prior to LDA-8 mab, or together with the LDA-8 mab, also did not inhibit LDA-8-induced aggregation. In contrast, anti-LFA-1 beta-chain mab, added to the cells together with or 1 hour prior to the LDA-8 mab, significantly inhibited LDA-8-induced aggregate formation. The LDA-8 mab immunoprecipitated two polypeptide chains of 110 kDa and 160 kDa under non-reducing conditions and of 92 kDa and 162 kDa under reducing conditions, from cells of the MOLT-4 or CEM T-cell lines or phytohemagglutinin (PHA)-stimulated PBMC. The molecular mass of these polypeptides was identical to that of polypeptides immunoprecipitated by the anti-LFA-1 TS1.22 mab, suggesting that the LDA-8 mab and the anti-LFA-1 mab recognize the same molecule. This was confirmed by sequential immunoprecipitation. The LDA-8 mab recognizes a unique epitope on LFA-1 and induces cell aggregation that is blocked by mabs recognizing the beta-chain, but not the alpha-chain of the LDA-1 molecule.

Molecular mimicry between Fc receptor and S peplomer protein of mouse hepatitis virus, bovine corona virus, and transmissible gastroenteritis virus.

We have previously demonstrated molecular mimicry between the S peplomer protein of mouse hepatitis virus (MHV) and Fc gamma R (Fc gamma R). A monoclonal antibody (MAb) to mouse Fc gamma R (2.4G2 anti-Fc gamma R MAb), purified rabbit immunoglobulin, but not their F(ab')2 fragments, as well as mouse and rat IgG, immunoprecipitated (1) recombinant S peplomer protein expressed by a vaccinia virus recombinant in human, rabbit, and mouse cells, and (2) natural S peplomer protein from cells infected with several strains of MHV and MHV escaped mutants. We report here results of studies documenting molecular mimicry between Fc gamma R and S peplomer protein of viruses representing three distinct antigenic subgroups of the Coronaviridae. We have shown a molecular mimicry between the S peplomer protein of bovine corona virus (BCV) and Fc gamma R. The 2.4G2 anti-Fc gamma R MAb, rabbit IgG, but not its F(ab')2 fragments, as well as homologous bovine serum, free of anti-BCV antibodies, immunoprecipitated S peplomer protein of BCV (Mebus strain). In contrast, we did not find molecular mimicry between S peplomer protein of human corona virus (HCV-OC43) and Fc gamma R. Although the OC43 virus belongs to the same antigenic group as MHV and BCV, MAb specific for human Fc gamma RI or Fc gamma RII and purified human IgG1, IgG2, and IgG3 myeloma proteins did not immunoprecipitate the S peplomer protein from HCV-OC43-infected RD cells. In addition, we did demonstrate molecular mimicry between the S peplomer protein of porcine transmissible gastroenteritis virus (TGEV) and Fc gamma R. TGEV belongs to the second antigenic subgroup of coronaviridae.(ABSTRACT TRUNCATED AT 250 WORDS)

Immunology of Theiler's murine encephalomyelitis virus infection.

Theiler's murine encephalomyelitis virus (TMEV) is a single-stranded RNA virus that belongs to the family of picornaviruses. Intracranial inoculation of susceptible mouse strains with TMEV results in biphasic disease, consisting of early acute disease that resembles poliomyelitis, followed by late chronic demyelinating disease that is characterized by the appearance of chronic inflammatory demyelinating lesions. Susceptibility to TMEV infection is genetically controlled by three loci: one that maps to the H-2D region of the major histocompatibility complex, one to the beta-chain constant region of the T-cell antigen receptor, and one located on chromosome 3. Both early acute and chronic late demyelinating diseases are immunologically mediated. T cells appear to play an important role in the pathogenesis of the disease. TMEV-induced demyelinating disease in mice has extensive similarities with multiple sclerosis, and it is considered one of the best experimental animal models for multiple sclerosis.

Molecular mimicry between Fc receptors and viral antigens.

Molecular mimicry has been characterized as the presence of common epitopes, either linear or conformational, shared by host and microbial determinants. Such cross-reactivity may lead to an autoimmune disease. On the other hand molecular mimicry between certain viral proteins and host determinant may protect invading virus to be eliminated by immune system and may promote persistence. In this mini-review I discuss the molecular mimicry of S peplomer protein of mouse hepatitis virus, strain JHM (MHV-JHM) to the host Fc gamma receptor (Fc gamma R). MHV-JHM induces in rodents acute encephalomyelitis and surviving animals develop demyelinating disease with concomitant persistent infection. We have demonstrated that rabbit IgG, but not is F(ab')2 fragments, monoclonal rat and mouse IgG and the rat 2.4G2 anti-Fc gamma R mab immunoprecipitated natural and recombinant S peplomer protein of several strains of MHV. Furthermore, MHV-JHM infected cells formed rosettes with anti-sheep red blood cell (SRBC) - antibody coated SRBC. The 2.4G2 anti-Fc gamma R mab are able to neutralize several strains of MHV, presumably by binding to S peplomer protein. Therefore, the Fc binding site of S is present on the surface of MHV-infected cells. This molecular mimicry between S peplomer protein of MHV-JHM and Fc gamma R has been extended to other members of Coronaviridae, namely bovine coronavirus and transmissible gastroenteritis virus but not to infectious bronchitis virus. The molecular mimicry of viral antigens to Fc receptors has been described also for members of Herpesviridae, namely Herpes simplex, cytomegalovirus and Varicella zoster.(ABSTRACT TRUNCATED AT 250 WORDS)

Molecular mimicry between S peplomer proteins of coronaviruses (MHV, BCV, TGEV and IBV) and Fc receptor.

In previous studies we have demonstrated molecular mimicry between the S peplomer protein of Mouse Hepatitis Virus (MHV) and Fc gamma Receptor (Fc gamma R) of IgG. Rabbit IgG, but not its F(ab')2 fragments, monoclonal rat and mouse IgG and the rat 2.4G2 anti-mouse Fc gamma R monoclonal antibody (mab) immunoprecipitated natural and recombinant MHV S protein. On the basis of a number of criteria, MHV S peplomer protein exhibits Fc IgG binding ability. We report here a molecular mimicry between the S peplomer protein of Bovine Coronavirus (BCV) and Fc gamma R. BCV S peplomer protein which belongs to the same antigenic subgroup as MHV also binds Fc portion of rabbit IgG and is immunoprecipitated by the 2.4G2 anti-Fc gamma R mab. In contrast, Transmissible Gastroenteritis Coronavirus (TGEV) and Infectious Bronchitis Virus (IBV) S peplomer proteins which represent two distinct antigenic subgroups of Coronaviridae do not bind rabbit IgG and do not react with anti-Fc gamma R mab. However, homologous swine IgG, but not its F(ab')2 fragments, immunoprecipitated from TGEV-infected cells a polypeptide chain with molecular mass of 195 kDa, identical to that immunoprecipitated by the T36 mab anti-TGEV S peplomer protein.

Human hybridoma-derived suppressor factor 160 and transforming growth factor-beta are different molecules.

We have previously identified a suppressor factor (SF), designated 160 constitutively produced by human T-T-cell hybridomas generated by fusing Con A-activated human peripheral blood lymphocytes from a normal donor with cells of the Jurkat tumor T-cell line (Hybridoma 8:127-151, 1989). The 160 SF inhibited in vitro proliferative responses to polyclonal activators and allogeneic cells, and immunoglobulin synthesis and secretion of human and mouse lymphocytes. We investigated whether the hybridoma-derived 160 SF and transforming growth factor-beta (TGF-beta) are distinct molecules. TGF-beta has been shown to inhibit a number of lymphocyte responses. In agreement with our previous findings, the 160 SF abrogated the proliferative responses of human peripheral blood mononuclear cells (PBMC) to mitogens and allogeneic cells in mixed lymphocyte culture. In contrast, TGF-beta, added to the PBMC cultures at the same time with the mitogen or the stimulating allogeneic cells, had no effect on the proliferative response. Acid treatment of the 160 SF completely abolished the 160 SF activity. In contrast, this treatment results in activation of the latent TGF-beta form to the active form, and acidification does not affect the function of existing active TGF-beta. A polyclonal anti-TGF-beta antibody did not detect TGF-beta by Western blotting in concentrated (10x) 160 SF preparations. In addition, the 160 SF did not induce the anchorage-independent growth of NRK fibroblasts in the presence of EGF.TGF-beta at concentrations as low as 1 ng/ml, in the presence of EGF, induced the anchorage-independent growth of the anchorage-dependent indicator NRK cells.(ABSTRACT TRUNCATED AT 250 WORDS)

Microheterogeneity of S-glycoprotein of mouse hepatitis virus temperature-sensitive mutants.

Mouse hepatitis virus (MHV) strain JHM (MHV-JHM) is a neurotropic coronavirus that causes acute fatal encephalomyelitis in 75-99% of infected mice. The surviving animals may subsequently develop demyelinating disease. We compared the S peplomer protein of the wild type (wt) and five temperature-sensitive (ts) mutants of MHV-JHM. In contrast with the wt, none of these five cause fatal disease (mortality less than 10%). Three of these ts mutants did not induce any demyelinating disease, a fourth caused demyelinating disease in 5% of the animals and a fifth, designated ts8, exhibited strong demyelinating properties and caused demyelination in 99% of the animals. SDS-PAGE analysis revealed no differences in the molecular weight of S peplomer protein of wt or ts MHV-JHM mutants. However, isoelectric focusing of the S protein of these five ts mutants and the wt MHV-JHM, followed by transfer to nitrocellulose sheets and immunoblotting with anti-S specific antibody revealed significant differences in the microheterogeneity of the S protein.

MHV S peplomer protein expressed by a recombinant vaccinia virus vector exhibits IgG Fc-receptor activity.

We have previously shown that cells infected with mouse hepatitis virus (MHV) bind rabbit, mouse, and rat IgG by the Fc portion of the IgG molecule. This Fc-binding activity appeared to be mediated by the MHV S protein. S protein could also be precipitated from MHV-infected cells by a monoclonal antibody directed against the murine Fc gamma receptor (Fc gamma R). To prove definitively that the S protein mediates Fc-binding activity, we have expressed the MHV S protein utilizing recombinant vaccinia viruses. The anti-Fc gamma R monoclonal antibody, 2.4G2, precipitated recombinant S protein in cells of murine, human, and rabbit origin. Since the anti-Fc receptor monoclonal antibody does not react with human and rabbit Fc receptors these results demonstrate that the epitope recognized by this antibody is carried on the MHV S protein and is not murine in origin. Examination of various MHV isolates and escape mutants failed to identify the precise sequences in S responsible for the molecular mimicry of the murine Fc gamma R. These data are consistent with the hypothesis that a previously identified region of similarity between the S protein and the Fc gamma R mediates this activity. The Fc binding activity of S was expressed on the cell surface, since MHV-JHM-infected cells, but not uninfected cells, formed rosettes with anti-sheep red blood cell (SRBC) antibody-coated SRBC. The anti-Fc gamma R monoclonal antibody neutralized MHV-JHM and inhibited syncytium formation induced by the MHV S protein.

Hybridoma-derived human suppressor factors: inhibition of growth of tumor cell lines and effect on cytotoxic cells.

With the objective of developing human T-T cell hybrids producing B-cell growth factor, we fused concanavalin A-activated T lymphocytes with cells of the Jurkat T cell line. The hybrids were selected on the basis of their ability to form colonies in soft agar, whereas the parent Jurkat T cell line did not. T-T cell hybrids were HLA-typed, screened by functional tests, and recloned by limiting dilution. In addition to obtaining B-cell growth factor-producing hybrids, we also obtained certain other T-T cell hybrids (as determined by HLA-typing) producing suppressor factors inhibiting proliferative responses and antibody production by human lymphocytes. Subsequently, a suppressor factor with similar inhibitory properties was identified in supernatants of the Jurkat T cell line. However, the Jurkat factor exhibited different biochemical and functional properties than the hybridoma-derived suppressor factors. Using two-parameter cell cycle analysis and the metachromatic fluorochrome acridine orange, we found that the hybridoma-derived 160 and 169 suppressor factors arrested phytohemagglutinin-induced proliferative of peripheral blood mononuclear cells in the G0/G1 phase of the cell cycle, whereas the Jurkat suppressor factor arrested proliferation in the S phase. Incubation of peripheral blood mononuclear cells with the 160, 169, or Jurkat suppressor factors for 24 hr at 37 degrees C, followed by washing, did not alter their cell cycle progression (or RNA content) in response to stimulation with phytohemagglutinin. The hybridoma-derived 160 and 169 suppressor factors and the Jurkat factor inhibited the growth but not the viability of cells from the following human tumor cell lines: A673 sarcoma cell line, SK-LC-6 and SK-LC-14 lung cell lines, SB, Raji, and Daudi lymphoblastoid cell lines, and FARR malignant melanoma cell line. In contrast, it did not affect the growth of murine L1210 cells and FS-4 normal human diploid fibroblasts. The hybridoma-derived 160 suppressor factor was selected to investigate its effect on cell-mediated cytotoxicity. The 160 suppressor factor did not inhibit natural killer cytotoxicity or its augmentation by interferon alpha or interleukin 2 or the generation of lymphokine-activated killer cells. However, this factor partially inhibited the generation of specific T cell-mediated cytotoxicity.

Persistent infection of a glioma cell line generates a Theiler's virus variant which fails to induce demyelinating disease in SJL/J mice.

Theiler's murine encephalomyelitis virus (TMEV) induces demyelinating disease which is associated with persistent virus infection of the central nervous system. To study the interaction between TMEV and host cells, we infected the G26-20 glioma cell line in vitro, and this resulted in a lytic infection in which most, but not all, cells were killed. Surviving cells divided and formed a viable monolayer in which a small proportion of cells displayed viral cytopathic effects. Levels of virus produced by these cultures over a 6 month period fluctuated between 6 and 8 log10 p.f.u./ml as measured by viral plaque assay. Similarly, the percentage of cells producing both viral antigen and viral RNA, as measured by a simultaneous immunoperoxidase/in situ hybridization technique, varied between 5 and 30%. Although persistently infected cultures were susceptible to challenge by both vesicular stomatitis virus and herpes simplex virus, they were resistant to infection by homologous viruses. Interferon activity was not identified. TMEV isolated from passage 12 produced smaller plaques than wild-type Daniels strain virus (wt-DAV) on L-2 cell monolayers. In contrast to demyelination induced in SJL/J mice after intracerebral inoculation with wt-DAV, mice infected with the small plaque variant virus failed to develop viral persistence or chronic demyelination. However, following immunosuppression by total body irradiation, SJL/J mice infected with the small plaque variant developed viral persistence but no demyelination. Characterization of the biochemical and molecular determinants of the variant will lead to a better understanding of determinants important in viral persistence.

Immunoglobulin Fc binding activity is associated with the mouse hepatitis virus E2 peplomer protein.

Antigenic variation among murine coronaviruses is associated primarily with the surface peplomer protein E2 (180,000 Da). E2 is responsible for attachment of the virus to the host cell, MHV-induced cell fusion, and eliciting neutralizing antibody. We report here the molecular mimicry between E2 and Fc gamma receptor (Fc gamma R). Molecular mimicry between E2 and Fc gamma R may allow the escape of virus-infected cells from destruction by immunological mechanisms. Rabbit IgG, monoclonal rat IgG1 and IgG2b, monoclonal mouse IgG2a and IgG2b, and the rat anti-mouse Fc gamma R monoclonal antibody 2.4G2 immunoprecipitated from MHV-JHM-infected cells a polypeptide with a molecular mass identical to that immunoprecipitated by anti-E2 antibodies. F(ab')2 fragments of rabbit IgG did not immunoprecipitate any proteins from MHV-infected cells. All of these antibodies did not immunoprecipitate any proteins from uninfected cells. The anti-mouse Fc gamma R monoclonal antibody 2.4G2 immunoprecipitated from MHV-JHM-, MHV-3-, or MHV-A59-infected L-2 cells and 17CL-1 cells, or MHV-JHM-infected cultures of neonatal BALB/c brain cells, a protein with a molecular weight identical to that of MHV-JHM E2. The anti-Fc gamma R monoclonal antibody did not immunoprecipitate any proteins from uninfected cells. Furthermore, the 2.4G2 monoclonal antibody (mab), unrelated rat and mouse monoclonal antibodies, and a goat antiserum against E2, but not normal goat serum, immunoprecipitated a 75,000- to 77,000-Da molecule from uninfected WEHI-3 cells, a Fc gamma R bearing cell line. Several lines of evidence demonstrated that the protein immunoprecipitated by the anti-Fc gamma R mab from MHV-JHM-infected cells is the E2 glycoprotein: (1) Partial proteolytic maps obtained by Staphylococcus aureus V-8 protease treatment of the 180,000-Da proteins immunoprecipitated by the anti Fc gamma R mab and the anti-E2 mab were identical. (2) Sequential immunoprecipitation experiments from MHV-JHM-infected cells revealed that the same polypeptide chain was recognized by the anti-E2 mab and by the anti-Fc gamma R mab 2.4G2, (3) Actinomycin D did not influence the induction and expression of the 180,000-Da polypeptide chain that was immunoprecipitated by the anti-Fc gamma R mab, demonstrating that this protein is of viral origin.