The Journal of Experimental Medicine

Katagiri, T; Cohen, P L; Eisenberg, R A

doi: 10.1084/jem.167.3.741pmid: 3258351

The lpr gene induces marked lymphoproliferation characterized by the massive accumulation of T cells of an unusual phenotype and concomitant autoimmune disease. To clarify the mechanism of the lpr effect, bone marrow cells from B6-lpr/lpr (Ly-1.2) and B6-+/+ (Ly-1.1) mice were transferred into lethally irradiated B6-lpr/lpr mice. As has been previously reported, recipients of the B6-lpr/lpr bone marrow showed the typical lpr phenotype with marked lymphadenopathy, splenomegaly and increased levels of autoantibodies; while the recipients of B6-+/+ bone marrow had normal sized lymph nodes and spleen and no autoantibodies. A third group of mice received an equal mixture of bone marrow cells from the B6-lpr/lpr and B6-+/+ donors. These mice showed both lymphadenopathy and autoantibody production comparable to that of recipients of the B6-lpr/lpr marrow alone. Immunofluorocytometric analysis of the lymphoid populations in these mixed bone marrow recipients established that the T cells from the lpr/lpr and +/+ donors were equivalently represented in the peripheral blood and thymus. In striking contrast, the T cells that accumulated in abnormally large numbers in the lymph nodes were almost entirely from the lpr donor. Their surface phenotype was Thy-1+(dull), Ly-1.2+(dull), Lyt-2-, L3T4-, 9F3+, and 3A1+, which is consistent with that found in intact lpr mice. These results indicate that the lpr gene causes an intrinsic defect directly within the T cells that accumulate in large numbers in lpr mice. In addition, the presence of the +/+ T cells cannot prevent the expression of the lpr abnormalities.

Jupin, C; Anderson, S; Damais, C; Alouf, J E; Parant, M

doi: 10.1084/jem.167.3.752pmid: 3127526

We present evidence that toxic shock syndrome toxin 1 (TSST-1) induces the production of high levels of TNF by human blood monocytes. Enriched lymphocyte preparations incubated with the staphylococcal toxin produced significant levels of TNF-like activity that is not neutralized by anti-rHuTNF antibodies and is likely to be lymphotoxin (LT or TNF-beta). We demonstrate also that TSST-1 is a potent inducer of IFN-gamma. When lymphocyte preparations were costimulated with PMA, the TSST-1 effect was strongly potentiated and the levels of cytotoxic factors, IFN-gamma, and IL-2 present in supernatant fluids were comparable to those observed after treatment with PMA and PHA. Thus, TSST-1, which is also known as an inducer of IL-1 and IL-2, stimulates the production of endogenous mediators that could play a role in the physiopathological processes of toxic shock syndrome (TSS). The described results suggest that the discrepancies in the clinical features between TSS and endotoxin shock may be related to qualitative differences in cytokine production.

Minato, N; Hattori, M; Sudo, T; Kano, S; Miura, Y; Suda, J; Suda, T

doi: 10.1084/jem.167.3.762pmid: 3258352

Blast colonies were developed by rIL-3 from the spleen cells of mice pretreated with 5-fluorouracil (5-FU) in the methylcellulose cultures. When such IL-3-induced blast colonies were individually lifted up and recultured in the presence of rIL-3 and recombinant erythropoietin (rEpo), a variety of hematopoietic colonies developed from every single colony, including neutrophils, macrophages, eosinophils, megakaryocytes, mast cells, and erythroblasts. The results indicated that IL-3-induced blast colonies consisted of multipotential hematopoietic progenitor cells. By culturing individual IL-3-induced blast colonies in the presence of rIL-2 and irradiated peritoneal macrophages, on the other hand, the proliferation of homogeneous lymphoid cells was observed in 5 of 24 wells, each of which received a single blast colony. Morphologically, they were typical large granular lymphocytes (LGL), and thus it was indicated that LGL could be differentiated directly from the hematopoietic progenitor cells utterly in vitro by rIL-2 and accessory macrophages. From one of these culture wells, a continuous LGL line, IL3B1, was successfully obtained. The proliferation of IL3B1 was dependent on IL-2 in the presence of accessory macrophages, but they no longer responded to IL-3, nor to another T cell growth factor, IL-4. Flow cytometric analysis indicated that the phenotype of IL3B1 was Thy-1+,T3+,L3T4-,Lyt-2-,T200+ Asialo GM1+, whereas that of original IL-3-induced blast cells was Thy-1+,T3-,L3T4-,Lyt-2-,B220-. The results suggested that the expression of T3 molecules was induced in the process of LGL differentiation from the hematopoietic progenitor cells in vitro. Conforming to this, it was revealed that both gamma and beta chain genes of the TCR were rearranged in IL3B1. Northern blot analysis indicated that IL3B1 had abundant mRNA for gamma chain, while mRNA for beta chain was rather faint. Functionally, IL3B1 exhibited typical NK-patterned cytotoxic activity against a panel of tumor cell targets. In addition, they showed significant cytotoxic activity against normal bone marrow cells, as well as various factor-dependent myelogenous progenitor cell lines, all of which were resistant to endogenous NK activity of the fresh spleen cells. These results indicated that at least a set of T3+ LGL with rearranged TCR genes could be directly differentiated from isolated hematopoietic progenitor cells in vitro. Results also suggested that such a prethymically differentiated subset of T-lineage lymphocytes, namely T3+ double-negative LGL, had particular cytotoxic activity in addition to conventional NK activity, which might well contribute to feedback regulation of hematopoiesis.

Brown, E J; Goodwin, J L

doi: 10.1084/jem.167.3.777pmid: 2965209

We have defined the cell surface molecules of human monocytes and PMN that bind to the chymotryptic cell binding domain of Fn and to a synthetic peptide, KYAVTGRGDS, based on the sequence of Fn, by affinity chromatography. Monocytes express two receptors that differ in their affinity for CBD-Sepharose and peptide-Sepharose, but that both recognize the RGD sequence. Only a single receptor is purified from PMN, which resembles the monocyte surface molecule that binds to peptide-Sepharose. These receptors are not part of the Mac-1, LFA-1, p(150,95) family, but do have homology to the platelet Fn receptor, gpIIb/IIIa. Interestingly, the antigenic crossreactivity between gpIIb/IIIa and the phagocyte receptors purified on peptide-Sepharose is largely in the beta chain of the receptors. The alpha chains appear to be distinct, based on molecular weight, antigenic analysis, and ligand specificity. This receptor also seems to be the surface molecule on monocytes that is critical for phagocytosis enhancement by Fn. Thus, we have defined the phagocyte Fn receptor that transduces the signal for increased phagocytosis by monocytes; it may be a third member of a family of adhesion molecules that includes the gpIIb/IIIa of platelets and the vitronectin receptor of fibroblasts.

Lapierre, L A; Fiers, W; Pober, J S

doi: 10.1084/jem.167.3.794pmid: 2450953

Recombinant preparations of TNF and lymphotoxin (LT) increase the expression of class I MHC antigens on cultured human endothelial cells (EC) without inducing expression of class II antigens. These actions are similar to those of rIFN-alpha or rIFN-beta. However, TNF and LT differ from IFN-alpha/beta in that the former synergize with IFN-gamma for class I regulation whereas the latter do not. Furthermore, LT or TNF do not affect IFN-gamma-mediated class II induction at optimal class I inducing concentrations (100 U/ml), whereas IFN-alpha and IFN-beta (at their optimal concentrations of 1,000 U/ml) are strikingly inhibitory. LT and TNF also can further increase expression of class I antigens on cells already maximally stimulated by IFN-alpha or IFN-beta. A recombinant preparation of IL-6 (formerly called 26-kD protein, IFN-beta 2, or B cell stimulating factor 2) was without effect on class I expression in EC. These data make it seem unlikely that the actions of LT or TNF on EC expression of MHC antigens are mediated through autocrine or paracrine production of IFN-alpha, IFN-beta or IL-6. More importantly, they suggest that LT or TNF are more likely to be immunostimulatory, whereas IFN-alpha or IFN-beta are more likely to be immunoinhibitory in vivo, a consideration of potential relevance for cytokine administration to various patient populations.

Gray, D

doi: 10.1084/jem.167.3.805pmid: 3258353

Currently available estimates of B cell life span vary from 4 d to 6 wk. The discrepancy may have arisen out of the selective effects of stress and drug cytotoxicity on short-lived populations. In this report, bromodeoxyuridine (BUdR), a drug that incorporates into the DNA of dividing cells, has been fed to rats in their drinking water, eliminating stressful injection procedures. Labeled cells in the recirculating B cell pool are identified in tissue sections using an mAb to BUdR. BUdR is shown to have no cytostatic effects at the dose used. Over a 5-d period of infusion, only 20% of the peripheral recirculating pool incorporate label (approximately 4% per day); labeling over various periods indicates that the peripheral B cell pool turns over in approximately 4 wk. To distinguish between turnover due to incorporation of new B cells into the peripheral pool and division of antigen-activated B cells rats underwent two consecutive periods of labeling, first with 3Hthymidine for 5 d and then with BUdR for a further 5 d. Virgin B cells newly derived from dividing precursors in the bone marrow do not continue to proliferate in the periphery, while activated cells undergo several rounds of division during both labeling periods. The results indicate that 3-4% of the peripheral pool is replaced by new B cells each day, while 0.3-0.6% become part of activated clones every day. Assuming that the peripheral pool of the rat contains 10(9) B cells, then 3-4 X 10(7) new B cells become stably incorporated per day. This represents approximately 10% of the putative output of the bone marrow.

Stephens, R S; Wagar, E A; Schoolnik, G K

doi: 10.1084/jem.167.3.817pmid: 2450954

The principal surface protein antigen of Chlamydia trachomatis is the major outer membrane protein (MOMP). The MOMP is antigenically complex. Among the 15 serovars of C. trachomatis, mAbs define serovar-, subspecies-, and species-specific determinants on MOMP. The molecular basis of the antigenic diversity of these proteins is reflected in amino acid variable sequence domains. We have mapped the dominant topographic antigenic determinants of MOMP that are defined by mAbs. Using recombinant DNA approaches we have identified the linear distribution of two antigenic domains. One domain contains a serovar-specific determinant and the other contains subspecies- and species-specific determinants. These antigenic domains correspond to two amino acid sequence variable domains. Synthetic peptides were immunogenic and these resolved the serovar-specific determinant within a 14-amino acid peptide. The subspecies- and species-specific determinants were overlapping within a 16-amino acid peptide.

Banerjee, S; Haqqi, T M; Luthra, H S; Stuart, J M; David, C S

doi: 10.1084/jem.167.3.832pmid: 2965210

Arthritis was induced by immunization of type II collagen in adjuvant in mice from H-2q-bearing crosses between SWR (H-2q/q) and B10 (H-2b/b mice), two strains known to be resistant to collagen-induced arthritis (CIA). The resistance of B10 is known to be due to its MHC haplotype, but it was postulated that the resistance of SWR mice which expresses the susceptible MHC haplotype could be due to the deletion of close to 50% of the V beta genes of the T cell receptor (TCR) in them. 17% of the F1 hybrids, 33% of the SWR backcrosses, 68% of the B10 backcrosses, and 52% of the F2 hybrids developed arthritis on follow-up to 5 mo after primary immunization with collagen. There was no significant difference in anti-type II collagen antibody titers between the arthritic and nonarthritic mice in each of these crosses. The segregation of the TCR genes with arthritis was determined in the F2 population by typing with F23.1 mAb that reacts with T cells using V beta 8 subfamily genes in their TCRs. SWR mice are F23.1- as V beta 8 genes are deleted in them. All six of arthritic mice homozygous for H-2q, and thus with an H-2 haplotype similar to SWR mice, expressed the F23.1 marker. These studies indicate that for complete susceptibility to collagen-induced arthritis, not only is a susceptible MHC haplotype (H-2q) important, but possibly also the presence of a subset of T cells using certain specific V beta genes in their TCRs. Other background genes may, however, modulate the severity of arthritis.

Kipps, T J; Tomhave, E; Chen, P P; Carson, D A

doi: 10.1084/jem.167.3.840pmid: 3127527

Recently the minor B cell subpopulation that expresses the CD5 (Leu-1) antigen has been implicated as a source of IgM autoantibodies. Chronic lymphocytic leukemia (CLL), the most common leukemia in humans, represents a malignancy of small B lymphocytes that also express the CD5 antigen. However, little is known concerning the antibody variable region genes (V genes) that are used by these malignant CD5 B cells. We have found that a relatively high frequency of CLL patients have leukemic B cells with surface immunoglobulin (sIg) recognized by 17.109, a murine mAb specific for a kappa light chain associated crossreactive idiotype (CRI) associated with rheumatoid factor and other IgM autoantibodies. Flow cytometric analyses revealed that the relative expression of the 17.109-CRI by circulating leukemic B cells was directly proportional to the levels of sIg kappa light chain, indicating that there exists stable idiotype expression in the leukemic population. To examine this at the molecular level, the nucleic acid sequences encoding the Ig kappa light chains of two unrelated patients with CLL bearing sIg with the 17.109-CRI were determined. Analyses of multiple independent kappa light chain cDNA clones did not reveal any evidence for sequence heterogeneity in the CLL cell population. Furthermore, the nucleic acid sequences expressed by the leukemic cells of these two patients were identical or very homologous to a germline V kappa gene isolated from placental DNA, designated Humkv 325, or "V kappa RF" because of its association with IgM autoantibodies. This study suggests; (a) that the malignant CD5+ B lymphocytes in CLL use the same V kappa gene that has been highly associated with IgM autoantibodies and (b) that the expression of V genes is stable in CLL, in contrast to other B cell malignancies examined to date. We propose that many CLL cases represent malignancies of autoreactive CD5 B cells that use a restricted set of conserved V genes. This property may render CLL particularly amenable to immunotherapy with antiidiotypic antibodies.

Irlé, C; Jaques, D; Tiercy, J M; Fuggle, S V; Gorski, J; Termijtelen, A; Jeannet, M; Mach, B

doi: 10.1084/jem.167.3.853pmid: 2450955

HLA-DR3- and HLA-DRw52-associated functional polymorphism was investigated with selected tetanus toxoid (TT)-specific T cell clones. We have shown earlier that HLA-DR antigens are encoded by two distinct loci, DR beta I and DR beta III. The alloantigenic determinant(s) defined by the serological HLA-DR3 specificity map to the former, while the supratypic HLA-DRw52 determinants map to DR beta III. Furthermore, we have recently recognized by DNA sequencing three alleles of HLA-DRw52 at locus DR beta III, referred to as 52 a, b, and c. Our objective was to correlate the pattern of T cell restriction with the gene products of individual DR beta chain loci and with the three newly described alleles of locus DR beta III. Among the selected T cell clones, 5 reacted exclusively when TT was presented by HLA-DR3+ APCs (TT-DR3-APC). In contrast, two T cell clones were stimulated by TT-DRw52-APC. More specifically, these two T cell clones (Clones 10 and 16) were stimulated by different subsets of TT-DRw52-APC. Clone 16 responded to some DR3 and TT-DRw6-APC, while clone 10 was stimulated by other TT-DR3 and TT-DRw6, and all TT-DR5-APC. This same pattern of DRw52 restriction was found in panel, as well as in family studies. Because this suggested a correlation with the pattern of DRw52 polymorphism observed earlier by DNA sequencing and oligonucleotide hybridization, the APC used in these experiments were typed for the 52 a, b, and c alleles of locus DR beta III by allele-specific oligonucleotide probes. This distribution overlapped exactly with the stimulation pattern defined by the T cell clones. Clone 16 responded to TT-52a-APC, clone 10 to TT-52b-APC, and both clones to a TT-52c-APC. The response of the T cell clones was inhibited differentially by mAbs to DR. Raising TT concentration, or increasing HLA-class II expression with INF-gamma both affected the magnitude of response of the TT-specific clones but did not modify their specificities. These results demonstrate that a restriction specificity can be attributed to the DR beta III locus and illustrate the functional relevance of the polymorphism observed at this locus. This is of special interest in view of the striking difference in the pattern of structural diversity among alleles of DR beta I and DR beta III.