Allosuppressor- and allohelper-T cells in acute and chronic graft-vs-host disease. IV. Activation of donor allosuppressor cells is confined to acute GVHD

Groups of nonirradiated BDF1 mice were injected with unseparated spleen cells from B10, B10.D2, or DBA/2 donors. The diverse clinical and pathologic symptoms that developed during the course of the ensuing graft-vs-host reaction (GVHR) were related to the functional subsets of donor-T cells activated in the host. The activation of F1-specific donor T suppressor (TS) cells was confined to those GVH F1 mice that developed acute GVH disease (GVHD) (donor B10 or B10.D2). Moreover, activation in these GVH F1 mice of the Lyt-1-2+ donor TS cells sharply preceded the onset of and coincided with (week 2 to 6) the suppressive pathologic symptoms characteristic of acute GVHD, such as pancytopenia and suppression of splenic IgG production. The activation of these alloreactive TS effector cells was briefly preceded by the activation of F1-specific Lyt-1+-2- donor T helper (TH) cells and stimulation of the host's lymphoid tissue. Thus, in acute GVHD, a sequential alloactivation first of donor TH and then of TS cells was found. Those F1 mice that recovered from acute GVHD and developed stimulatory pathologic symptoms showed a concomitant loss of donor TS cell activity. An initial activation of F1-specific Lyt-1 +2- donor TH cells was also found in that parent----F1 combination (donor DBA/2), which failed to develop acute GVHD. Significantly in that combination, the alloactivation of donor TH cells was not followed by activation of significant numbers of donor TS cells. Instead, the DBA/2-injected BDF1 mice directly developed a persistent increase in splenic Ig formation and lupus-like GVHD.     

Induction of a germinal center phenotype in B cells in vitro by a Th2 cell line

We have investigated the contribution of various stimuli for generating in vitro the changes in surface phenotype characteristic of B cells responding to a T-dependent antigen in a germinal center (GC). We show that, unlike many other stimuli such as B cell mitogens, cytokines, and surrogate antigen, alone or in combination, an alloreactive Th2 clonal line induces splenic B cells to become cell surface peanut agglutinin (PNA)(hi), Ig(lo), CD62L(lo), and CD44(hi) to produce mRNA for M17 and to express a GC-specific transgene even without B cell receptor ligation. Neither proliferation nor prior activation of responding B cells is needed, but B cells from CD45-null mice show reduced efficiency of this induction. These findings open up possibilities for separation and dissection of the various components of the GC response.     

Development of murine lupus in CD4-depleted NZB/NZW mice. Sustained inhibition of residual CD4+ T cells is required to suppress autoimmunity.

Chronic administration of anti-CD4 mAb prevents autoimmune disease in NZB/NZW F1 (B/W) mice. This may be due either to CD4 cell depletion or to inhibition of CD4 cell function. To evaluate the relative importance of these mechanisms, we devised a system in which the consequences of cell depletion could be analyzed independent of the inhibitory effects of chronic mAb therapy. This was accomplished by performing adult thymectomy before mAb administration. Specifically, female B/W mice underwent thymectomy or sham thymectomy at age 6 wk, followed at age 3 mo by a short course of either anti-CD4 (2 mg/wk for 3 wk) or saline. Treatment with anti-CD4 depleted 90% of circulating CD4 cells, but a small subpopulation (10%) of CD4 cells was refractory to depletion. In non-thymectomized mice, the CD4 population gradually reconstituted after cessation of therapy. In contrast, in thymectomized mice, recovery of CD4 cells was prevented by the absence of the thymus. Despite the striking reduction in CD4 cells in thymectomized mice, severe autoimmune disease developed, with autoantibody levels, proteinuria, and mortality comparable with non-thymectomized, nondepleted controls. The unexpected development of lupus nephritis in thymectomized, CD4-depleted B/W mice suggested that the thymus might be required to achieve the benefits of therapy with anti-CD4. To exclude this possibility, we demonstrated that chronic therapy with anti-CD4 prevents autoimmunity in thymectomized B/W mice. These findings imply that: 1) substantial depletion of CD4 T cells is not sufficient to suppress autoimmunity; 2) suppression of autoimmunity requires sustained functional inhibition of CD4 T cells; and 3) a small subpopulation of CD4 cells that is refractory to depletion by anti-CD4 is sufficient to promote the full expression of murine lupus in B/W mice.     

Intraclonal diversity in the VH genes expressed by CD5- chronic lymphocytic leukemia-producing pathologic IgM rheumatoid factor.

The leukemic cells from 95% of patients with B cell chronic lymphocytic leukemia (CLL) coexpress B cell differentiation antigens and the pan-T lymphocyte surface antigen CD5 (Leu 1). As such, CLL generally may be considered a malignancy of the CD5 B cell, a minor B cell subpopulation implicated in the production of autoantibodies. Recent data indicate that CD5+ leukemic cells may express autoantibody-associated V region genes with little or no somatic mutation. We examined the Heavy chain V genes expressed by an unusual CLL that secretes rheumatoid factor (RF) autoantibodies but does not express the CD5 surface Ag. Nucleic acid sequence analyses of the rearranged VH genes of three independent rDNA clones demonstrated intraclonal diversity not apparent in previously studied cases of CD5+ CLL. Comparison of the rearranged VH genes reveals that they belong to the VH4 gene subgroup and share highest homology with a rearranged VH gene (Ab44) that encodes a polyreactive autoantibody. That these productively rearranged VH genes encode the RF generated by this unusual CLL population is demonstrated by immunoblotting of the RF paraprotein using primary sequence dependent antipeptide antisera. These results indicate that CD5- CLL, like their CD5+ counterparts, may produce RF. However, unlike CD5+ CLL examined to date, CD5- CLL may have intraclonal diversity in their expressed Ig genes.     

Regulation of immunoglobulin synthesis by human T cell subsets as defined by anti-D44 monoclonal antibody within the CD4+ and CD8+ subpopulations

In our previous paper, we demonstrated that anti-D44 MAb can, in the presence of complement, eliminate all the allocytotoxicity generated during a mixed lymphocyte reaction without affecting the alloproliferative response. As approximately 70% of CD4+ cells and 30% of CD8+ will be stained with anti-D44 MAb, we researched the functional role of the D44+ and D44- cells in each of these T cell subsets in the PWM-induced antibody response. We found that most of the helper activity for immunoglobulin (Ig) synthesis was mediated by CD4+ D44+ lymphocytes and that virtually all the suppressive activity was mediated by CD8+ D44- lymphocytes. Surprisingly enough, we noticed that the low level of Ig synthesis induced in B cells by CD4+ D44- lymphocytes could be strongly amplified by the addition of radiosensitive CD8+ lymphocytes, suggesting coexisting opposite immunoregulatory functions within the CD8+ T cell subset. These results, together with previous data, indicate that anti-D44 MAb subdivides T cells into subpopulations with distinct functional repertoires: a CD4+ D44+ helper subpopulation, a CD8+ D44+ cytotoxic subpopulation, and a CD8+ D44- suppressor subpopulation.     

CD4+ Leu-8+ T cell supernatant activity that inhibits Ig production.

The subpopulation of CD4+ T cells that expresses the Leu-8 peripheral lymph node homing receptor suppresses PWM-stimulated Ig synthesis. To determine the mechanism of this suppression, the immunoregulatory activity of culture supernatants obtained from peripheral blood CD4+ Leu-8+ T cells cultured with anti-CD3 mAb and PMA (Leu-8+ supernatant) was determined. Leu-8+ supernatant suppressed PWM-stimulated Ig synthesis in cultures containing non-T cells and CD4+ Leu-8- T cells. In contrast, the supernatant from CD4+ Leu-8- T cells did not suppress Ig synthesis. The inhibitory activity of CD4+ Leu-8+ T cell supernatants could not be accounted for by a deficiency or excess of IL-2, IL-4, IFN-gamma, IL-6, or PGE2. In studies examining the effect of CD4+ Leu-8+ supernatant on T cells, the supernatant did not alter either mitogen-induced proliferation or the helper function of CD4+ Leu-8- T cells. In studies examining the effect of CD4+ Leu-8+ supernatant on B cells, the supernatant inhibited Staphylococcus aureus Cowan I strain-induced B cell Ig secretion but not B cell proliferation. The suppressor activity of Leu-8+ supernatant was eliminated by protease treatment and was eluted by HPLC in two main peaks, with molecular sizes of 44 and 12 kDa. In summary, these studies indicate that supernatants from activated CD4+ Leu-8+ T cells directly suppress B cell Ig production.     

Enhanced neointima formation following arterial injury in immune deficient Rag-1-/- mice is attenuated by adoptive transfer of CD8 T cells

T cells modulate neointima formation after arterial injury but the specific T cell population that is activated in response to arterial injury remains unknown. The objective of the study was to identify the T cell populations that are activated and modulate neointimal thickening after arterial injury in mice. Arterial injury in wild type C57Bl6 mice resulted in T cell activation characterized by increased CD4(+)CD44(hi) and CD8(+)CD44(hi) T cells in the lymph nodes and spleens. Splenic CD8(+)CD25(+) T cells and CD8(+)CD28(+) T cells, but not CD4(+)CD25(+) and CD4(+)CD28(+) T cells, were also significantly increased. Adoptive cell transfer of CD4(+) or CD8(+) T cells from donor CD8-/- or CD4-/- mice, respectively, to immune-deficient Rag-1-/- mice was performed to determine the T cell subtype that inhibits neointima formation after arterial injury. Rag-1-/- mice that received CD8(+) T cells had significantly reduced neointima formation compared with Rag-1-/- mice without cell transfer. CD4(+) T cell transfer did not reduce neointima formation. CD8(+) T cells from CD4-/- mice had cytotoxic activity against syngeneic smooth muscle cells in vitro. The study shows that although both CD8(+) T cells and CD4(+) T cells are activated in response to arterial injury, adoptive cell transfer identifies CD8(+) T cells as the specific and selective cell type involved in inhibiting neointima formation.     

CD5+ peritoneal B cells express high levels of membrane, but not secretory, C mu mRNA.

We used in situ hybridization to study Ig mRNA levels in murine peritoneal and splenic B cells. Ig mRNA production fell into three distinct groups: low, intermediate, and high. Splenic B cells primarily exhibited low levels characteristic of resting B cells or high Ig mRNA levels characteristic of plasma cells. In contrast, a significant fraction of peritoneal B cells exhibited intermediate Ig mRNA levels. Intermediate Ig mRNA was T cell dependent in that congenic nu/nu mice had far fewer peritoneal cells expressing the intermediate Ig message than their wild type counterparts. CD5+ CD11b+ IgMbright+ peritoneal B cells were found to be mainly responsible for the production of intermediate Ig mRNA levels. The peritoneal CD5- CD11b+ IgMbright+ "sister" B cell subpopulation contained a lower percentage of intermediate Ig mRNA-producing B cells. CD5-CD11b-IgMdull+ "conventional" B cells produced negligible levels of Ig mRNA, comparable to those of unfractionated splenic B cells. Northern analysis showed that the majority of Ig mRNA expressed in the peritoneum is of the membrane rather than the secreted form. Consistent with that result, in short-term culture, peritoneal cells showed markedly less Ig secretion than did spleen cells. These studies describe novel Ig mRNA expression by peritoneal B cells and emphasize that within the peritoneal cavity, B cells do not tend to become antibody-secreting cells.     

Evidence for early onset, polyclonal activation of T cell subsets in mice homozygous for lpr.

Mice homozygous for lpr and gld develop profound lymphadenopathy characterized by the accumulation of two functionally anergic T cell subsets, a predominant B220+CD4-CD8- double negative (DN) population and a minor, closely related CD4 dull+ B220+ population. Lymph nodes from diseased lpr and gld mice also contain abnormally high numbers of conventional T cells, and we reported recently that a high proportion of lpr and gld CD4+B220- T cells have the hallmarks of primed or memory T cells. In the present study, we further investigated the extent, ontogeny, and possible causes of T cell activation in lpr and gld mice. The criteria used to identify primed or memory T cells included activation-dependent increases in the expression of CD44, LFA-1, and the early activation Ag, CD69, and decreases in the expression of Mel-14 and CD45RB, as well as quantitative differences in the in vitro production of IFN-gamma and the TNF-alpha by stimulated cells. A comparison of TCR V beta gene utilization by lpr T cell subsets also was undertaken. The results showed that T cell activation was widespread and complex. CD8+ T cells exhibited a similar pattern of activation to CD4+B220- T cells. The activation of these two subsets occurred in parallel, was in evidence by 4 to 6 wk of age, and was both chronic and progressive. The proportions of CD44hiLFA-1hi, CD4+B220-, and CD8+ T cells increased steadily between 4 and 20 wk of age, but changes in T cell growth, Mel-14, and CD45RB expression and cytokine secretion were not observed until mice were older than 11 wk. A very different pattern of activation was observed for B220+ T cells. At all ages, B220+ DN and CD4+B220+ T cells were CD44hiMel-14hi and 60 to 75% were CD69+. The expression of CD69 appeared to be stimulus dependent rather than constitutive, suggesting that these cells, too, may be chronically stimulated in vivo. In keeping with their anergic state, DN T cells responded poorly to cross-linking of CD69. The stimuli inducing chronic activation of CD4+B220- and CD8+ T cells are unlikely to include inappropriate reactions to autoantigens because there was no evidence for selective accumulation of CD4+ or CD8+ T cells bearing particular V beta genes or potentially self-reactive cells that normally are deleted in the thymus. By comparison, C3H-lpr DN cells displayed some potentially significant differences in V beta 6 and V beta 9 expression from CD4+B220- and CD8+ T cells.(ABSTRACT TRUNCATED AT 400 WORDS)     

Effector memory Th1 CD4 T cells are maintained in a mouse model of chronic malaria

Protection against malaria often decays in the absence of infection, suggesting that protective immunological memory depends on stimulation. Here we have used CD4(+) T cells from a transgenic mouse carrying a T cell receptor specific for a malaria protein, Merozoite Surface Protein-1, to investigate memory in a Plasmodium chabaudi infection. CD4(+) memory T cells (CD44(hi)IL-7Rα(+)) developed during the chronic infection, and were readily distinguishable from effector (CD62L(lo)IL-7Rα(-)) cells in acute infection. On the basis of cell surface phenotype, we classified memory CD4(+) T cells into three subsets: central memory, and early and late effector memory cells, and found that early effector memory cells (CD62L(lo)CD27(+)) dominated the chronic infection. We demonstrate a linear pathway of differentiation from central memory to early and then late effector memory cells. In adoptive transfer, CD44(hi) memory cells from chronically infected mice were more effective at delaying and reducing parasitemia and pathology than memory cells from drug-treated mice without chronic infection, and contained a greater proportion of effector cells producing IFN-γ and TNFα, which may have contributed to the enhanced protection. These findings may explain the observation that in humans with chronic malaria, activated effector memory cells are best maintained in conditions of repeated exposure.     

Autoreactive T cells revealed in the normal repertoire: escape from negative selection and peripheral tolerance

Self-reactive T cells are known to be eliminated by negative selection in the thymus or by the induction of tolerance in the periphery. However, developmental pathways that allow self-reactive T cells to inhabit the normal repertoire are not well-characterized. In this investigation, we made use of anti-small nuclear ribonucleoprotein particle (snRNP) Ig transgenic (Tg) mice (2-12 Tg) to demonstrate that autoreactive T cells can be detected and activated in both normal naive mice and autoimmune-prone MRL lpr/lpr mice. In contrast, autoreactive T cells of nonautoimmune Tg mice are tolerized by Tg B cells in the periphery. In adoptive transfer studies, autoreactive T cells from MRL lpr/lpr mice can stimulate autoantibody synthesis in nonautoimmune anti-snRNP Tg mice. Transferred CD4 T cells migrate to regions of the spleen proximal to the B cell follicles, suggesting that cognate B cell-T cell interactions are critical to the autoimmune response. Taken together, our studies suggest that anti-snRNP B cells are important APCs for T cell activation in autoimmune-prone mice. Additionally, we have demonstrated that anti-snRNP B cell anergy in nonautoimmune mice may be reversed by appropriate T cell help.     

Further evidence against random polyclonal antibody formation in mice with lupus-like graft-vs-host disease

The pathologic symptoms in F1 mice with chronic graft-vs-host disease (GVHD) (GVH F1) strongly resemble those of systemic lupus erythematosus (SLE). Mice with SLE-like GVHD do not produce antibodies to a number of non-self and self antigens. This finding is inconsistent with the widely accepted view that the (auto)-antibody formation in SLE is polyclonal in the sense that B cells are triggered at random, i.e., irrespective of their specificity. In the present study, therefore, we performed a systematic study of the kinetics of total IgM- and IgG-secreting splenic B cells and tested their specificities. The total IgM-secreting B cell population was increased only in the first week after the initiation of SLE-like GVHD; it seemed to reflect a random, but self-limited, polyclonal B cell stimulation. In contrast, the total number of IgG-secreting cells in the GVH F1 mice was increased to a much higher extent than that of the IgM-secreting cells and remained increased. At no time during GVHD was there an increase in the number of plaque-forming cells (PFC) spontaneously secreting IgG antibodies to non-self antigens. The GVH reaction (GVHR) did, however, lead to the appearance of PFC that secreted IgG antibodies to DNA. Similarly, the GVH F1 mice showed high serum titers of antibodies to self antigens characteristic of SLE and to endogenous viruses, but during the entire observation period they failed to develop serum antibodies to non-self antigens and insulin. Hence, the enhanced production of Ig, especially that of IgG, that occurs in SLE-like GVHD is not a random process, because it requires the presence of antigen, or signal 1. The data support our hypothesis that only certain kinds of self antigen, such as DNA and cell membrane epitopes, can cross-link the Ig receptors on the corresponding B cells and thus provide an adequate signal 1. Given the increase in help, or signal 2, in chronic GVHD, only the B cell clones that simultaneously receive an adequate signal 1 seem to be driven into clonal proliferation and IgG secretion.     

CD45 expression by B cells. Expression of different CD45 isoforms by subpopulations of activated B cells.

To determine the effect of distinct activation stimuli on CD45 expression by B cells, we have examined the expression of CD45 molecules on murine B cells stimulated with LPS or the Th cell cytokine IL-5. Analysis of CD45 by flow cytometry revealed that unstimulated and stimulated B cells expressed homogeneous amounts of total CD45 but that stimulation with IL-5 resulted in a CD44hi, hyaluronate-adherent subpopulation of activated B cells that expressed a markedly altered pattern of expression of exon-specific CD45R or B220 determinants. The predominant CD45 immunoprecipitated from either unstimulated or LPS-stimulated B cells was of the high molecular mass form (approximately 220 kDa) usually associated with B cells. In contrast, the CD45 proteins immunoprecipitated from the hyaluronate-adherent subpopulation of IL-5-activated B cells were predominantly lower m.w. forms. PCR analysis of amplified CD45 cDNA also showed distinct expression profiles characteristic of each B cell population. The highest molecular size PCR product, corresponding to expression of all three variably expressed CD45 exons (A, B, and C) was prominent in resting B cells and in LPS-activated B cells but was selectively reduced in hyaluronate-adherent IL-5-activated B cells, where lower molecular size PCR products predominated, corresponding to expression of one or two of the variable exons. In contrast, LPS-activated B cells expressed reduced levels of these one- or two-exon forms. In addition, all B cell populations expressed a lower m.w. PCR product corresponding in size to the product expected when exons A, B, and C are spliced out of CD45 mRNA. Thus, analysis of alternative splicing of CD45 mRNA, as well as cell surface expression of CD45 provides a novel parameter for analysis of B cell activation by different stimuli.     

Phenotypic characteristics associated with the acquisition of HSV-specific CD8 T-lymphocyte-mediated cytolytic function in vitro.

Class I MHC-restricted, HSV-1-specific CD8(+) cytolytic T lymphocyte (CTL) function is rarely detected in lymphocytes isolated directly from the lymph node draining the site of infection. However, culture in vitro for 24 to 72 h in the absence of exogenous antigen results in the development of easily detectable levels of HSV-1-specific CTL effectors. The inability to detect virus-specific CTL in HSV-1-infected mice is not well understood. However, since the in vitro culture of HSV-1-immune lymphocytes results in the transition to CTL function, studies of the changes occurring to the CD8(+) T cell subpopulation may provide important insights into the development of virus-specific CTL. Therefore, the phenotypic changes taking place in the CD8(+) population of T cells from draining popliteal lymph nodes of HSV-1-infected C57BL/6 (B6) mice were investigated, focusing on changes in the expression of cell surface markers associated with T lymphocyte activation. The results demonstrate an increase in the percentage of CD8(+) T cells expressing the activation markers CD44 and CD25 in parallel with the acquisition of HSV-specific CTL effector function. Cytolytic function was found exclusively within the CD8(+) CD44(hi) CD25(hi) fraction of cells in culture, but, surprisingly, was not detectable in CD8(+) CD44(hi) CD25(lo) T cells. This suggested that the acquisition of high levels of the high-affinity IL-2 receptor was closely linked to cytolytic function and may define an important developmental stage in the transition from noncytolytic to cytolytic effector cell. In support of this, CD8(+) CD25(hi) T cells isolated from the regional lymph node exhibited direct ex vivo cytolytic function, indicating that cytolytic effector cells were present in the lymph node, but must emigrate rapidly after attaining this level of differentiation.     

Analysis of the mechanisms of T cell-dependent polyclonal activation of human B cells. Induction of human B cell responses by fixed activated T cells.

Coculture of resting human B cells with T cells stimulated with immobilized mAb to the CD3 molecular complex induces polyclonal activation and the production of Ig of all isotypes. The current experiments were carried out to determine the nature of the signals provided to B cells by the anti-CD3-activated T cells. For these experiments, fresh T cells or T cell clones were activated with immobilized mAb to CD3 and then fixed with 1% paraformaldehyde. Upon coculture, the fixed activated T cells or T cell clones induced B cell RNA synthesis and IL-2R expression, but only minimal DNA synthesis and no Ig production. Induction of B cell RNA synthesis by fixed activated T cells was not inhibited by mAb to the alpha-chain of the IL-2R, and was not enhanced by supplementing cultures with IL-2, IL-4, IL-6, or supernatants of mitogen-activated T cells. Upon the addition of IL-2, but not IL-4 or IL-6, to cultures of B cells and fixed activated T cells, sustained proliferation was noted along with the production of Ig. Control fixed T cells or T cell clones did not induce any of these responses. The presence of cycloheximide or cyclosporin A during the activation with anti-CD3 prevented T cells from developing the capacity to provide help for B cells. The use of mAb to a variety of cell surface molecules indicated that several T cell surface molecules including CD11a/CD18, CD44, CD54, and class I MHC molecules are involved in the induction of B cell responses. Among the mAb that inhibited B cell DNA synthesis and/or Ig production, only mAb to CD11a, CD18, or CD54 inhibited initial B cell activation as assessed by RNA synthesis. Even though mAB to CD11a/CD18 inhibited the capacity of fixed activated T cells to induce B cell responses, the finding that fixed activated CD18 deficit clones provided help for B cells indicated that expression of the beta 2 family of integrins by T cells was not necessary. These results indicate that activated T cells acquire the capacity to stimulate B cells polyclonally and induce cytokine responsiveness, proliferation, and Ig production by utilization of a variety of surface molecules. Moreover, these results indicate that the initial activation of the B cell is independent of the metabolic activity of the T cell and the production of cytokines.     

The CD44 Receptor of Lymphoma Cells: Structure-Function Relationships and Mechanism of Activation

Migration of some tumor cells, and their lodgment in target organs, is dependent on the activation of cell surface CD44 receptor, usually detected by its ability to bind hyaluronic acid (HA) or other ligands. In an attempt to reveal the mechanism of tumor cell CD44 activation, we compared the physical and chemical properties of CD44 in nonactivated LB cell lymphoma with those in phorbol 12-myristate 13-acetate (PMA)-activated LB cells and of an LB cell subline (designated HA9) expressing constitutively-active CD44. In contrast to nonactivated LB cells, PMA-activated LB cells and HA9 cells displayed a CD44-dependent ability to bind HA. The ability of activated cell CD44 to bind HA was not dependent on microfilament or microtubule integrity or on changes in CD44 mobility on the membrane plane, indicating that the CD44 activation status is not associated with cytoskeleton function. Aside from the increased expression of CD44 on the surface of PMA-activated LB cells and HA9 cells, qualitative differences between the CD44 of nonactivated and activated LB cells were also detected: the CD44 of the activated lymphoma was (i) larger in molecular size, (ii) displayed a broader CD44 isoform repertoire, including a CD44 variant that binds HA, and (iii) its glycoprotein contained less sialic acid. Indeed, after removal of sialic acid from their cell surface by neuraminidase, LB cells acquired the ability to bind HA. However, a reduced dose of neuraminidase did not confer HA binding on LB cells, unless they were also activated by a low concentration of PMA, which by itself was ineffective. Similarly, under suboptimal conditions, a synergistic effect was obtained with tunicamycin and PMA: each one alone was ineffective but in combination they induced the acquisition of HA binding by the lymphoma cells, while their CD44 expression was not enhanced. Unveiling of the activation mechanism of CD44, by exposing the cells to PMA stimulation or to deglycosylation, is not only academically important, but it also has practical implications, as activated CD44 may be involved in the support of tumor progression.     

The CD44 receptor of lymphoma cells: structure-function relationships and mechanism of activation

Migration of some tumor cells, and their lodgment in target organs, is dependent on the activation of cell surface CD44 receptor, usually detected by its ability to bind hyaluronic acid (HA) or other ligands. In an attempt to reveal the mechanism of tumor cell CD44 activation, we compared the physical and chemical properties of CD44 in nonactivated LB cell lymphoma with those in phorbol 12-myristate 13-acetate (PMA)-activated LB cells and of an LB cell subline (designated HA9) expressing constitutively-active CD44. In contrast to nonactivated LB cells, PMA-activated LB cells and HA9 cells displayed a CD44-dependent ability to bind HA. The ability of activated cell CD44 to bind HA was not dependent on microfilament or microtubule integrity or on changes in CD44 mobility on the membrane plane, indicating that the CD44 activation status is not associated with cytoskeleton function. Aside from the increased expression of CD44 on the surface of PMA-activated LB cells and HA9 cells, qualitative differences between the CD44 of nonactivated and activated LB cells were also detected: the CD44 of the activated lymphoma was (i) larger in molecular size, (ii) displayed a broader CD44 isoform repertoire, including a CD44 variant that binds HA, and (iii) its glycoprotein contained less sialic acid. Indeed, after removal of sialic acid from their cell surface by neuraminidase, LB cells acquired the ability to bind HA. However, a reduced dose of neuraminidase did not confer HA binding on LB cells, unless they were also activated by a low concentration of PMA, which by itself was ineffective. Similarly, under suboptimal conditions, a synergistic effect was obtained with tunicamycin and PMA: each one alone was ineffective but in combination they induced the acquisition of HA binding by the lymphoma cells, while their CD44 expression was not enhanced. Unveiling of the activation mechanism of CD44, by exposing the cells to PMA stimulation or to deglycosylation, is not only academically important, but it also has practical implications, as activated CD44 may be involved in the support of tumor progression.     

IgM and IgG but not cytokine secretion is restricted to the CD27+ B lymphocyte subset.

In a recent study we reported that CD27 is expressed on a subpopulation of human B lymphocytes and presented circumstantial phenotypic evidence that CD27 expression may be acquired late during B cell differentiation. Here we present functional data showing that, after in vitro stimulation, CD27+ but not CD27- B cells secrete large amounts of both IgM and IgG. Using double immunofluorescence staining of CD27 and IgD, three functionally different B cell subsets representing distinct stages of B cell differentiation can be isolated: 1) the CD27- IgD+ B cells, which do not secrete appreciable Ig; 2) the CD27+IgD+ B cells, which exclusively secrete IgM; and 3) the CD27+IgD- B cells, which comprise the IgG-producing cells. Furthermore, costimulation of CD27- B cells with low m.w. B cell growth factor, in the presence or in the absence of a CD40 mAb, does not induce these cells to become Ig-secreting cells. Although CD27- B cells hardly secrete Ig of any isotype in response to Staphylococcus aureus+IL-2, these cells proliferate vigorously and express the IL-2R alpha chain (CD25) under these stimulatory conditions. Furthermore, both CD27- and CD27+ B cells are capable of producing similar amounts of IL-6 and TNF-alpha. Taken together, these findings indicate that CD27 is a unique non-Ig surface marker discriminating naive from primed B lymphocytes. Furthermore, the capacity to proliferate and to secrete the B cell differentiation factors IL-6 and TNF-alpha already exists at an early B cell differentiation stage at which the cells lack CD27 expression and are not induced to produce Ig.     

Phenotypic identification of antigen-dependent and antigen-independent CD8 CTL precursors in the draining lymph node during acute cutaneous herpes simplex virus type 1 infection.

Optimal immunological control of cutaneous herpes simplex virus type 1 (HSV-1) infections initiated in the hind footpad of C57BL/6 (B6, H-2b) mice is dependent upon the presence of functional HSV-1-specific T lymphocytes. The class I MHC-restricted, CD8+ T cell subpopulation is involved in the clearance of infectious HSV-1 from the skin and limiting HSV-1 replication and spread within the peripheral nervous system. However, the frequency of HSV-1-specific CTL precursors (CTLp), as a measure of potential anti-viral CD8+ T cell function, is relatively low compared with other acute viral infections. To gain insight into the basis for this low functional frequency, changes in the CD8+ T cell subpopulation phenotype associated with activation and differentiation were investigated. Analysis of the phenotypic changes showed that HSV-1-specific CTLp were found predominantly within a subpopulation of CD8+ T cells expressing high levels of CD44 (CD44high) and high levels of the IL-2 receptor alpha-chain (CD25high). A second activated subpopulation of CD8+ T cells expressing the CD44high CD25low phenotype did not contain detectable HSV-1-specific CTLp, even after the addition of HSV-1-infected stimulator cells as a source of an exogenous Ag. These data suggested that HSV-1-specific CD8+ T cells must increase expression of CD25 before attaining the potential to become CTL effector cells. These findings also indicated that the up-regulation of CD44 alone is not sufficient to identify precisely HSV-1-specific CD8+ T cells.     

Alloreactive memory T cells are responsible for the persistence of graft-versus-host disease

Graft-vs-host disease (GVHD) is caused by a donor T cell anti-host reaction that evolves over several weeks to months, suggesting a requirement for persistent alloreactive T cells. Using the C3H.SW anti-C57BL/6 (B6) mouse model of human GVHD directed against minor histocompatibility Ags, we found that donor CD8(+) T cells secreting high levels of IFN-gamma in GVHD B6 mice receiving C3H.SW naive CD8(+) T cells peaked by day 14, declined by day 28 after transplantation, and persisted thereafter, corresponding to the kinetics of a memory T cell response. Donor CD8(+) T cells recovered on day 42 after allogeneic bone marrow transplantation expressed the phenotype of CD44(high)CD122(high)CD25(low), were able to homeostatically survive in response to IL-2, IL-7, and IL-15 and rapidly proliferated upon restimulation with host dendritic cells. Both allogeneic effector memory (CD44(high)CD62L(low)) and central memory (CD44(high)CD62L(high)) CD8(+) T cells were identified in B6 mice with ongoing GVHD, with effector memory CD8(+) T cells as the dominant (>80%) population. Administration of these allogeneic memory CD8(+) T cells into secondary B6 recipients caused virulent GVHD. A similar allogeneic memory CD4(+) T cell population with the ability to mediate persistent GVHD was also identified in BALB/b mice receiving minor histocompatibility Ag-mismatched B6 T cell-replete bone marrow transplantation. These results indicate that allogeneic memory T cells are generated in vivo during GVH reactions and are able to cause GVHD, resulting in persistent host tissue injury. Thus, in vivo blockade of both alloreactive effector and memory T cell-mediated host tissue injury may prove to be valuable for GVHD prevention and treatment.