Expression of hemopoietic histocompatibility antigens on H-2-loss variants of F1 hybrid lymphoma cells: evidence consistent with trans gene regulation

H-2 heterozygous marrow stem cells, lymphoid progenitor cells, and leukemia/lymphoma cells do not express hemopoietic or hybrid histocompatibility (Hh) antigens, which are important transplantation antigens recognized during the rejection of normal or neoplastic hemopoietic cells. The Hh-1b determinant of the H-2b haplotype maps to the D region of H-2. We have tested the hypothesis that gene(s) at or near H-2D of the H-2d haplotype down-regulate the expression of Hh-1b in the trans configuration. We used Abelson leukemia virus-transformed pre-B lymphoma cells (ACCb) of BALB/c X BALB.B (H-2d X H-2b) origin, as well as variant lines of ACCb, which were selected for resistance to monoclonal anti-H-2 antibodies plus complement. B6D2F1 (H-2b X H-2d), C3B6F1 (H-2k X H-2b), or B6 (H-2b) mice were infused with inocula of 5 X 10(6) B6 bone marrow cells (BMC). Proliferation of donor-derived marrow cells was judged in terms of DNA synthesis by measuring the splenic incorporation of 5-iodo(125I)-2'-deoxyuridine (IUdR) 5 days after cell transfer. B6 BMC grew much better in B6 than in F1 hybrid host mice, an expression of "hybrid resistance". As observed previously, the injection of EL-4 (H-2b, Hh-1b) tumor cells prior to infusion of B6 (H-2b, Hh-1b) BMC enhanced the growth of B6 BMC in F1 hybrid mice. Therefore, this in vivo "cold target cell competition" type of assay can be used to detect the expression of Hh-1b antigens. Unlike EL-4 (H-2b) cells, hybrid resistance was not affected by prior infusion of (H-2b X H-2d) heterozygous ACCb cells. In contrast, three ACCb variant cell lines, H-2d-, Ld-Dd-, and Dd-, enhanced the growth of B6 BMC in F1 hosts. The ACCb H-2b- cell line did not affect hybrid resistance to B6 BMC. The loss of gene expression on the H-2d chromosome at or very near the H-2Dd locus is correlated with the appearance Hh-1b, as determined by the in vivo cold target competition assay. These results support the hypothesis that heterozygous cells possess trans-acting, dominant, down-regulatory genes mapping near H-2D that control the Hh-1 phenotype of lymphoid tumor cells.     

IL-5-induced IgA synthesis by LPS-stimulated mouse B cells is prevented by protein kinase C inhibitors.

We have previously demonstrated that activation of protein kinase C (PKC) by phorbol esters induces selectively IgA synthesis by mouse B cells. In this study, we investigated the effects of a number of protein kinase inhibitors on IgA secretion induced by a recombinant murine IL-5 in LPS-stimulated mouse B cells. The results show that PKC inhibitors, such as sphingosine (SPH), staurosporine (STP) and H-7, blocked IL-5-induced IgA synthesis; the protein kinase A inhibitor HA-1004 and the inhibitor of calcium/calmodulin dependent protein kinase W-7 had no effect on IgA secretion induced by IL-5. The proliferation of the IL-5 sensitive B13 cell line in response to IL-5 was also inhibited by addition of SPH or STP or H-7. The data suggest an involvement of the PKC pathway in IL-5-induced B cell differentiation into IgA secreting cells.     

Inhibitors of IL-2 production and IL-2 receptor expression in human leukemic T-cell line, Jurkat

1-(5-Isoquinolinylsulfonyl)-2-methylpiperazine (H-7), a protein kinase inhibitor, suppressed interleukin 2 (IL-2) production and IL-2 receptor (IL-2R) expression of the human leukemic T-cell line, Jurkat, induced by 12-O-tetradecanoyl-phorbol-13-acetate and phytohemagglutinin-P. This effect was significant at 5 microM H-7 without loss of cell viability. Such activity was not observed with N-(2-guanidinoethyl)-5-isoquinolinesulfonamide (HA 1004), a potent inhibitor of cGMP- and cAMP-dependent kinases, and a weak inhibitor of Ca2+-phospholipid-dependent protein kinase (protein kinase C). These findings suggest that protein kinase C is more closely associated with IL-2 receptor expression and IL-2 production of T cells than cGMP- or cAMP-dependent kinases. In addition, N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide (W-7), a calmodulin inhibitor, suppressed both IL-2 production and IL-2R expression. Cycrosporin A (Cy A), a potent immunosuppressive drug, markedly inhibited IL-2 production of Jurkat cells whereas it did not affect the IL-2R expression. Thus, the mechanism of action of Cy A appears to differ from that of the protein kinase inhibitor, H-7, and the calmodulin inhibitor, W-7.     

Regulation of mitogen-stimulated human T-cell proliferation, interleukin-2 production, and interleukin-2 receptor expression by protein kinase C inhibitor, H-7

Recently published reports suggest that the activation of protein kinase C (PKC) plays an important role in the activation pathway of many cell types. In this study, we examined the role of PKC in human T-cell proliferation, IL-2 production, and IL-2R expression, when cultured with the mitogen PHA, the PKC inhibitor H-7, and H-7 control HA1004. H-7 inhibited the PHA-stimulated [3H]thymidine uptake, IL-2 production, and IL-2R expression in a dose-related manner. Further, we found H-7 inhibited T-cell proliferation, IL-2 production, IL-2 mRNA from PHA plus PMA-stimulated cultures. We also found that H-7 inhibited the early-stage activation of PHA-stimulated cells. The presence of exogenous purified human IL-2 or rIL-4 partly reversed the immunosuppression caused by H-7. In contrast, HA1004 had no effect on cell proliferation, IL-2 production, or IL-2R expression. Our results demonstrate that PKC activation is one major pathway through which T-cells become activated.     

IL-5 induces a Pgp-1 (CD44) bright B cell subpopulation that is highly enriched in proliferative and Ig secretory activity and binds to hyaluronate

Pgp-1 expression was examined in unstimulated B cell populations and in B cells activated with several polyclonal stimuli. Flow cytometry analysis demonstrated that Pgp-1 expression increased when B cells were activated with supernatant of cloned Th2 cells, with LPS, or with IL-5, stimuli that induced polyclonal proliferation and differentiation. IL-5-primed B cells were phenotypically unique and could be divided into two distinct subpopulations based on the brightness of Pgp-1 expression. Furthermore, sterile sorting experiments showed that proliferating and differentiating B cells were highly enriched in a Pgp-1-bright, Ia-dull, B220-dull subpopulation. The possibility that Pgp-1 expressed on activated B cells functions as an adhesion molecule was evaluated by assessing adhesion of activated B cells to defined substrates. It was found that IL-5-activated B cells bound strongly to hyaluronate-coated surface, and this binding was specifically inhibited by anti-Pgp-1 Ab. These findings suggest that Pgp-1 expression is a useful marker which, under defined conditions, identifies the proliferating and differentiating subset of activated B cells. Moreover, the Pgp-1 bright subset of IL-5-primed B cells binds to hyaluronate in a Pgp-1-dependent manner that suggests a potential role of Pgp-1 in the in vivo adherence and trafficking of activated B cells.     

Differential modulation of interleukin-2-and interleukin-4-mediated early activation of normal human B lymphocytes by the caspase inhibitor zVAD-fmk

Caspases are a group of cysteine-related proteases that control the process of apoptosis and may also be involved in the control of lymphocyte activation. We show here that the broad-spectrum caspase inhibitor benzyloxycarbonyl (Cbz)-Val-Ala-Asp (Ome)-fluoromethylketone (zVAD-fmk) prevents the proliferation of resting human B tonsilar lymphocytes mediated by the B cell mitogen SAC or the combination of anti-mu Ab and IL-2. zVAD-fmk inhibits IL-2-induced phosphorylation of the retinoblastoma protein, and cyclin D2 expression. However, neither the IL-2-mediated proliferation of cycling activated B cells nor that of lymphoma cells were inhibited by zVAD-fmk, suggesting that only the early steps of SAC- or IL-2-mediated B cell activation were sensitive to the inhibitory properties of zVAD-fmk. Our data also demonstrated that the inhibitory effect of zVAD-fmk was not observed when B cells were activated with IL-4 in the presence of either anti-mu Ab or anti-CD40 Ab. Thus, our results suggest that caspase activation is required for the IL-2-mediated entry of primary B lymphocytes into the cell cycle and show that caspase activation plays different roles in IL-2- and IL-4-mediated B cell proliferation.     

Molecular properties and regulation of mRNA expression for murine T cell-replacing factor/IL-5

We previously cloned cDNA for a T cell-replacing factor (TRF) that has been defined as a T cell-derived lymphokine that acts on activated B cells as a B cell growth and differentiation factor. Based on the diverse activities of rTRF on different target cells, we proposed that TRF be called IL-5. In this study, the molecular characteristics of TRF/IL-5 prepared by rDNA technology and TRF/IL-5 mRNA expression in various T cell lines and normal T cells have been studied. Specific immunoassay showed that rTRF/IL-5, which is transiently translated in vitro by rabbit reticulocyte lysate, has an apparent m.w. of 14,000. By contrast, active forms of rTRF/IL-5 translated in Xenopus oocytes has an apparent m.w. of 45,000 to 50,000 in the nonreducing condition and migrates to the m.w. of 25,000 to 30,000 under the reducing condition, indicating that active form of rTRF/IL-5 consists of dimer forms. The rTRF/IL-5 does not show detectable levels of IL-2, IL-3, and B-cell stimulatory factor 1 (IL-4) activities. Northern blot hybridization of poly (A)+ RNA from constitutively TRF-producing B151K12 T cell hybridoma revealed a single 1.7-kb band hybridizing to the cloned murine TRF/IL-5 cDNA. The expression of TRF/IL-5 mRNA in B151K12 was augmented by the stimulation with PMA plus calcium ionophore. In contrast, neither thymoma BW5147 nor IL-2-producing T cell hybridoma A55, both of which produced an undetectable level of TRF, expressed detectable levels of TRF/IL-5 mRNA. Stimulation of EL 4 and D9 cells with PMA and Con A, respectively, induced an increase in the levels of TRF/IL-5 mRNA expression accompanied by TRF/IL-5 production, whereas both cell lines did not show significant gene expression in the absence of the stimulation. In spleen cells from Mycobacterium tuberculosis-primed mice, significant expression of TRF/IL-5 mRNA was detected only when the cells were stimulated with relevant Ag, PPD. Normal spleen cells stimulated with Con A showed a significant, but approximately four-fold less expression of TRF/IL-5 mRNA. Molecular and functional properties of TRF/IL-5 will be discussed.     

Induction and characterization of minor histocompatibility antigens. Specific primary cytotoxic T lymphocyte responses in vitro

A definite cytotoxic activity was developed in a BALB/c (H-2d) anti-DBA/2 primary mixed leukocyte culture (MLC), which received interleukin 2 (IL-2) on day 3 of culture. This cytotoxic activity was minor histocompatibility antigens (MIHA)-specific at the stimulator level, and was not developed in a syngeneic (BALB/c anti-BALB/c) MLC. The addition of IL-2 on day 3 of culture was crucial; no or very weak cytotoxic activity was developed in MLC receiving IL-2 on day 0 or on both day 0 and day 3. Only appropriate MIHA-allogeneic tumor cells were lysed as the target of the cytotoxic activity. The cytotoxic activity seemed MIHA-specific also at the target level; it lysed tumor cells of DBA/2 mouse origin but not those of BALB/c (syngeneic) origin. Phenotypes of the cytotoxic effector cell were Thy-1+ Lyt-2+. We concluded from these results that MIHA-specific cytotoxic T lymphocytes (CTL) were generated in the MIHA-allogeneic primary MLC. In this newly developed system, we studied genetic and antigenic requirements for primary anti-MIHA CTL responses in vitro. We demonstrated; among spleen cells (SC) of seven B10 H-2-congenic strains only SC of B10.D2 strain whose major histocompatibility complex (MHC) (H-2d) was compatible with the responder MHC effectively stimulated responder BALB/c (H-2d) SC for an anti-MIHA (DBA-C57BL-common) CTL response. Similarly, only SC of two out of seven C x B recombinant inbred strains (C x B.H and C x B.D), which were compatible at the MHC with responder SC, activated responder BALB/c SC for the response. The possibility that cells responding to H-2 alloantigens suppressed the anti-MIHA response was ruled out. Additional experiments showed that compatibility at the H-2K-end or the H-2D-end of the MHC was sufficient for a definite anti-MIHA response. These provided formal evidence that primary anti-MIHA CTL responses in vitro were MHC-restricted at the stimulator level. We then showed that sonication-disrupted SC or Sephadex G-10 column-passed nonadherent SC failed to stimulate responder SC for a primary anti-MIHA CTL response, whereas G-10-passed nonadherent SC responded well to adherent stimulator cells. Further study demonstrated that Ia+ adherent cells were the most active cell type as stimulator. Finally, we confirmed that the primary anti-MIHA CTL responses to adherent stimulator cells was MHC-restricted.     

In vitro induction of immunological tolerance

IL-2 was previously shown to induce cytotoxic effectors with a broad spectrum of target specificities in thymus and spleen cell cultures. This study was designed to show whether T cells activated by H-2 allogeneic cells in MLC or by syngeneic tumor cells in MLTC are also potential targets for these cytotoxic effectors. We found that thymocytes activated in vitro for 5 days by rIL-2 were capable of killing tumor cells as well as activated T cells. Thymocytes activated by IL-2 were accordingly utilized as a means of effecting clonal deletion of T cells activated by H-2 allogeneic target cells in MLC. To establish whether the unresponsiveness is specific. IL-2-activated thymocytes were added as third party cells to MLC and MLTC. The results showed that both T cells, proliferating in response to H-2 allogeneic cells, and CTL, reactive against syngeneic tumors or H-2 allogeneic cells, are eliminated from the T cell pool. Only alloreactive T cells are specifically eliminated in MLC by IL-2-activated thymocytes, as the remaining T cells are capable of proliferating and generating CTL in response to antigenically unrelated third party allogeneic cells. The possibility that unresponsiveness might be due to soluble factors was ruled out by studies performed with a diffusable "chamber insert" culture system. The results provide evidence that IL-2-activated thymocytes induce in vitro T cell tolerance.     

T cell-specific negative regulation of transcription of the human cytokine IL-4.

IL-4 secreted by activated T cells is a pleiotropic cytokine affecting growth and differentiation of diverse cell types such as T cells, B cells, and mast cells. We investigated the upstream regulatory elements of the human IL-4 promoter. A novel T cell-specific negative regulatory element (NRE) composed of two protein-binding sites were mapped in the 5' flanking region of the IL-4 gene: -311CTCCCTTCT-303 (NRE-I) and -288CTTTTTGCTT-TGC-300 (NRE-II). A T cell-specific protein Neg-1 and a ubiquitous protein Neg-2 binding to NRE-I and NRE-II, respectively, were identified. Furthermore, a positive regulatory element was found 45 bp downstream of the NRE. The enhancer activity of the PRE was completely suppressed when the NRE was present. These data suggest that IL-4 promoter activity is normally down-regulated by an NRE via repression of the enhancer positive regulatory element. These data may have implications for the stringent control of IL-4 expression in T cells.     

Effect of transforming growth factor (TGF)-beta 1 on IgA isotype expression. TGF-beta 1 induces a small increase in sIgA+ B cells regardless of the method of B cell activation.

Transforming growth factor-beta (TGF-beta) has been reported to play an important role in IgA isotype expression when B cells are stimulated with LPS. The goal of the present study was to determine whether TGF-beta has similar effects on IgA isotype expression under more physiologic conditions utilizing a variety of B cell activation systems. As previously reported, in the LPS system TGF-beta caused a small, but significant, absolute increase in surface IgA (sIgA) expression and a very definite increase in IgA secretion; these effects were enhanced by IL-2 and IL-5. In the case of B cell stimulation with another B cell stimulant, the thymus-independent type II mitogen, anti-IgD-dextran, TGF-beta led to a similar small increase in sIgA expression, but caused suppression of IgA secretion. Using the Th2 cell clones CDC35 and D10 to stimulate resting B cells in a cognate and non-cognate T cell-dependent fashion, respectively, TGF-beta again increased sIgA expression to a similar small extent. TGF-beta at low doses (0.1 ng/ml) did not increase IgA secretion significantly and, at higher doses (1.0 ng/ml) caused significant suppression of IgA secretion. Addition of various cytokines (IL-2, -4, -5, D10sup) other than TGF-beta to stimulated B cells did not increase sIgA expression, but did give rise to increased amounts of IgA secretion, especially when activated D10 T cells were used as the B cell stimulant. Finally, the addition of an antibody against TGF-beta to cultures containing TGF-beta on day 2 led to partial or complete reversal of the inhibitory effects of TGF-beta on IgA secretion. In conclusion, TGF-beta causes a consistent, but small increase in sIgA+ B cells, in cultures of B cells stimulated by a variety of T cell-dependent or independent stimuli. In contrast, TGF-beta either promotes or inhibits B cell survival and IgA secretion, depending on the method of B cell activation. These results are most consistent with the view that TGF-beta provides only a partial or incomplete IgA switch signal but that additional factors are involved in IgA isotype switching and differentiation.     

Lack of reconstitution of nude mice alloreactivity by purified interleukin 2 and induction of non-H-2-specific effector cells by crude supernatants

To verify or to challenge the reports indicating that IL-2 was the only molecule involved in the reconstitution of nu/nu mice alloreactivity in vitro, Balb/c (H-2d) nu/nu spleen cells were primed in culture against C57/B16 (H-2b) in the presence of crude IL-2-containing supernatants or purified IL-2. The generation of cytotoxic effectors was evaluated against a panel of 51Cr-labeled target cells. Although crude IL-2-containing supernatants sustained the generation of cytotoxic effectors, purified "natural" IL-2 (from different origins) and recombinant IL-2 were not able to do so. Con A or PHA were identified as cofactors synergizing with IL-2 to induce effectors from nu/nu spleen cells. These effectors efficiently lysed EL4 (H-2b, tumor line), but not mitogen-induced blast cells from the same strain. They also lysed targets bearing irrelevant allogenic H-2 specificities. Cold competition experiments confirmed the lack of H-2 specificity of such effectors: lysis of EL4 cells (H-2b) was inhibited strongly by YAC-1 cells (H-2a, very sensitive to NK lysis) or P815 cells (H-2d, autologous to the nu/nu effectors). Our results clearly challenge earlier conclusions and indicate that IL-2 alone does not reconstitute nude mice alloreactivity. Crude supernatants containing IL-2 and mitogen induce nonspecific effectors with patterns of reactivity similar to those of activated natural killers. We think that the cytotoxicity observed in these conditions in nude mice results from the mitogenic triggering of some kind of prethymic killer cells which subsequently are expanded by IL-2.     

Phosphorylation of the CD20 phosphoprotein in resting B lymphocytes. Regulation by protein kinase C

CD20, a B cell integral membrane protein, regulates B cell activation and is differently phosphorylated in resting and activated cells. We have previously shown that CD20 phosphorylation is increased in activated cells and in phorbol ester-treated resting cells. Phosphorylation is also altered by agents which signal B cell proliferation, such as anti-IgM and a B cell growth factor. The present study was designed to address whether protein kinase C (PKC) or other kinases used CD20 as a substrate. When purified PKC was incubated with isolated CD20, both the 35- and 37-kDa CD20 proteins were phosphorylated in vitro. Intact resting B cells were next incubated with the protein kinase inhibitors H-7, H-8, and W-7. No change in basal CD20 phosphorylation was observed in the presence of W-7 and H-8, indicating that the protein cyclic nucleotide-dependent and calmodulin-dependent kinases were not actively phosphorylating CD20. Surprisingly, the PKC inhibitor H-7 increased CD20 phosphorylation at concentrations above 25-50 microM. To assess whether PKC either activated a phosphatase or inactivated a kinase affecting CD20 phosphorylation, tryptic phosphopeptide mapping of CD20 was performed. These studies revealed that addition of phorbol 12-myristate 13-acetate increased phosphorylation of some peptides differing from those which had increased phosphorylation following addition of H-7. Furthermore, signalling through surface immunoglobulin increased phosphorylation of CD20 peptides distinct from those hyperphosphorylated following addition of phorbol 12-myristate 13-acetate. These results demonstrate that 1) CD20 has multiple phosphorylation sites, as predicted from sequence data, and 2) whereas PKC can use CD20 as substrate, at least one other unidentified kinase phosphorylates CD20 in resting cells. Our data also predict that activation of B cells via the antigen receptor (surface IgM) may activate other protein kinases in addition to PKC.     

Distinct activation signals determine whether IL-21 induces B cell costimulation, growth arrest, or Bim-dependent apoptosis

IL-21 costimulates B cell proliferation and cooperatively with IL-4 promotes T cell-dependent Ab responses. Somewhat paradoxically, IL-21 also induces apoptosis of B cells. The present study was undertaken to more precisely define the expression of the IL-21R, using a novel mAb, and the circumstances by which IL-21 promotes B cell growth vs death. The IL-21R was first detected during T and B cell development, such that this receptor is expressed by all mature lymphocytes. The IL-21R was further up-regulated after B and T activation, with the highest expression by activated B cells. Functional studies demonstrated that IL-21 substantially inhibited proliferation and induced Bim-dependent apoptosis for LPS or CpG DNA-activated B cells. In contrast, IL-21 induced both costimulation and apoptosis for anti-CD40-stimulated B cells, whereas IL-21 primarily costimulated B cells activated by anti-IgM or anti-IgM plus anti-CD40. Upon blocking apoptosis using C57BL/6 Bim-deficient or Bcl-2 transgenic B cells, IL-21 readily costimulated responses to anti-CD40 while proliferation to LPS was still inhibited. Engagement of CD40 or the BCR plus CD40 prevented the inhibitory effect by IL-21 for LPS-activated B cells. Collectively, these data indicate that there are three separable outcomes for IL-21-stimulated B cells: apoptosis, growth arrest, or costimulation. We favor a model in which IL-21 promotes B cell maturation during a productive T cell-dependent B cell response, while favoring growth arrest and apoptosis for nonspecifically or inappropriately activated B cells.