Dissociation of Pax-5 from KI and KII sites during kappa-chain gene rearrangement correlates with its association with the underphosphorylated form of retinoblastoma

The KI and KII sites play a crucial role in kappa-chain gene rearrangement, which was investigated in mice deficient for these sites. Previously, we found that Pax-5 can bind to the KI and KII sites; however, the function of Pax-5 in kappa-chain gene rearrangement has not been investigated. Here, we have used an in vitro culture system in which differentiation from pre-B cells to immature B cells is induced by removing IL-7. We showed that, after the induction of differentiation, Pax-5 dissociated from the KI and KII revealed by EMSA analyses, and this dissociation occurred specifically at the KI and KII sites, but not at the Pax-5 binding site, in the CD19 promoter because of a lower binding affinity of Pax-5 for the KI and KII sites. During differentiation induced by removing IL-7, the underphosphorylated form of retinoblastoma preferentially associated with Pax-5, which caused dissociation of Pax-5 from KI and KII sites. These results suggest that the dissociation of Pax-5 from the KI and KII sites is important in the induction of kappa-chain gene rearrangement.     

Broad programming by IL-2 receptor signaling for extended growth to multiple cytokines and functional maturation of antigen-activated T cells

Coincident production of IL-2 and induction of high-affinity IL-2R upon TCR engagement has precluded a clear distinction for the biological outcome of signaling through TCR/costimulatory molecules vs the IL-2R. Using a novel transgenic mouse on the IL-2Rbeta(-/-) genetic background, this study has separated the relative outcome of signaling through the TCR and IL-2R. We show that stimulation through the TCR and CD28 or CD40 ligand directly leads to T cell activation and several rounds of proliferation in an IL-2-independent fashion. However, this stimulation is insufficient for extended T cell growth to multiple cytokines or differentiation into CTL or IFN-gamma-secreting effector T cells. IL-2 is required for these functions in part by regulation of cyclin D3 and granzyme B. Somewhat less efficiently, IL-4 stimulation of these transgenic T cells redundantly rescued many of these activities. These data demonstrate a fundamental requirement for IL-2 and perhaps other common gamma-chain-dependent cytokines to promote selective gene expression by Ag-activated T cells for their subsequent growth and differentiation into effector T lymphocytes.     

Control of T cell development in vivo by subdomains within the IL-7 receptor alpha-chain cytoplasmic tail

IL-7/IL-7R signaling functions in both growth and differentiation during T cell development. In this study, we examined the extent these activities were controlled by signaling associated with distinct IL-7R alpha cytoplasmic domains by transgenic expression of wild-type or cytoplasmic deletion mutants of IL-7R alpha in the thymi of IL-7R alpha(-/-) mice. We show an essential requirement for the tyrosine-containing carboxyl-terminal T domain in restoring thymic cellularity, pro-/pre-T cell progression, and survival. In contrast, the functional differentiation of TCR alpha beta cells and the development of TCR gamma delta cells are partially independent of the T domain. Thus, separate cytoplasmic domains of the IL-7R alpha chain differentially control distinct functions during T cell development, whereas normal IL-7R-dependent thymic development requires the integrated activity of all these domains.     

Expression of functional human EGF receptor on murine bone marrow cells.

The human epidermal growth factor-receptor (EGF-R) was introduced into primary mouse bone marrow cells (BMC), utilizing retrovirus mediated gene transfer. Cultivation of infected BMC in the presence of interleukin-3 (IL-3) led to the outgrowth of IL-3 dependent myeloid cells, which efficiently expressed functional EGF-R, exhibiting its two characteristic affinity states. EGF acts on these cells synergistically with IL-3 in stimulating DNA synthesis and cell proliferation even under IL-3 saturation conditions. However, EGF was not sufficient to replace the requirement for IL-3. In contrast, EGF was able to maintain proliferation of a factor-dependent hemopoietic cell line (FDC-P1) infected with the EGF-R retrovirus in the absence of IL-3, but these cells did not respond to EGF in the presence of IL-3. No influence of EGF on IL-3 induced mast cell differentiation of BMC expressing the EGF-R could be observed by histological criteria. These data show that the expression of EGF-R alone is not sufficient to induce or maintain cell proliferation in IL-3 dependent bone marrow derived cells, although it can do so in established hemopoietic cell lines.     

Ly-6A.2 expression regulates antigen-specific CD4+ T cell proliferation and cytokine production.

Ly-6 proteins appear to serve cell adhesion and cell signaling function, but the precise role of Ly-6A.2 in CD4+ T lymphocytes is still unclear. Overexpression of Ly-6A.2 in T lymphocytes has allowed us to analyze the influence of elevated Ly-6A.2 expression on T cell function. In this study we report reduced proliferation of CD4+ T cells overexpressing Ly-6A.2 in response to a peptide Ag. Moreover, the Ly-6A.2-overexpressing CD4+ cells generated elevated levels of IL-4, a key factor that propels the differentiation of naive CD4+ T cells into Th2 subset. The hyporesponsiveness of Ly-6A.2 transgenic CD4+ T cells is dependent on the interaction of Ly-6A.2 T cells with the APCs and can be reversed by blocking the interaction between Ly-6A.2 and a recently reported candidate ligand. Overexpression of Ly-6A.2 in CD4+ T cells reduced their Ca(2+) responses to TCR stimulation, therefore suggesting effects of Ly-6A.2 signaling on membrane proximal activation events. In contrast to the observed Ag-specific hyporesponsiveness, the Ly-6A.2 transgenic CD4+ T cells produced IL-4 independent of the interactions between Ly-6A.2 and the candidate Ly-6A.2 ligand. Our results suggest that 1) interaction of Ly-6A.2 with a candidate ligand regulates clonal expansion of CD4+ Th cells in response to an Ag (these results also provide further functional evidence for presence of Ly-6A.2 ligand on APC); and 2) Ly-6A.2 expression on CD4+ T cells promotes production of IL-4, a Th2 differentiation factor.     

Mice transgenic for IL-1 receptor antagonist protein are resistant to herpetic stromal keratitis: possible role for IL-1 in herpetic stromal keratitis pathogenesis

Ocular infection with HSV may result in the blinding immunoinflammatory lesion stromal keratitis (SK). This represents a CD4+ T cell-mediated immunopathologic lesion in both humans and a mouse model. Early events in the pathogenesis that set the stage for SK are poorly understood. The present study evaluates the role of IL-1 using a transgenic mouse that overexpresses the IL-1 receptor antagonist (IL-1ra) protein. Such transgenic mice were markedly resistant to SK compared with IL-1ra(-/-) and C57BL/6 control animals. The resistance was shown to be the consequence of reduced expression of molecules such as IL-6, macrophage-inflammatory protein-2, and vascular endothelial growth factor, normally up-regulated directly or indirectly by IL-1. A critical event impaired in IL-1ra transgenic mice was vascular endothelial growth factor production with a consequent marked reduction in angiogenesis, an essential step in SK pathogenesis. Targeting IL-1 could prove to be a worthwhile therapeutic approach to control SK, an important cause of human blindness.     

The role of recombinant stem cell factor in early B cell development. Synergistic interaction with IL-7.

The cDNA for stem cell factor was recently isolated from Buffalo rat liver cells (BRL-3A) and recombinant rat stem cell factor produced from Escherichia coli (rrSCF164). rrSCF164 synergizes with rhIL-7 to stimulate pre-B clonal growth in agar culture of mouse bone marrow cells, and in this study we have characterized the role of rrSCF164 in B cell development. The combination of rrSCF164 plus rhIL-7 stimulated increased colony numbers compared with the sum of colonies stimulated by rrSCF164 and rhIL-7 alone. Also, increased cell proliferation per colony was stimulated by the combination of rrSCF164 plus rhIL-7 compared with rhIL-7 or rrSCF164 alone. The colonies formed with rrSCF164 plus rhIL-7 and rhIL-7 alone contained exclusively pre-B cells, which expressed B220 Ag and cytoplasmic mu-chain, but were negative for surface Ig expression. Morphological examination of the cells in the colonies showed blast-like characteristics. rrSCF164 alone and in combination with rhIL-7 stimulated generation of B220+ cells in liquid culture of B220- cells, whereas rhIL-7 alone had no stimulatory effect on B220- cells. Both stem cell factor mRNA and bioactivity were detected in a mouse bone marrow-derived stromal cell line, termed OZ-11. We propose that stem cell factor is a stromal-derived factor that synergizes with IL-7 to stimulate the proliferation and differentiation of pro-B cells to pre-B cells, which become responsive to IL-7 alone.     

An in vivo IL-7 requirement for peripheral Foxp3+ regulatory T cell homeostasis

All T cells are dependent on IL-7 for their development and for homeostasis. Foxp3(+) regulatory T cells (Tregs) are unique among T cells in that they are dependent on IL-2. Whether such IL-2 dependency is distinct from or in addition to an IL-7 requirement has been a confounding issue, particularly because of the absence of an adequate experimental system to address this question. In this study, we present a novel in vivo mouse model where IL-2 expression is intact but IL-7 expression was geographically limited to the thymus. Consequently, IL-7 is not available in peripheral tissues. Such mice were generated by introducing a thymocyte-specific IL-7 transgene onto an IL-7 null background. In these mice, T cell development in the thymus, including Foxp3(+) Treg numbers, was completely restored, which correlates with the thymus-specific expression of transgenic IL-7. In peripheral cells, however, IL-7 expression was terminated, which resulted in a general paucity of T cells and a dramatic reduction of Foxp3(+) Treg numbers. Loss of Tregs was further accompanied by a significant reduction in Foxp3(+) expression levels. These data suggest that peripheral IL-7 is not only necessary for Treg survival but also for upregulating Foxp3 expression. Collectively, we assessed the effect of a selective peripheral IL-7 deficiency in the presence of a fully functional thymus, and we document a critical requirement for in vivo IL-7 in T cell maintenance and specifically in Foxp3(+) cell homeostasis.     

Transforming growth factor-beta 1 selectively inhibits IL-3-dependent mast cell proliferation without affecting mast cell function or differentiation

Transforming growth factor-beta 1 (TGF-beta 1) is an important regulator of cell growth, differentiation, and function. We show that TGF-beta 1 selectively inhibits IL-3-dependent mouse bone marrow derived mast cell (MBMMC) proliferation without affecting MBMMC function or differentiation. TGF-beta 1 significantly decreased [3H]thymidine uptake by IL-3-dependent MBMMC in a dose-dependent manner with 50% inhibition of proliferation occurring with a TGF-beta 1 concentration of 0.1 ng/ml. A brief (i.e., 30 min) incubation of MBMMC with TGF-beta 1 is sufficient to inhibit IL-3-induced proliferation of MBMMC (cultured in the absence of TGF-beta 1) for 24 to 48 h. The inhibitory effect of TGF-beta 1 on the IL-3-dependent proliferation of MBMMC is not cytotoxic as evident from the absence of MBMMC trypan blue staining, the retained functional characteristics of the MBMMC cultured in TGF-beta 1, and the reversibility of the TGF-beta 1 induced inhibition of IL-3 dependent MBMMC proliferation. MBMMC grown in TGF-beta 1 acutely (24 to 48 h) or chronically (7 to 14 days) do not exhibit functional differences in performed or newly generated mediator secretion (Ag/IgE or calcium ionophore A23187 induced MBMMC beta-hexosaminidase or leukotriene C4 release) from MBMMC grown in the absence of TGF-beta 1. In addition, MBMMC cultured for 2 wk in TGF-beta 1 do not show evidence of differentiation as assessed by cellular histamine content or Alcian blue/safranin staining. Thus, TGF-beta 1 is an important negative regulator of IL-3-dependent mast cell proliferation in vitro, selectively inhibiting IL-3-dependent MBMMC proliferation without affecting MBMMC function or differentiation.     

Interleukin 6 (IL-6) and its receptor: their role in plasma cell neoplasias

Interleukin 6 (IL-6) is a multifunctional cytokine regulating immune response acute phase reaction and hematopoiesis. IL-6 plays a critical role in B cell differentiation to plasma cells and is a potent growth factor for plasmacytoma and myeloma. Abnormal production of IL-6 has been suggested to be involved in polyclonal plasma cell abnormalities and plasma cell neoplasias. The deregulated expression of the IL-6 gene in transgenic mice resulted in the generation of malignant plasmacytoma. Based on these findings, it could be considered that continuous IL-6 gene expression plays an essential role in a multistep oncogenesis of plasma cell neoplasias. The role of IL-6 and its receptor in the generation of plasma cell neoplasias and the mechanisms of the IL-6 gene expression and IL-6 receptor-mediated signal transduction are described.     

IL-6 and IL-1 synergize to stimulate IL-2 production and proliferation of peripheral T cells

Purified T cells can be induced to proliferate and to produce the autocrine growth factor IL-2 with mAb to the TCR and costimulatory cytokines. In a previous report we demonstrated that human IL-6 stimulates IL-2 production and proliferation of purified T cells, in conjunction with the insolubilized anti-TCR V beta 8 mAb, F23.1. Here we show that when CD4+ T cells are rigorously purified to greater than 99% CD4+CD8-, they respond only weakly to F23.1 and IL-6. Instead, there is an additional requirement for IL-1, which dramatically synergizes with IL-6 to induce prolonged (greater than 7 days) proliferative responses and IL-2 production. Similar results were observed when the highly mitogenic anti-CD3 mAb 145-2C11 was substituted for F23.1. The proliferation induced by F23.1, IL-1, and IL-6 was substantially (greater than 80%) inhibited by a mAb to mouse IL-2, and was not inhibited by an anti-IL-4-mAb. In accordance with this finding, medium conditioned by the activated CD4+ cells contained large amounts of IL-2, which increased over a 7-day culture period. These results demonstrate that IL-6 and IL-1 stimulate T cell proliferation by inducing production of the autocrine growth factor IL-2. In addition, the two lymphokines must be present simultaneously for activation to occur. The possible roles of IL-6 and IL-1 in IL-2 gene regulation and in Ag-induced T cell activation are discussed.     

Specific effect of the HLDF differentiation factor on the cytokine production potential of immunocompetent blood cells in stomach adenocarcinoma

The cytokine production potential of immunocompetent cells from the blood of stomach adenocarcinoma patients was analyzed after the pretreatment of cells with the HLDF differentiation factor with subsequent exposure to polyclonal activators (HLDF+PA). IL-1β, IL-1Ra, TNFα, IL-2, IL-6, IL-8, IL-10, IL-17, IL-18, IL-18BPa, IFNγ, G-CSF, and GM-CSF were quantified in the supernatants after precipitation of the cells. Specific effects of HLDF+PA were manifested as an increase in the production of IL-8, IL-17, and GM-CSF due to suppression of Th1-dependent immune reactions in a Th17-mediated mechanism that is a part of a broader functional antagonism of Th1 and Th17 lymphocyte subpopulations.     

Impaired NK cell development in an IFN-gamma transgenic mouse: aberrantly expressed IFN-gamma enhances hematopoietic stem cell apoptosis and affects NK cell differentiation

Aberrant expression of IFN-gamma has been demonstrated to cause a wide variety of alterations in cell function and development. Previously we reported that constitutive expression of IFN-gamma in bone marrow (BM) and thymus results in a total absence of B cells and a substantial decrease in the number of hematopoietic progenitor cells. In this study, we demonstrate a severe deficiency of NK1.1(+)CD3(-) cells in this transgenic mouse model. Compared with normal control littermates, we found a pronounced reduction of NK cells in IFN-gamma transgenic mouse spleen and liver despite maintenance of normal function. In addition, we observed a reduced number of BM cells in the IFN-gamma transgenic mouse despite normal expression of hematopoietic growth factors in the BM. Interestingly, these cells were less responsive to stem cell factor (SCF) despite c-kit expression on hematopoietic stem cells (HSCs). We observed that addition of exogenous IFN-gamma inhibited proliferation of HSCs and differentiation of NK precursors from HSCs in normal mice in response to SCF, IL-7, fms-like tyrosine kinase 3 ligand, and IL-15. Furthermore, we found that HSCs express the IFN-gammaRalpha subunit and undergo apoptosis in response to exogenous IFN-gamma. Thus, we have demonstrated the occurrence of a severe deficiency of NK cells and lower numbers of BM cells in an IFN-gamma transgenic mouse model. Furthermore, because exogenous IFN-gamma affects the responsiveness to hematopoietic growth factors such as SCF in vitro, our results indicate that chronic expression of IFN-gamma in vivo leads to widespread immune system defects, including alterations in NK cell differentiation.     

The DJH complex remains active in recombination to VH segments after the loss of mu-chain expression in mu-positive pre-B cells

AT11-2 is an Abelson virus-transformed B precursor cell line which is capable of differentiating Ig- from mu+ cells via functional recombination of VH segments to preexisting DJH complexes. We describe here that after a mu+ subclone (VDJ+/DJ) generated from Ig- AT11-2 (DJ/DJ) cells by in vitro functional VH to DJH recombination subsequently lost mu-chain expression either by the recombination of a pseudo VH segment to the VHDJH+ allele or by the deletion of VHDJH+ allele, a novel productive joining of VH segments to the preexisting DJH complex occurred. These results indicated that VH to VHDJH rearrangement was not suppressed in mu-chain producing cells and that the DJH complexes still remained active in the recombination to VH segments after the loss of mu-chain expression. Our results may also suggest that VH to DJH rearrangement, but not VH to VHDJH rearrangement, is suppressed in mu-chain producing cells to maintain allelic exclusion. Our cell differentiation system should continue to be valuable for elucidating the mechanism of suppression and associated implications regarding allelic exclusion.     

Analysis of the HLA-Cw3-specific cytotoxic T lymphocyte response of HLA-B7 X human beta 2m double transgenic mice

The cytolytic responses of either normal (non transgenic), HLA-B7 (single transgenic) or HLA-B7 x human beta 2 microglobulin (double transgenic) DBA/2 mice induced by transfected HLA-Cw3 P815 (H-2d) mouse mastocytoma cells were compared, to evaluate whether the expression of an HLA class I molecule in responder mice would favor the emergence of HLA-specific, H-2-unrestricted CTL. Only 8 of 300 HLA-Cw3-specific CTL clones tested could selectively lyse HLA-Cw3-transfected cells in an H-2-unrestricted manner, all having been isolated after hyperimmunization of double transgenic mice. These clones also lysed HLA-Cw3+ human cells. Unexpectedly, the lysis of the human but not that of the murine HLA-Cw3 cells was inhibited by Ly-2,3-specific mAb. Despite significant expression of HLA-B7 class I molecules on transgenic lymphoid cells, including thymic cells, limiting dilution analysis and comparative study of TCR-alpha and -beta gene rearrangements of the eight isolated clones (which suggested that they all derived from the same CTL precursor) indicated that the frequency of HLA-Cw3-specific H-2 unrestricted cytotoxic T lymphocytes remained low (even in HLA-B7 x human beta 2-microglobulin double transgenic mice). This suggests that coexpression of HLA class I H and L chain in transgenic mice is not the only requirement for significant positive selection of HLA class I-restricted cytotoxic mouse T lymphocytes.     

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.     

Impaired fertility and spermiogenetic disorders with loss of cell adhesion in male mice expressing an interfering Rap1 mutant

The guanosine trisphosphatase Rap1 serves as a critical player in signal transduction, somatic cell proliferation and differentiation, and cell-cell adhesion by acting through distinct mechanisms. During mouse spermiogenesis, Rap1 is activated and forms a signaling complex with its effector, the serine-threonine kinase B-Raf. To investigate the functional role of Rap1 in male germ cell differentiation, we generated transgenic mice expressing an inactive Rap1 mutant selectively in differentiating spermatids. This expression resulted in a derailment of spermiogenesis due to an anomalous release of immature round spermatids from the seminiferous epithelium within the tubule lumen and in low sperm counts. These spermiogenetic disorders correlated with impaired fertility, with the transgenic males being severely subfertile. Because mutant testis exhibited perturbations in ectoplasmic specializations (ESs), a Sertoli-germ cell-specific adherens junction, we searched for expression of vascular endothelial cadherin (VE-cadherin), an adhesion molecule regulated by Rap1, in spermatogenic cells of wild-type and mutant mice. We found that germ cells express VE-cadherin with a timing strictly related to apical ES formation and function; immature, VE-cadherin-positive spermatids were, however, prematurely released in the transgenic testis. In conclusion, interfering with Rap1 function during spermiogenesis leads to reduced fertility by impairment of germ-Sertoli cell contacts; our transgenic mouse provides an in vivo model to study the regulation of ES dynamics.     

Exploiting differential expression of the IL-7 receptor on memory T cells to modulate immune responses

Interleukin-7 is a non-redundant growth, differentiation and survival factor for human T lymphocytes. Most circulating, mature T cells express the receptor for IL-7, but not all. Importantly, CD4 Tregs express greatly reduced levels of IL-7R compared to conventional CD4 T cells, presenting an opportunity to selectively target the latter cells with either more IL-7 to boost responses, or to block IL-7 signalling to limit responses. This article reviews what is known about regulation of IL-7R expression, and recent progress in therapeutic approaches related to IL-7 and its receptor.