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The calcium ionophore, A23187, when used alone was found to induce proliferation of murine T cells, at concentrations of 0.5-1 mM. This response required the presence of syngeneic splenic adherant cells (SAC) as a source of accessory cells. Interestingly, only CD4+ T cells but not CD8+ T cells or B cells responded to the calcium ionophore by proliferation. The inability of CD8+ T cells or B cells to respond was not related to decreased elevation in the intracellular ionized calcium [Ca2+]i concentration induced by the ionophore, because activated CD4+ T, CD8+ T and B cells all exhibited similar elevation in [Ca2+]i. The inability of CD8+ T cells to respond to calcium ionophore was probably due to insufficient production of autocrine growth factors, such as IL-2, inasmuch as the addition of exogenous IL-2 could completely restore the CD8+ T cell responsiveness. Also, exogenous rIL-1 could partially restore purified T cell response to calcium ionophore, whereas, rIL-6 failed to do so. IL-2, but not IL-4, acted as an autocrine growth factor for T cells responding to the calcium ionophore in the presence of SAC, since, antibodies against IL-2 or IL-2 receptor (IL-2R) but not against IL-4, could inhibit the T cell proliferation. Furthermore, exogenous rIL-2 but not rIL-4 supported the proliferation of T cells to calcium ionophore in the absence of accessory cells. Our results suggest that murine lymphocytes exhibit heterogeneity in their proliferative responsiveness to calcium ionophore and that this may not depend on the early activation signal such as the elevation in [Ca2+]i) induced by the ionophore but may depend on subsequent signals which regulate endogenous growth factor production.
Cell Mol Biol (Noisy-le-grand)
PMID:Murine lymphocytes exhibit heterogeneity in their proliferative responsiveness to calcium ionophore. 148 6

Ig production by splenic human B cells that express different surface Ig isotypes were analysed in limiting dilution cultures. Therefore, FACS sorted IgM+, IgG+ and IgA1+ B cells were stimulated with PMA-activated EL4 thymoma cells as helper cells in the presence of IL-2 and IL-4. We found that at least every second B cell responded in vitro and secreted the antibody corresponding to its surface Ig isotype. IgE secreting cells developed from surface IgM+ D+ cells (1/31 to 1/167), but not from IgG+ or IgA1+ cells (much less than 1/5000). Negative signalling of the IgM+ B cells by addition of anti-IgM antibodies into the cultures reduced the number of single IgM producing cells by greater than 85%, and completely inhibited IgE switch. In contrast, anti-IgG and anti-IgA antibodies did not reduce the IgE response. The results indicate a direct switch from IgM to IgE secretion in vitro. In contrast to IgE, IgA secreting cells developed from IgM+D+ (1/30 to 1/51) and from IgG+ B cells (1/14 to 1/25). Negative signalling of the IgG+ B cell subset within total B cells by anti-IgG antibodies suppressed the development of IgG as well as IgA producing cells, but did not inhibit IgM and IgE responses. This indicates a sequential switch from IgM via IgG to IgA. Taken together, this study indicates that IgE secreting cells are derived directly from IgM+D+ B cells by non-sequential switching, whereas IgA producing cells preferentially develop by sequential switching via IgG+ B cells.
Mol Immunol 1992 Oct
PMID:T cell dependent differentiation of human B cells: direct switch from IgM to IgE, and sequential switch from IgM via IgG to IgA production. 152 90

Immunoglobulin class switch recombination is directed to the same switch region on both chromosomes of a B cell by an as yet unknown mechanism. The cytokine interleukin 4 (IL4) targets recombination in activated B lymphocytes to the gamma 1 switch region (s gamma 1). Here we report two DNA-binding-proteins which bind to a sequence 5' of s gamma 1. One protein is B cell specific, while binding of the other one is induced by IL4. These two proteins bind to a region 700 bp upstream of the putative promoter region of the gamma 1 germline transcripts and may be involved in the process of recombination and/or transcription.
Mol Immunol 1992 Oct
PMID:DNA binding sites 5' of the IgG1 switch region comprising IL4 inducibility and B cell specificity. 152 95

Heteronuclear 13C and 15N three-dimensional nuclear magnetic resonance (n.m.r.) techniques have been used to determine the solution structure of human interleukin 4, a four-helix bundle protein. A dynamical simulated annealing protocol was used to calculate an ensemble of structures from an n.m.r. data set of 1735 distance restraints, 101 phi angle restraints and 27 pairs of hydrogen bond restraints. The protein structure has a left-handed up-up-down-down topology for the four helices with the two long overhand loops in the structure being connected by a short section of irregular antiparallel beta-sheet. Analysis of the side-chains in the protein shows a clustering of hydrophobic residues, particularly leucines, in the core of the bundle with the side-chains of charged residues being located on the protein surface. The solution structure has been compared with a recent structure prediction for human interleukin 4 and with crystal structures of other helix bundle proteins.
J Mol Biol 1992 Apr 20
PMID:Human interleukin 4. The solution structure of a four-helix bundle protein. 156 78

A number of investigators have demonstrated the association of CD5+ (Ly-1/Leu-1) B cells with autoimmunity, excessive B-cell proliferation, and transformation. Previous work from our laboratory, among others, suggests that the selective advantage of this frequently autoreactive B-cell subset is to provide activation signals to conventional antigen-specific B cells. If one current hypothesis is correct then the overrepresentation of CD5+ B cells in some diseases and their novel capacity to act as helper cells reflect the activities of a separate B-cell lineage. Because of these observations it is of particular interest to evaluate the factors which contribute to the maturation of the CD5+ B-cell subset. The possibility that CD5+ B cells produce a factor or factors capable of influencing their own development was the focus of the present investigation. Rather than attempt to obtain soluble factors from heterogeneous CD5+ B-cell populations which could be contaminated with cytokine secreting monocytes or which could require as yet undefined activation signals in order to secrete putative factors, we chose to evaluate the production of CD5+ B-cell inducing factor(s) by monoclonal CD5+ B-cell hybridomas. Added incentive to this approach was provided by the observation that these hybridomas elaborate a factor(s) which, together with (NPb) idiotype-specific antibody produced by the hybridoma, substitutes for CD5+ B-cell populations in activating antigen-specific (NPb idiotypic) B cells in vitro. Furthermore, because of the low percentage of CD5+ B cells in the spleen and their relatively low level of CD5 antigen expression, we employed a sensitive functional assay rather than surface antigen expression alone to detect small numbers of mature CD5+ B helper cells. With this previously described system it was possible to observe the induction of functional CD5+ B cells following a 40 h culture of apparently CD5- B-cell populations with a 19-22 kd factor or factors derived from a CD5+ B hybridoma. Data presented here and elsewhere suggest that this CD5+ B-cell inducing activity is not mediated by IL-1, IL-2, IL-3, IL-4, IL-5, IL-6, IFN-gamma, GM-CSF, or TNF. The role that such a B cell derived, B-cell directed factor may play in immunity and disease is discussed.
J Mol Cell Immunol 1990
PMID:A CD5+ B cell hybridoma derived factor(s), which induces maturation of CD5+, idiotype-specific B-cell populations. 169 80

We examined the effects of various hemopoietins on c-kit mRNA and protein expression. Interleukin-3 (IL-3), granulocyte-macrophage colony-stimulating factor, and erythropoietin, but not IL-4, down-regulated levels of c-kit mRNA expressed by mast cells and stem cell progenitors. The effect of IL-3 was dominant and independent of cell growth or viability and was paralleled by reduced expression in c-kit protein. These observations indicate that regulation of c-kit expression is closely interlinked with the molecular mechanisms triggered by erythropoietin, IL-3, and granulocyte-macrophage colony-stimulating factor.
Mol Cell Biol 1991 May
PMID:Modulation of c-kit mRNA and protein by hemopoietic growth factors. 170 97

One of the hallmarks of the granulomatous response to infection is the formation of multinucleated giant cells (MGC.) In an effort to study MGC, we examined the fusion-promoting effects of a variety of stimulating factors on human peripheral blood monocytes cultured on plastic surfaces in serum-supplemented media. MGC formation was minimally to moderately enhanced by interferon-gamma (IFN-gamma), interleukin (IL)-3, granulocyte/macrophage colony-stimulating factor (GM-CSF), 1,25-dihydroxycholecalciferol (1,25-(OH)2D3), retinoic acid (RA), and IL-6. IL-4 (which has been reported to promote MGC formation from murine macrophages) had an inhibitory effect. IFN-gamma was not required for MGC formation but it significantly increased the fusion-promoting activity of GM-CSF, 1,25-(OH)2D3, RA, and IL-6, IL-3, a hematopoietic growth factor, has been recently shown to induce osteoclast formation from murine bone marrow mononuclear cells. The most striking effect was seen with the combination of IL-3 and IFN-gamma. Fusion index is defined as a percentage of nuclei found within MGC, and an index of 67% at 1 wk was found. The formation of some very large cells with 50 to 100 nuclei was noted. Both Langhans' and foreign-body type cells were seen. Transmission electron micrographs clearly demonstrate the absence of plasma membrane between nuclei. Induction of MGC from peripheral human blood monocytes by IL-3 and IFN-gamma provides an in vitro system for the study of the formation and function of these cells.
Am J Respir Cell Mol Biol 1992 Jan
PMID:Induction of multinucleated giant cell formation from in vitro culture of human monocytes with interleukin-3 and interferon-gamma: comparison with other stimulating factors. 172 95

In recent years there has been considerable discussion of possible cross-regulatory mechanisms involving the immune system and the neuroendocrine system. Certainly, evidence of hormonal communication between these two systems would provide at least a partial explanation for the many anecdotal observations of physical and mental stress affecting disease course. In previous studies of a neoplastic lymphokine-responsive B cell clone, BCL1-3B3, we noted that these cells produced a lymphokine which could affect normal B cell growth and viability. Physical characterization of this lymphokine indicated that its molecular weight was identical to that of the neuroendocrine hormone adrenocorticotropin (ACTH). Since Blalock and colleagues had reported the production of ACTH by virally-infected B cells, we have investigated whether ACTH can functionally mimic the BCL1-3B3-derived lymphokine. The neuroendocrine hormone adrenocorticotropin (ACTH) can increase in vitro murine B lymphocyte proliferation when added at physiologically relevant concentrations between 10(-9) to 10(-11) M. ACTH does not mimic the action of any lymphokine known to be required for B cell proliferation such as IL-2, IL-4, or IL-5. ACTH requires the presence of one or more of these known B cell stimulatory factors for its action and the most marked increase in B cell proliferation were noted in assays for IL-5 activity where 10(-10) M ACTH increased thymidine incorporation up to five-fold. Using two-stage assays, we determined that ACTH acts during the latter stages of B cell activation (i.e., 3-4 days after initial stimulation with either the combination of IL-4, GAMIg-Sepharose, and IL-1 or the combination of DxS and IL-5). These data indicate a direct role for a stress-induced neuroendocrine hormone in modulating the course of a humoral immune response.
J Mol Cell Immunol 1990
PMID:Adrenocorticotropin (ACTH) functions as a late-acting B cell growth factor and synergizes with interleukin 5. 196 84

Two murine T cell lines (C30.1 and Line 1) were used to study the expression of the p55 interleukin-2 receptor gene. C30.1 is an IL-2-dependent T cell line that can be stimulated for a short period of time by IL-4. Line 1 cells are propagated in IL-4 but they also proliferate in response to IL-2. In both cell lines stimulation by IL-2 leads to a strong induction of p55 IL-2 receptor mRNA while stimulation by IL-4 leads only to a very moderate increase in expression of this mRNA. The induction of p55 IL-2 receptor mRNA by IL-4 is comparable to that of beta-actin mRNA. These data confirm that IL-2 upregulates p55 IL-2 receptor gene expression while IL-4, which also activates T cells, does not lead to specific induction of this gene. We have also determined the transcription initiation sites utilized by the p55 IL-2 receptor gene in C30.1 and Line 1 cells. Seven sites were identified, one of which predominates. Resting cells, or cells stimulated with IL-2 or IL-4, display the same pattern of transcription site utilization.
Mol Immunol
PMID:Induction of mouse p55 interleukin-2 receptor gene expression by IL-2 and IL-4 and characterization of its transcription initiation sites. 201 Nov 31

The peptide regulatory factors (PRFs), variously termed cytokines, lymphokines, interleukins, colony stimulating factors, interferons, etc., play a key role in the quantitative and qualitative regulation of protective responses--both in initiating immunological and inflammatory responses and in mediating and controlling the effector mechanisms that protect the body against micro-organisms. The process of immunization--involving antigen-presentation, lymphocyte-activation and clonal proliferation--depends on the action of a variety of PRFs. The function of accessory cells--the dendritic cells, macrophages, etc.--is stimulated by PRFs such as interferon-gamma, IL-1, TNF, GM-CSF and IL-4. The activation and expansion of T-lymphocytes requires IL-1, IL-2, IL-4, interferon-gamma, IL-6 and probably IL-7. Likewise, the activation and expansion of B-lymphocytes is regulated by PRFs such as IL-1, IL-2, IL-4, IL-5, IL-6, IL-7 and interferon-gamma. It is likely, although unproven, that PRFs also regulate the differentiation of B-cells to memory cells. Successful vaccination requires the immune system to be primed in such a way that natural challenge with a micro-organism or its products evokes an immune response that has the qualitative and the quantitative characteristics of both the humoral and cellular responses. Antibody class is critically influenced by particular PRFs, e.g. interferon-gamma regulates IgG2a; IL-4, IgE and IgG1; IL-5 and TGF-beta, IgA. PRFs are both produced by and regulate the T-lymphocytes which have key roles in protective responses--either directly, viz. the cytotoxic T-lymphocytes important in protection against certain viruses, or indirectly through the secretion of PRFs that regulate the speed, magnitude and quality of antibody cellular responses. The recruitment and enhanced production and function of granulocytic and phagocytic cells involves a number of T-lymphocyte PRFs including GM-CSF, IL-3, IL-5, IL-4, and IL-6. We do not have a good understanding of the fine-tuning of cellular responses nor of how infection with different pathogens results in different types of inflammatory responses; it is clear, however, that certain cellular responses are due to the action of specific PRFs, e.g. IL-3 induces a mastocytosis and IL-5 an eosinophilia. There is increasing evidence that the relative levels of different PRFs are important determinants of the effectiveness of responses.(ABSTRACT TRUNCATED AT 400 WORDS)
Mol Immunol 1991 Mar
PMID:Peptide regulatory factors and optimization of vaccines. 201 99

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