The B lymphocyte calcium response to anti-Ig is diminished by membrane immunoglobulin cross-linkage to the Fc gamma receptor

We report the cytosolic free calcium, [Ca2+]i, responses of single murine B lymphocytes to whole and F(ab')2 fragments of anti-Ig measured in the flow cytometer with indo-1, a new fluorescent chelator of calcium. The principle advantages of this recording system are these: Indo-1 is highly fluorescent; hence, loading concentrations that introduce artifacts in the reported [Ca2+]i signal may be avoided. The measurement of [Ca2+]i by fluorescence ratio corrects for nonuniform dye uptake, making possible quantitative estimates of [Ca2+]i in single cells and an assessment of the variability of population responses. Baseline recordings of unstimulated lymphocytes indicated a narrow, stable range of [Ca2+]i (75 to 125 nM). The [Ca2+]i rise induced by various anti-Ig preparations exhibited considerable heterogeneity. The initial mean value for F(ab')2 anti-Ig-stimulated cells peaked above 1 microM and was due only to the release of Ca2+ from intracellular stores. A steady state elevation of [Ca2+]i was reached by 5 min and persisted for hours. Cells stimulated with intact anti-Ig reached similar initial peak [Ca2+]i values, but then declined toward baseline. This difference was due to membrane Ig-IgG Fc receptor (mIg-Fc gamma R) cross-linkage, because blocking the Fc gamma R with a monoclonal antibody made the [Ca2+]i responses to F(ab')2 and intact anti-Ig identical. The attenuation of the [Ca2+]i signal by mIg-Fc gamma R cross-linkage is proceeded by a corresponding Fc gamma-mediated reduction in anti-Ig-induced inositol trisphosphate elevation. These findings outline a biochemical basis for mIg- and Fc gamma R-mediated activation and regulation intrinsic to the B cell, and demonstrate the advantages of indo-1 over quin2 for fluorescent measurement of [Ca2+]i in small cells.     

Antibody to a novel 95-kDa surface glycoprotein on human B cells induces calcium mobilization and B cell activation

These findings characterize a 95-kDa glycoprotein on the surface of B lymphocytes recognized by the mAb G28-8. This protein (designated Bgp95), previously classified as a CD39 molecule, is unique based on functional, cell distribution, and immunochemical criteria. Biochemical analyses revealed that Bgp95 is a 95-kDa glycoprotein with N-linked carbohydrate and is reduced to about 70-kDa after treatment with endoglycopeptidase F. In functional studies, stimulation by G28-8 mAb or its F(ab')2 fragments induced a G0 to G1 cell cycle transition and was synergistic with PMA, anti-mu, or anti-CDw40 in stimulating proliferation of resting B cells. G28-8 mAb also could induce increases of cytoplasmic free calcium concentration [Ca2+]i in a subpopulation of tonsillar or peripheral blood B cells. The G28-8 mAb alone induced a steady increase in [Ca2+]i detectable even 1 h after stimulation. Cross-linking the G28-8 mAb with a second mAb specific for murine kappa light chains induced a more rapid increase of [Ca2+]i which peaked at 10 to 20 min and then declined. At 1 h after stimulation, [Ca2+]i was higher in B cells stimulated with G28-8 alone than in B cells stimulated with G28-8 plus anti-kappa. The same conditions of cross-linking with the anti-kappa which increased the kinetics of the [Ca2+]i response decreased the proliferative response which otherwise followed co-incubation of the mAb with B cell growth factor or PMA. Thus, conditions leading to rapid but transient [Ca2+]i increase via Bgp95 may not be as effective at stimulating B cell proliferation as conditions favoring a slower prolonged [Ca2+]i response. Although the Bgp95 molecule is present on activated buoyant tonsillar B cells, mAb to Bgp95 did not trigger [Ca2+]i increases in these cells. These results suggest that the Bgp95 protein may function in early B cell activation and that its signal mechanisms are altered by the activation state of the cell.     

Direct human T helper cell-induced B cell activation is not mediated by inositol lipid hydrolysis

The Ag-specific interaction between cloned allospecific human Th cells and class II MHC determinants on the surface of allogeneic B cells induces a significant fraction of resting B cells to express a B cell specific activation Ag BLAST-2 (CD23). On the other hand, cross-linking of B cell surface Ig R by Ag analogues does not lead to BLAST-2 expression. By utilizing the BLAST-2 induction assay as a positive control for efficient Th-B cell interaction, we have investigated the biochemical basis of human B cell activation mediated by Ag and Th cells. Our data demonstrate that ligands for sIg R, including F(ab')2 goat anti-human IgM and Staphylococcus aureus protein A, stimulate the metabolism of B cell membrane inositol lipids as assessed by: 1) increased [3H]inositol phosphates formation in myo-[3H]inositol-labeled B cells; 2) selective incorporation of [32P]orthophosphate into phosphatidic acid and phosphatidylinositol, but not into phosphatidylethanolamine or phosphatidylcholine; and 3) rapid increase in B cell cytoplasmic ionized Ca2+ concentration ([Ca2+]i). In contrast, direct Th-B cell interaction leads to high intensity BLAST-2 expression on the B cell surface but this response is not mediated by changes in inositol lipid metabolism or [Ca2+]i. Further, Th-B cell interaction does not affect the changes in B cell inositol lipid metabolism or [Ca2+]i triggered by sIg cross-linking. Taken together, our results suggest that Ag and Th cells induce different functional B cell responses by activating distinct second messenger systems within the B cell.     

Antigen-induced Ca2+ signaling and desensitization in B cells

Cross-linking of B cell surface Ig (sIg) by anti-Ig results in transmembrane signaling. However, the capacity of a thymus-dependent (TD) Ag to mediate B cell signal transduction has been less well documented. Therefore, we examined Ag-induced intracellular free calcium concentration [( Ca2+]) in B cells by using TD Ag that would be expected to either cross-link or not cross-link sIgM and/or induce the coupling of sIgM to FcR. Stimulation of mouse TA3 hybridoma B cell transfectants that express the SP6 anti-TNP specific sIgM with either TNP-OVA or anti-IgM antibodies resulted in a maximal fourfold increase in [Ca2+]i. The net increase in [Ca2+]i in response to TNP-OVA was dependent upon both the Ag dose and the TNP:OVA molar ratio. Because occupancy of several cell-surface receptor types leads to a loss of response to subsequent stimulation by ligand (homologous desensitization), we examined the ability of Ag to induce homologous desensitization of sIgM in these B cells. TNP1-OVA at all concentrations tested (up to 500 micrograms/ml) did not lead to any change in [Ca2+]i or desensitization. Cross-linking of TNP1-OVA (10 micrograms/ml) with F(ab')2 of anti-OVA antibody induced both a rise in [Ca2+]i and homologous desensitization of sIg, suggesting that cross-linking of sIgM by Ag is sufficient to induce both these processes. TNP6-OVA at a concentration of 10 micrograms/ml induced changes in [Ca2+]i and partially desensitized TNP-specific B cells to stimulation by anti-IgM. Interestingly, a high dose (180 micrograms/ml) of TNP6-OVA stimulated minimal changes in [Ca2+]i yet did not lead to desensitization. However, cross-linking of TNP6-OVA at this high dose with F(ab')2 of rabbit anti-OVA elevated [Ca2+]i and elicited partial desensitization. Complete desensitization of sIgM by Ag was achieved when intact (Fc-containing) anti-OVA antibody was used, suggesting that the FcR can play a role in desensitization. Ag- and antibody-mediated desensitization was not caused by steric hindrance of sIg. Thus, we have observed two forms of Ag-induced desensitization of sIgM, both of which involve sIg cross-linking and one of which is mediated by the physiologic coupling of sIg to FcR.     

Initiation of DNA synthesis in murine B cells is independent of early changes in the cytosolic free calcium

The relationship between changes in the intracellular free Ca2+ concentration, [Ca2+]i, and the initiation of proliferation of murine B cells after the addition of mitogens and activators was studied. The effects of lipopolysaccharide (LPS), 12-O-tetradecanoyl phorbol-13-acetate (TPA), rabbit IgG antimouse Fab (IgG RAM Fab), and its F(ab')2 fragment (F(ab')2 anti-Fab) on the [Ca2+]i were measured using the fluorescent calcium indicator Fura-2. In parallel experiments, DNA and/or RNA synthesis were measured by assaying [3H]thymidine and/or [3H]uridine uptake. LPS stimulated a 20-120 X increase in the [3H]thymidine uptake, and a 3-7 X increase in [3H]uridine uptake without inducing any change in the [Ca2+]i. TPA induced a marginal increase in [3H]thymidine and [3H]uridine uptake, without effecting any change in the [Ca2+]i. In contrast, low doses of IgG RAM Fab produced a triphasic change in the [Ca2+]i, but had no effect on the [3H]thymidine or [3H]uridine uptake, even at much higher concentrations. Similarly, low doses of the F(ab')2 fragment induced sizable increases in the [Ca2+]i without affecting the [3H]nucleoside uptake. However, higher concentrations of F(ab')2 anti Fab increased the [3H]thymidine uptake and [3H]uridine uptake, while also increasing the [Ca2+]i. Significantly, pretreating the cells with TPA for 3 min virtually abolished the [Ca2+]i increase induced by IgG RAM Fab while simultaneously potentiating an increase in the IgG RAM Fab-induced [3H]thymidine uptake 85-fold. In the presence of TPA, IgG RAM Fab also induced a 2- to 30-fold increase in [3H]uridine uptake. Similarly, TPA virtually abolished the [Ca2+]i increase induced by the F(ab')2 anti-Fab fragment, yet it stimulated a F(ab')2 anti-Fab-induced uptake of [3H]thymidine and [3H]uridine by 120 and 10 times, respectively.     

Mitogenic and non-mitogenic ligands trigger a calcium-dependent cytosolic acidification in human T lymphocytes

We have investigated the patterns of cytosolic pH and Ca2+ ([Ca2+]i) changes after exposure of human peripheral blood T cells to different mitogenic and non-mitogenic ligands. Using ligands that have different accessory cell requirements and varying effect on [Ca2+]i or cell proliferation, we observed that intracellular acidification occurred only with agents that increased [Ca2+]i. However, treatment of the cells with the phorbol ester, 12-O-tetradecanoylphorbol-13-acetate, results in significant cytosolic alkalinization without detectable acidification, but did not affect the proliferative responses to mitogenic ligands and was a potent co-mitogen with non-mitogenic ligands. These data indicate that initial acidification or alkalinization responses are not essential for early activation or triggering of DNA synthesis.     

C3 synthetic peptides support growth of human CR2-positive lymphoblastoid B cells

The nature of CR type 2 (CR2)-ligand interactions which leads to the activation of human B cells was analyzed by using synthetic peptides and CR2-positive cell lines. The third component of C (C3) supported the growth of human lymphoblastoid B cells in serum-free medium containing human transferrin. This effect was inhibited by an antibody to C3d (mAb 130) which specifically inhibits C3d binding to CR2, but not by other anti-C3 mAb. Synthetic peptides corresponding to the CR2-binding site on C3d, P28 (residues 1187-1214) or multivalent P13 [1202-1214)4-template), supported the proliferative response of CR2-positive human lymphoblastoid lines in a similar way as C3 and this response could be inhibited by the anti-CR2 mAb OKB7. The proliferative response to C3 or peptides was dose dependent and a 60-fold higher concentration of P28 peptide was required to induce the same level of proliferation as C3. This stimulation of growth was observed only on CR2 expressing cell lines Raji and Daudi, and not on the CR2-negative Burkitt lymphoma cell line Rael and the monocytic cell line U937. In contrast to the stimulatory effect of P28 and P13-template, monomeric P14 (1201-1214) was not able to support the growth of these cell lines. This peptide, however, inhibited the proliferative response of the CR2-positive lines to C3, P28, and multivalent-P13, thus indicating that cross-linking of the CR2 receptor is necessary for B cell proliferation. Another peptide, E12 (from glycoprotein (GP)350, the major EBV outer membrane GP) which shows a high degree of similarity with P14, also inhibited the proliferative response of Raji cells, suggesting that this segment on GP350 is involved in the interaction of EBV with CR2. The possibility of using the above peptides as well as other peptides with "tailor-made" structure in studying the multifunctional role of C3 is discussed.     

CD19 monoclonal antibody HD37 inhibits anti-immunoglobulin-induced B cell activation and proliferation

The 95 Kd CD19 antigen is the broadest lineage specific surface marker for B cells: it is present on the surface of virtually all B lymphocytes, including early B progenitor cells. In this study we have evaluated the function of the CD19 antigen by using the CD19 mAb HD37. Binding of HD37 mAb to B cells at low doses (0.5 microgram/ml) induced a strong inhibition of the proliferative response to anti-Ig. This inhibition was not mediated by the Fc portion of the antibody, since F(ab')2 fragments were as effective as the whole antibody. Both dose-response curve analysis and experiments in which a cross-linking second step anti-mouse antibody was added suggested that cross-linking of CD19 antigens was necessary for optimal inhibition. Early phases in B cell activation were affected by the HD37 mAb: it significantly reduced the number of cells that left G0 and entered the G1 phase of the cell cycle upon triggering with anti-mu. The increase in free intracellular ionized calcium [Ca2+]i that is induced by anti-mu was also consistently reduced by CD19 mAb. Cross-linking was also crucial for this effect, suggesting that a causal relationship may exist between the inhibition of anti-Ig-mediated [Ca2+]i fluxes and inhibition of proliferation. A variable but clear increase in [Ca2+]i levels followed cross-linking of CD19 antigens by specific mAb. This evidence suggests that CD19 molecules may function in the downregulation of B cell growth and proliferation.     

Urokinase receptor (CD87) aggregation triggers phosphoinositide hydrolysis and intracellular calcium mobilization in mononuclear phagocytes

Leukocytes utilize urokinase receptors (uPAR; CD87) in adhesion, migration, and matrix proteolysis. uPAR aggregate at cell-substratum interfaces and at leading edges of migrating cells, so this study was undertaken to determine whether uPAR aggregation is capable of initiating activation signaling. Monocyte-like U937 cells were labeled with fluo-3-acetoxymethyl ester to quantitate intracellular Ca2+ concentrations ([Ca2+]i) by spectrofluorometry, and uPAR was aggregated by mAb cross-linking. uPAR aggregation induced highly reproducible increases in [Ca2+]i of 103.0 +/- 10.9 nM (p < 0.0001) and >3-fold increases in cellular d-myoinositol 1,4,5-trisphosphate (Ins(1,4,5)P3) levels. Similar increases in [Ca2+]i were also elicited by uPAR aggregation in human monocytes, but cross-linking a control IgG2a had no effect on [Ca2+]i. Selectively cross-linking uPA-occupied uPAR with an anti-uPA mAb produced smaller increases in [Ca2+]i, but fully saturating uPAR with exogenous uPA enhanced the [Ca2+]i response to equal the effect of aggregating uPAR directly. Increased [Ca2+]i was inhibited by thapsigargin, herbimycin A, and U73122, but only partially reduced by low extracellular [Ca2+], indicating that uPAR aggregation increases [Ca2+]i by activating phospholipase C through a tyrosine kinase-dependent mechanism, generating Ins(1,4,5)P3 and releasing Ca2+ from Ins(1,4, 5)P3-sensitive intracellular stores. Cross-linking the beta2 integrin CR3 could not duplicate the effect of uPAR cross-linking, and uPAR-triggered Ca2+ mobilization was not blocked by anti-CR3 mAbs. These results indicate that uPAR aggregation initiates phosphoinositide hydrolysis by mechanisms that are not strictly dependent on associated uPA or CR3.     

Induction of calcium flux and enhancement of cytolytic activity in natural killer cells by cross-linking of the sheep erythrocyte binding protein (CD2) and the Fc-receptor (CD16)

Binding of the anti-cluster of differentiation (CD) 2 monoclonal antibody 9-1 causes an increase in the concentration of cytoplasmic-free calcium ([Ca2+]i) in cultured CD3-/CD16+ natural killer (NK) cells. This response did not occur in cultured CD3+/CD16- cytotoxic T lymphocytes (CTL). Anti-CD16 antibodies could partially block the calcium response when NK cells were stimulated with intact antibody 9-1, and antigen-binding fragment F(ab')2 of antibody 9-1 did not produce a calcium response. Thus an interaction of the 9-1 antibody with CD16 Fc receptors was required for the functional effect. The dual interaction of antibody 9-1 with both CD2 and CD16 was demonstrated by comodulation experiments. The cytolytic activity of cultured NK cells was increased by antibody 9-1 but not by F(ab')2 fragments of antibody 9-1. The enhanced lytic activity was blocked by anti-CD16 antibody, anti-CD18 antibody, and anti-CD2 antibodies that do not block the binding of antibody 9-1. This pattern was distinct from antibody-dependent cell-mediated cytotoxicity which was blocked only by the anti-CD16 antibody. Thus antibody 9-1 enhanced cytotoxicity by activating effector cells. There was no enhancement of lytic activity when F(ab')2 of antibody 9-1 were cross-linked with a polyclonal antiglobulin, even though [Ca2+]i was increased. These results show that induction of a [Ca2+]i response is not sufficient to enhance lytic activity in NK cells, and suggest that signals delivered through CD16 are necessary.     

Cell surface-binding sites for progesterone mediate calcium uptake in human sperm.

Recent studies (e.g. Blackmore, P. F., Beebe, S. J., Danforth, D. R., and Alexander, N.) (1990) J. Biol. Chem. 265, 1376-1380) have shown that in human sperm, progesterone produces a rapid increase in intracellular free calcium ([Ca2+]i) and an induction of the acrosome reaction (e.g. Osman, R. A., Andria, M. L., Jones, A. D., and Meizel, S. (1989) Biochem, Biophys. Res. Commun. 160, 828-833). In this study, the location of progesterone receptors on the cell surface of human sperm was identified using progesterone immobilized on bovine serum albumin (BSA) (progesterone 3-(O-carboxymethyl)oxime:BSA) as well as progesterone and its 3-O-carboxymethyloxime derivative. Using fluorescence microscopy, BSA-fluorescein isothiocyanate was shown to be excluded from intact sperm, thus validating the use of progesterone 3-(O-carboxymethyl)oxime:BSA to identify cell surface-binding sites for progesterone. The immobilized progesterone and the 3-O-carboxymethyloxime derivative rapidly increased [Ca2+]i and were full agonists, although they were approximately 1.5 orders of magnitude less potent than progesterone. They also displayed an identical time course to increase [Ca2+]i as free progesterone, and the entire increase in [Ca2+]i was due to the influx of Ca2+. This progesterone-mediated response displayed different steroid receptor characteristics since the very potent inhibitors of genomic progesterone responses, RU38486 and ZK98.299, were very ineffective at inhibiting the progesterone-mediated increase in [Ca2+]i. Also the synthetic progestins megestrol, medroxyprogesterone acetate, norgestrel, norethynodrel, norethindrone, R5020, and cyproterone acetate did not mimic the effects of progesterone to increase [Ca2+]i. It is proposed that a distinct nongenomic cell surface receptor for progesterone exists in human sperm.     

Multiple elevations of cytosolic-free Ca2+ in human neutrophils: initiation by adherence receptors of the integrin family

Multiple spontaneous transient elevations of cytosolic-free calcium ([Ca2+]i) are observed in single human neutrophils during adherence. The interrelation between adherence and spontaneous [Ca2+]i transients was analyzed by simultaneous monitoring of [Ca2+]i and cell morphology. Fluorescent images of fura 2-loaded neutrophils attached to albumin-coated glass were recorded with a high sensitivity CCD camera while [Ca2+]i was assessed with a dual excitation microfluorimetry. The majority of the initially round cells studied showed changes in shape which started either before or at the same time as the onset of the [Ca2+]i transients. These data suggested that a rise in [Ca2+]i is not a prerequisite for shape change. This conclusion was confirmed by observation of movement and spreading in cells whose [Ca2+]i transients were abolished by chelation of extracellular Ca2+. Instead, our data suggest that spreading or adhesion itself initiates the [Ca2+]i activity. In keeping with this hypothesis, cytochalasin B, which prevents both cell movement and adhesion, completely inhibited generation of [Ca2+]i transients. To determine if the movement alone or adhesion alone is responsible for [Ca2+]i activity, we treated cells with antibodies against the beta chain (CD18, beta 2) or the alpha subunit (CD11b, alpha m) of the dominant leukocyte integrin (CR3). Antibody-treated cells showed normal extension of pseudopods but impaired ability to adhere. Inhibition of adhesion in this way inhibited [Ca2+]i activity. Taken together these results suggest that following sequence of events after contact of neutrophils with surfaces: (a) cell movement and shape change lead to enhanced contact of integrins with the surface; and (b) integrins-mediated adhesion generates multiple [Ca2+]i transients. The [Ca2+]i transients may then control exocytic events associated with movement and may provide a link between adherence and activation or priming of neutrophils to other stimuli.     

Platelet-activating factor induces an increase in intracellular calcium and expression of regulatory genes in human B lymphoblastoid cells.

Platelet-activating factor (PAF) has recently been demonstrated to be metabolized by B lymphocytes and to cause enhancement of Ig synthesis by Ig-secreting B lymphoblastoid cell lines. We have now examined some of the early activation events triggered by PAF binding to three Ig-secreting B cell lines, LA350 (IgM secreting), HSCE- (IgG secreting), and U266 (IgE secreting). After addition of 10(-7) to 10(-11) M PAF, but not equimolar concentrations of the inactive metabolite lyso-PAF, all three cell lines demonstrated rapid dose-dependent increases in free cytosolic Ca2+ concentrations ([Ca2+]i). The increases in [Ca2+]i resulted from both the release of Ca2+ from internal stores as well as transmembrane Ca2+ uptake. Addition of PAF triggered the rapid hydrolysis of phosphatidylinositol bisphosphate and accumulation of inositol phosphates. PAF also increased expression of the cell cycle-active genes c-fos and EGR2 in a dose-dependent fashion. The stimulated increases in [Ca2+]i and phosphatidylinositol bisphosphate hydrolysis and the increases in gene expression were all inhibited by the specific PAF receptor antagonist Web 2086. The LA350 cell line (which expresses surface IgM) was also shown to increase [Ca2+]i after addition of anti-IgM antibodies. Sequential addition of PAF or anti-IgM antibody in either order failed to reveal any evidence for heterologous desensitization. Furthermore, the PAF receptor antagonist did not affect anti-IgM induced changes in [Ca2+]i. These data provide evidence for the presence of functional PAF receptors on B lymphoblastoid cells and indicate a potential role for PAF in the regulation of B cell activation.     

Effects of ATP on intracellular calcium dynamics of neurons and satellite cells in rat superior cervical ganglia

Adenosine 5'-triphosphate (ATP) which is released from neuronal and non-neuronal tissues interacts with cell surface receptors to produce a broad range of physiological responses. The present study addressed the issue of whether the cells of the superior cervical ganglia (SCG) respond to ATP. To this end, the dynamics of the intracellular calcium ion concentration ([Ca2+]i) of neurons and satellite cells in intact SCG was analyzed by laser scanning confocal microscopy. ATP produced an increase of [Ca2+]i in both neurons and satellite cells; initially, ATP elicited [Ca2+]i increase in satellite cells and, subsequently, a [Ca2+]i change in neurons was observed. P1 purinoceptor agonists had no effect on this process, but P2 purinoceptor agonists induced [Ca2+]i increase and suramin totally inhibited ATP-induced [Ca2+]i dynamics in both neurons and satellite cells. In satellite cells, Ca2+ channel blockers and the removal of extracellular Ca2+, but not thapsigargin pretreatment, abolished ATP-induced [Ca2+]i dynamics. In contrast, thapsigargin pretreatment abolished ATP-induced [Ca2+]i dynamics in neurons. Reactive blue-2 inhibited the ATP-induced reaction on neurons alone. Uridine 5'-triphosphate caused a [Ca2+]i increase in neurons and alpha,beta-methylene ATP caused a [Ca2+]i increase in satellite cells. We concluded that neurons respond to extracellular ATP mainly via P2Y purinoceptors and that satellite cells respond via P2X purinoceptors.     

Alterations of B lymphocyte Fc gamma R II expression and ligand binding capacity induced by various activators.

Murine B lymphocytes cultured with F(ab')2 anti-mouse mu or delta lost (85%) the capacity to bind antigen-IgG antibody complexes as assessed by flow microfluorometry. Anti-mu-induced loss of binding of complexes was concentration, time, and temperature dependent, reversible, and not due to decreased expression of the receptor because binding of monoclonal anti-Fc gamma R II to B lymphocytes cultured with anti-mu was unaffected. Activation of PKC and elevation of [Ca2+]i obtained by culturing B lymphocytes with the combination of PMA and Ca2+ ionophore induced a similar loss of binding of Cx. Since stimulation of B lymphocytes with anti-mu also activates PKC and elevates [Ca2+]i, these changes may be involved in the anti-mu-induced alterations in the binding of complexes to Fc gamma R II. In contrast to the effects of other activators, LPS caused increased expression (threefold) of B lymphocyte Fc gamma R II as measured by the binding of both complexes and monoclonal anti-Fc gamma R II. Thus, different B lymphocyte activators have distinct effects on Fc gamma R II expression or ligand binding capacity and can thereby affect Fc gamma R II-generated regulatory signals.     

Effect of calbindin-D28K on cyclosporine toxicity in cultured renal proximal tubular cells

Cyclosporine A (CsA) is known to have direct toxicity to renal tubular cells. Its toxicity may be mediated by intracellular calcium because CsA increases intracellular calcium concentration and enhances the activities of calcium-dependent calpains and caspases. Calbindin-D28k, a cytosolic calcium binding protein, has been used as an intracellular Ca2+ buffer to reduce calcium-mediated cytotoxicity in non-renal cells such as neuronal cells. We investigated the effects of gene transfer of calbindin-D28k cDNA on CsA cytotoxicity and intracellular calcium concentration ([Ca2+]i) in cultured murine proximal tubular (MCT) cells. A plasmid containing calbindin-D28k cDNA under the control of CMV promoter was transfected to MCT cells with liposomes. Cytotoxicity was assessed by LDH release and cell viability assay, and [Ca2+]i was measured ratiometrically with fura-2. Compared with MCT cells, cells transfected with calbindin-D28k cDNA showed a reduction in LDH release by 27, 30, 32, 33, and 19% (all P < 0.05), respectively, after 24 h exposure to 1, 2.5, 5, 10, and 25 microM CsA. Cell viability after CsA treatment was also significantly higher in CB cells. A mock transfection using plasmid without calbindin-D28k cDNA insert did not affect the LDH release or cell viability after CsA treatment. CsA treatment did not affect the protein and mRNA abundance of transfected calbindin-D28k cDNA. The expression of calbindin-D28k did not affect the baseline [Ca2+]i, but significantly suppressed CsA-induced elevation in [Ca2+]i. The expression of calbindin-D28k in renal tubular cells provides cytoprotective effects against CsA toxicity, probably through its buffering effects on [Ca2+]i.     

Influence of DL-beta-hydroxybutyric acid on cell proliferation and calcium influx

Poly(hydroxybutyrate-co-hydroxyhexanoate) (PHBHHx), a member of the polyhydroxyalkanoate family of biopolyesters, has superior mechanical properties and biocompatibilities that enable it to meet diverse biomedical requirements. The main component of PHBHHx is DL-beta-hydroxybutyric acid (HB), a ketone body that is also produced in vivo. The effects of HB treatment on murine fibroblast L929 cells, human umbilical vein endothelial cells, and rabbit articular cartilages were investigated. HB (0.005-0.10 g/L) promoted cell proliferation for each cell line. Cell cycle analysis indicated that HB had a stimulatory effect on DNA synthesis. Flow cytometric analysis of L929 cells revealed changes in the [Ca2+]i for different stages of the cell cycle. In L929 cells, HB (0.02 g/L) stimulated a rapid increase in the concentration of cytosolic calcium that was blocked by verapamil and diltiazem, inhibitors of L-type Ca2+ channels. Finally, verapamil inhibited HB-induced L929 cell proliferation. Collectively, these results indicated that HB had a stimulatory effect on cell cycle progression that is mediated by a signaling pathway dependent upon increases in [Ca2+]i. This trophic effect may underlie the good biocompatibility observed for PHBHHx.     

Differences of T-cell activation by the anti-CD3 antibodies Leu4 and BMA030

Two anti-CD3 antibodies and their Fab/F(ab')2 fragments were compared with regard to their requirement for secondary signals and generations of intracellular messengers. The anti-CD3 antibody BMA030 was found to require monocyte contact to elicit T-cell mitogenesis. Cross-linking by plastic-bound goat anti-mouse antibodies (panning) failed to activate T cells, even in the presence of recombinant IL-1 or IL-2. In contrast, crosslinking of the anti-CD3 antibody Leu4 or Leu4 fragments was mitogenic in monocyte-free cultures. Measurements of intracellular Ca2+ ([Ca2+]i) and generation of inositol phosphates revealed that binding (+/- panning) of BMA030, Leu4, and their F(ab')2 fragments generated similar amounts of intracellular messengers and thus failed to explain the different responsiveness to passive crosslinking. Since the generation of these messengers was not necessarily followed by proliferation but was always observed when mitogenesis occurred, we conclude that the elevation of [Ca2+]i and the production of inositol phosphates are required but not sufficient to trigger mitogenesis.     

Measurements of [Ca2+] using fura-2 in glioma C6 cells expressing calretinin with GFP as a marker of transfection: no Ca2+-buffering provided by calretinin

Glioma C6 cells were transfected with a plasmid containing the calretinin (CR) and green fluorescent protein (GFP) coding regions to analyze the effect of CR's presence on [Ca2+]i. Positive transfectants were identified by the detection of GFP and [Ca2+]i was measured using fura-2 as a probe. We found that neither the basic [Ca2+]i nor activated [Ca2+]i achieved by exposure to ionomycin, ADP or thapsigargin were affected by CR's presence in transfected cells, despite the ability of CR to bind Ca2+ as part of fusion protein. The level of expressed CR was estimated as at least 1 microM. The presented results suggest that CR's function is unlikely to be an intracellular Ca2+-buffer and support the hypothesis that CR might be involved in a specific Ca2+-dependent process. The results of this work also show that the S65T mutant of GFP is compatible with fura-2 measurements of intracellular [Ca2+]. We have demonstrated that the presence of GFP, as a transfection marker of glioma C6 cells, does not disturb fura-2 fluorescence, the basal or activated [Ca2+]i in these cells.