Macrophage suppression by a low-molecular-weight fraction of murine spleen cell culture supernatant

Macrophage suppression has been reported to be mediated by a component of murine serum. The present investigation involves in vitro production of this macrophage modulator (suppressor) by concanavalin A-stimulated murine spleen cells. Spleen cell culture supernatant containing this suppressor, which has been called macrophage suppressor factor (MSF), caused a significant decrease in in vitro phagocytosis of Listeria monocytogenes by resident murine peritoneal macrophages. The molecular weight of MSF was determined by ultrafiltration to be less than 10,000, and the suppressor activity of MSF was not altered by heating at 100 degrees C for 30 min or storage at -70 degrees C for 6 months. MSF is resistant to treatment with Pronase E, but is, however, sensitive to acid hydrolysis. Activity of MSF in spleen cell culture supernatants from normal mice does not differ from that in supernatants from mice immunized with L. monocytogenes. It was determined that MSF is not affected by antigenic stimulation and is apparently produced constitutively.     

Effect of activated lymphocytes on the regulation of hematopoiesis: suppression of in vitro granulopoiesis by OKT8+Ia+T cells induced by alloantigen stimulation

We studied the effects of alloantigen-stimulated lymphocytes in the regulation of hematopoiesis. Alloantigen-stimulated lymphocytes were harvested on days 2 to 3, days 6 to 7, or days 9 to 10 of MLC and were tested for their effects on granulocyte/macrophage progenitor cells (CFU-C). Dose-dependent suppression of CFU-C was observed when alloantigen-stimulated lymphocytes from days 6 to 7 and days 9 to 10 MLC were added to the cultures of autologous or allogeneic bone marrow cells for CFU-C assays. Suppressive activity was detected in the T cell fraction but not in the non-T cell fraction. For further characterization of these CFU-C/suppressor cells, alloantigen-stimulated lymphocytes were treated with radiation (2000 rad) or with monoclonal antibodies against T cell subsets and complement (C) before culture. Suppressive activity was completely abolished by treatment with OKT8 or OKIa1 antibodies and C whereas suppression was retained after radiation treatment. These observations suggest that CFU-C/suppressor cells can be induced by alloantigen stimulation in MLC and that they are radioresistant OKT8+ and Ia+ T cells.     

H-2K/H-2D and Mls and I region-associated antigens stimulate helper factor(s) involved in the generation of cytotoxic T lymphocytes

This study examines the antigen that stimulate production or release of a soluble helper factor(s) involved in development of cytotoxic T lymphocytes (CTL). Antigens associated with the Mls locus, I and K/D regions of the MHC were all capable of stimulating responder cells in MLC to produce helper factor. These supernatant fluids were all capable of providing "help" for the generation of cytotoxic T lymphocytes in MLC in which spleen cells are stimulated by allogeneic heat-treated thymocytes or splenocytes. Previous reports from our laboratory as well as others have shown that heat-treated cells do not stimulate a cytotoxic response. Heat-treatment of Mls, I, and H-2K/H-2D region incompatible stimulatory cells in MLC eliminated their ability to induce responder cells to produce helper factor, suggesting this is the mechanism whereby heat-treatment reduces the ability of cells to stimulate cell-mediated lympholysis (CML). The inability of supernatant fluids, from MLCs in which heat-treated cells were the stimulators, to assist in the generation of cytotoxic T cells did not appear to be the result of any suppressive factor induced by such treatment. Further, the antigens that stimulate pre-killer cells appear functionally distinct from those heat labile antigens (Mls, I, H-2K/H-2D associated) that stimulate helper factor production since heat-treated allogeneic cells served as stimulators of cytotoxicity provided helper activity was added to the MLC.     

LY-2+ effectors cytotoxic for syngeneic tumor cells: generation by allogeneic stimulation and by supernatants from mixed leukocyte cultures

The present study was aimed at gaining insight into means by which stimulation of mouse spleen cells with allogeneic normal cells in mixed leukocyte cultures (MLC) can result in the generation of effector cells cytotoxic for syngeneic tumor or transformed cells. Stimulation of lymphocytes from BALB/c or C3H mice for 5 days with cells from mice of every allogeneic strain tested, in medium containing mouse serum and lacking xenogeneic serum, resulted in the activation of effectors cytotoxic for syngeneic cells transformed spontaneously or by SV40, polyoma or adenovirus. In each experiment, all of the syngeneic transformed cell lines, as well as clones derived from these lines, were lysed to the highest degree by effectors obtained from the same culture, and therefore stimulated with cells from the same allogeneic strain. Although the particular allogeneic sensitizing strain that induced the highest cytolytic activity varied between experiments, effectors obtained from the culture with the highest cell recovery always exhibited the greatest cytotoxicity against all the syngeneic transformed cells and clones. Lysis was mediated predominantly by Ly-2+ effectors; total lytic units of cytotoxicity recovered after treatment with monoclonal anti-Ly-2 antibody and complement (C) were reduced by 85 to 90% compared to cells treated with C alone. Lysis of syngeneic tumor cells by the allosensitized effectors in cytotoxicity assays was not inhibited by the addition of unlabeled "blocking" lymphocytes from the allogeneic strain used for sensitization. In addition, it was found that lymphocytes cultured without stimulating cells for 5 days in medium supplemented with supernatants from secondary MLC that are known to contain high levels of lymphokines, mediated high levels of cytotoxicity on all the transformed cells tested, but lacked detectable cytotoxic activity for syngeneic or allogeneic Con A blasts. The MLC supernatant-activated effectors that lyse the transformed cells are phenotypically CTL, because treatment with anti-Ly-2 and C reduced lytic activity by approximately 75%. Taken together, these findings suggest that the generation in MLC of Ly-2+ effector cells cytotoxic for syngeneic transformed cell lines might not be due, in some cases, to lymphocyte responses to particular alloantigens on the stimulating cells that are cross-reactive with "alien" histocompatibility antigens on transformed cells, but rather is due to effector cell activation by lymphokines produced during allogeneic stimulation.     

Generation of alloreactive cytotoxic T lymphocytes: production of T cell and macrophage helper factors in addition to IL 1 and IL 2 by peritoneal cells from mice immunized to Listeria monocytogenes

We investigate the production and biological activity of soluble helper factors produced by peritoneal T cells and macrophage derived from mice primed in vivo with Listeria monocytogenes. Supernatant fluids from co-cultures of these immune T cells and activated macrophages contained Interleukin 1 (IL 1) and Interleukin 2 (IL 2), and had the ability to assist the generation of cytotoxic T lymphocytes (CTL) from a population of nylon wool nonadherent spleen cells sensitized to allogeneic heat-treated thymocytes. The ability to assist CTL development involved T cell and macrophage factors in addition to IL 1 and IL 2. Immune T cells cultured alone produced a factor, devoid of significant IL 2 activity, that assisted CTL development only if adherent cells were present in the responding population. Activated macrophage produced a 38,000 dalton component, distinct from IL 1 on the basis of m.w., that assisted the development of CTL from nylon wool nonadherent splenic cells. Supernatants fluids from co-cultures of immune T cells and allogeneic, nonactivated macrophage contained a CTL helper factor but did not contain IL 1 or IL 2 activities. In contrast, supernatant fluids from co-cultures of immune T cells and syngeneic, nonactivated macrophage contained all 3 activities. This suggests a genetic restriction for the production of IL 1 and IL 2 that does not restrict the production of a CTL helper factor. These results demonstrate that T cell- and macrophage-derived helper factors distinct from IL 1 and IL 2 participate in the development of CTL.     

Isogeneic and allogeneic lymphocyte interactions may be controlled by cell surface immunoglobulin tropism.

A study of allogeneic MLC (mixed lymphocyte culture) and two types of isogeneic MLC has been conducted in which subsets of B-cells were serologically removed from pools prior to using the remainder as stimulator cells. Cellular division in the two types of ILC (isogeneic lymphocyte culture) was found to be triggered by lymphocytes with IgG₁ on their surfaces. In contrast, the stimulator cells in ALC (allogeneic lymphocyte culture) possessed membrane-bound IgG_2A and/or possibly IgG_2B. Splenic T-cells were incapable of stimulating replication of splenic or lymph nodal T-cells in the absence of B-cells. Splenic T-cell preparations served as weak stimulators of other allogeneic T-cells but only when B-cells, either isogeneic or allogeneic to the stimulator T-cells, were present. We propose that stimulation in the MLC occurs in two distinct steps. First, immunoglobulins on cell surfaces may function to bring appropriate subsets of cells together. Next, antigenic recognition occurs that results in blastogenesis. Furthermore, the tropism or attraction that certain immunoglobulins have for some cell types may determine which subsets of cells participate in allogeneic and which take part in isogeneic MLC.     

Macrophage cell lines produce a cytotoxin.

Cytotoxic activity, measured by release of tritium from 3H-(methyl)-thymidine-labeled 7943 cells, was found in culture fluids from four of five macrophage cell lines. In the P388D1 cell line, cytotoxic activity was highest after 7 days of culture, 2 days after the cells reached confluence. The activity was not lost upon dialysis or lyophilization. When culture fluids were chromatographed on Sephadex G-200, two activity peaks were obtained: one in the void volume and the other corresponding to a m.w. of 40,000 to 50,000.     

Leukocyte migration inhibitory factor (LMIF) production in unidirectional mixed lymphocyte cultures.

Puromycin treatment of lymphocytes was used to develop a one-way test for leukocyte migration inhibitory factor (LMIF) production in the mixed lymphocyte culture (MLC) reaction. Lymphocytes incubated with this protein synthesis inhibitor induced a vigorous mediator production by nontreated allogeneic cells, being themselves unable to respond to stimulator cells. When puromycin-treated cells were stimulated with the mitogens PHA, ConA, or PWM, overall protein and DNA synthesis were significantly decreased with concomitant abolishment of LMIF production. Viability of stimulator lymphocytes was found to be essential for generation of the mediator in MLC reaction.     

Mechanism of action of the migration stimulating factor produced by fetal and cancer patient fibroblasts: Effect on hyaluronic acid synthesis

Summary We have previously demonstrated that confluent fetal fibroblasts migrate into three-dimensional collagen gels to a significantly greater extent than their normal adult counterparts. Recent studies have revealed that this behavioral difference results from the secretion by fetal fibroblasts of a soluble migration-stimulating factor (MSF) which acts on these cells in an autocrine fashion. Adult fibroblasts do not produce MSF but remain responsive to it. Skin fibroblasts from cancer patients resemble fetal fibroblasts (rather than normal adult cells) with respect to their migratory behavior on collagen gels and continued production of MSF. This communication is concerned with elucidating the biochemical basis of MSF activity. Data are presented indicating that a) hyaluronic acid is required for the elevated migratory activity displayed by confluent fetal and breast cancer patient skin fibroblast; b) adult fibroblasts exhibit a bell-shaped dose-response to MSF, with maximal stimulation of migration observed at a concentration of 10 ng/ml; c) the migratory activity of adult fibroblasts pre-incubated with MSF remains high in the absence of additional factor: and d) MSF affects both the quantity and size class distribution of hyaluronic acid synthesized by adult fibroblasts. We have previously speculated that the persistent fetal-like fibroblasts of breast cancer patients play a direct role in disease pathogenesis by perturbing normal epithelial-mesenchymal interactions. The observations reported here suggest that MSF-induced alterations in hyaluronic acid synthesis may contribute to the molecular basis of such perturbations. This work was funded by grants from the Cancer Research Campaign (CRC) and Medical Research Council (MRC), London, England.     

Monocyte procoagulant inducing factor: a lymphokine involved in the T cell-instructed monocyte procoagulant response to antigen

A T cell-derived lymphokine couples the recognition of alloantigens by human T inducer cells to monocyte effector procoagulant activity (PCA). This collaborative cellular response results in expression of the functional tissue factor gene product and initiation of the extrinsic coagulation protease cascade as an inflammatory sequelae to the immune response. We now provide initial characterization of this lymphokine, provide evidence that it is a unique lymphokine, and designate it as monocyte procoagulant inducing factor (MPIF). MPIF was produced by alloantigen-stimulated, nylon wool-purified T cells and was not diminished by irradiation. MPIF active supernatants induced PCA in isolated monocytes, and the effect was not modified by the presence of T cells with the responding monocytes, consistent with a direct effect on the monocyte effector cells rather than an indirect effect via an intermediate accessory T cell. Full expression of PCA by monocytes was complete within 4 to 6 hours. MPIF activity in mixed lymphocyte culture (MLC) supernatants (MLC-SN) was stable at pH 2.0 for 24 hr, but was diminished after exposure to pH 10.5 for 30 min. MPIF activity was stable at 56 degrees C but was labile at 63 degrees C or higher. When characterized by chromatography on Sephadex G-100 superfine at either pH 7.2 or 3.6, the activity was recovered in a major discrete peak of about 55,000 daltons, and minor peaks of activity at about 14,000 and greater than 150,000 daltons. There was no correlation between the presence or concentration of INF-gamma, INF-alpha, IL 1, IL 2, GM-CSF, CSF-1, TNF-alpha, TNF-beta (lymphotoxin), or migration inhibitory factor (MIF) with MPIF activity. Each of the previously defined cytokines was analyzed directly for MPIF activity. INF-gamma, INF-alpha, GM-CSF, TNF-alpha, and CSF-1 did not possess MPIF activity over a wide range of concentrations. IL 1 and IL 2 lacked activity at concentrations present in MLC medium positive for MPIF; however, at higher concentrations each demonstrated slight activity. There was a poor correlation between MPIF and MIF activities in MLC-SN, and the content of MIF was insufficient to account for the expressed level of MPIF activity. The lack of identity of these cytokines with MPIF was supported by selected MLC medium that lacked IL 1, IL 2, and MIF and yet contained high MPIF activity. MPIF was additionally distinguished from IL 1, IL 2, and MIF on the basis of separation in Sephadex G-100 superfine.(ABSTRACT TRUNCATED AT 400 WORDS)     

Stimulation of phagocytic function by factors inhibiting leukocyte and macrophage migration in humans

Fractions containing macrophage migration inhibition factor (MIF) and leucocyte migration inhibition factor (LIF) were obtained using Sephadex G-200 filtration from supernatant fluids of human lymphocyte cultures stimulated by PHA. The fractions were tested for the ability to affect migration and phagocytic activity of target cells. Peripheral blood leucocyte migration capacity was inhibited by the fraction with the molecular mass of 60,000-70,000 D (LIF), while migration activity of mouse peritoneal exudate cells was suppressed by the fraction with the molecular mass of 20,000-30,000 D (MIF). MIF- and LIF-containing fractions increased almost three-fold Fc-receptor-mediated phagocytic activity of neutrophils.     

Generation of cytotoxic T lymphocytes in vitro. VI. Effect of cell density on response in mixed leukocyte cultures.

Reexposure of day 14 murine mixed leukocyte culture (MLC) populations to the original irradiated allogeneic stimulating spleen cells has previously been found to result in the ratpid generation of cytolytic T lymphocytes (CTL) associated with a net increase in cultured cell number. Under the experimental conditions used, day 5 MLC cells appeared unable to respond to the allogeneic stimulus. In order to characterize further the development of the potential for anamnestic reactivity during the course of MLC, C57BL/6 spleen cells were incubated with irradiated (1000 rads) DBA/2 spleen cells (primary MLC) for up to 3 weeks. At various time intervals after the onset of the primary MLC, the surviving cells were collected and reexposed, at varying cell concentrations, to irradiated DBA/2 spleen cells (secondary MLC). At daily intervals thereafter, CTL activity was assessed using a quantitative 51Cr-release assay system. A paradoxic effect of responding cell concentration on generation of CTL activity was observed; relatively greater increase in CTL activity was observed as the concentration of responding cells was decreased over a 100-fold range. This effect was more pronounced with responding cells reexposed to antigen after primary MLC for 20 days, but was observed even with normal cells. The apparent unresponsiveness of day 5 MLC cells to alloantigen restimulation could be overcome by simple dilution of responding cells. Cytotoxic activity at the time of restimulation with antigen seems to be a major factor determining the magnitude of the secondary response. Since intact cells bearing alloantigens are required for the generation of CTL in MLC, residual cytotoxic cells reduce the effective antigenic stimulus by destroying stimulating cells. This effect of concentration of responding cells on generation of CTL in MLC complicates interpretation of experiments investigating the role of "inhibitor" and "helper" cell in cell-mediated immune responses occurring in vitro. Under optimal conditions, the highest CTL activity and the largest increase in total cell number was observed 4 days after restimulation of day 10 MLC cells. On a per cell basis, the lytic activity was up to 4 times greater than that observed at the peak of a primary response, and the number of viable cells recovered was nearly 20 times higher than that at the onset. Such secondary MLC are thus a convenient source of lymphoid cells selected primarily on the basis of proliferation induced by alloantigens.     

Further studies on suppressor cell activity in the spleen of neonatal mice.

Spleen cells from newborn BDF₁ and C57BL/6 mice are tested for suppressor activity in mixed lymphocyte culture. The added spleen cells, treated with mitomycin, suppress both cell proliferation and the generation of cytotoxic cells. Thymus cells from newborn mice have little suppressor activity. Suppressor cells act across an allogeneic barrier, are cortisone-resistant, XR-resistant, T-cells and their activity is inversely correlated to the MLC reactivity in the spleen of the young animal. Incubation of neonatal suppressor cells on macrophage monolayers reduces suppressor cell activity and points to the possible importance of the macrophage in controlling immunological maturation.     

Alteration of the antigenicity of human lymphocytes by plant lectins and short-term tissue culture.

Human lymphocytes studied after being placed in culture for 1–6 wk progressively lost stimulating ability, i.e., lymphocyte defined antigens, when tested in one way mixed lymphocyte culture (MLC) but retained several other identifiable membrane components as well as the capacity to respond to mitogenic stimuli. Lymphocytes placed in culture with motogenic doses of PHA and Con-A after 1 and 2 wk strongly stimulated autologous responding fresh lymphocytes, but the MLC response of allogeneic fresh lymphocytes to stimulating lectin treated cells was even lower than the response to stimulating allogeneic cultured lymphocytes. The HL-A antigens on lectin treated cells or on lymphocytes through 6 wk in culture were clearly identifiable. Assays for T cell rosettes and B cell surface immunoglobulin showed both cell types to be present in numbers equal to fresh lymphocytes for up to 5 wk after culturing. However, the Fc receptor site on B cells was lost from cultured lymphocytes at the same time that MLC stimulation was lost. It is concluded that plant lectins can unmask new mitogenic sites on the cell surface as well as mask or delete existing sites, and that culturing lymphocytes for 1–6 wk will produce somewhat similar modulations. Modulation of surface membrane components by tissue culture or lectins may, therefore, have a profound effect in altering transplantation immunogenicity.     

Co-expression by keratinocytes of migration stimulating factor (MSF) and a functional inhibitor of its bioactivity (MSFI)

Migration stimulating factor (MSF) is a potent autocrine and paracrine factor expressed by fibroblasts and epithelial cells in foetal skin, tumours and healing wounds. In tissue culture, MSF bioactivity is present in the conditioned medium of foetal and tumour derived fibroblasts, but not in normal adult fibroblasts or keratinocytes. The conditioned medium of early passage keratinocytes or a keratinocyte line (HaCaT) effectively inhibited the motogenic activity of rhMSF. Fractionation of keratinocyte conditioned medium by size-exclusion chromatography revealed the presence of bioactive MSF as well as a functional inhibitor of MSF (MSFI) in fractions corresponding to approximately 70 kDa and 25 kDa, respectively. MSFI was purified and identified as neutrophil gelatinase-associated lipocalin (NGAL or lipocalin-2). Immunostaining confirmed that keratinocytes expressed both MSF and NGAL, whereas normal adult fibroblasts did not express either. Recombinant and cell-produced NGAL neutralised the motogenic activity of rhMSF. NGAL is known to bind MMP-9 and promote the activity of this protease. In contrast, there was no evidence of NGAL-MSF binding in keratinocyte conditioned medium. MSF displays a number of bioactivities of relevance to cancer progression and wound healing. Our findings indicate a novel function of NGAL and a possible mechanism for regulating MSF activity in tissues.     

Tumor target-derived soluble factor synergizes with IFN-gamma and IL-2 to activate macrophages for tumor necrosis factor and nitric oxide production to mediate cytotoxicity of the same target.

Inflammatory mouse peritoneal macrophages were activated by IFN-gamma in synergy with IL-2 or Lipid A to mediate TNF production for autocrine generation of cytotoxic nitric oxide (NO) to kill P815 or L1210 tumor targets. It was determined that for IL-2, but not Lipid A, to effectively trigger activation of IFN-gamma-primed macrophages, the tumor targets must be also present for interaction with effector macrophages to mediate the production of TNF and NO. IFN-gamma- and IL-2-activated macrophages from syngeneic DBA/2 and allogeneic C3H mice had identical MHC-unrestricted requirements for interaction with DBA/2 mouse-derived P815 and L1210 targets to mediate production of TNF and NO for tumor cytotoxicity. To further define the mechanistic requirements for macrophage-tumor target interaction, IFN-gamma- and IL-2-activated macrophages were separated from P815 targets in culture by a semipermeable membrane. Under these conditions, both TNF and NO were produced by the macrophage, which indicated that the requirement for tumor target-macrophage interaction may be due to a soluble factor produced by the target rather than to direct physical contact. This was confirmed by experiments in which 24-h cell-free culture fluids, derived from either P815 or L1210 tumor targets, substituted for the intact tumor cells in the stimulation of TNF mRNA synthesis and secretion with NO generation of TNF mRNA synthesis and secretion with NO generation by IFN-gamma- and IL-2-activated C3H or DBA/2 macrophages. The activity in 24-h culture fluids derived from P815 and L1210 tumor targets was tentatively designated as tumor-derived recognition factor(s) (TDRF) since it was produced constitutively by the tumor targets and synergized with IFN-gamma and IL-2 to induce macrophage production of TNF and NO for death of the same targets. A variety of nontransformed human and mouse fibroblasts, mouse spleen lymphocytes, and two adherent mouse fibrosarcomas did not produce detectable TDRF activity, whereas two mouse T lymphomas, EL4 and EL4.IL-2, produced TDRF activity similar to L1210 mouse leukemia and P815 mastocytoma. The C3H/MCA, a TDRF-nonproducing mouse fibrosarcoma, was susceptible to cytotoxicity mediated by macrophages activated by IFN-gamma and Lipid A, but not by IL-2 triggering. Exogenous TDRF derived from L1210 targets reconstituted the cytotoxic activity for C3H/MCA MCA targets mediated by IFN-gamma- and IL-2-activated macrophages accompanied by the production of TNF and cytotoxic NO.(ABSTRACT TRUNCATED AT 400 WORDS)     

Tumour-reactive lymphocytes stimulated in mixed lymphocyte and tumour culture

Summary Lymphocytes from cancer patients were stimulated in mixed culture with autologous tumour (MLTC) or pooled allogeneic lymphocytes (MLC). Both protocols induced increased uptake of ³H-thymidine at 5 days and the appearance of lymphoblasts. Blasts were isolated on discontinuous Percoll gradients and either expanded as bulk cultures or cloned directly under limiting dilution conditions in the presence of conditioned medium containing IL-2. Results with MLTC-blast-CTC have been reported elsewhere. MLC-activated cultures lysed autologous tumour but not autologous lymphoblasts. Lysis of some allogeneic tumours, lymphoblasts from members of the inducing pool, and K562 was also apparent. MLC activated cultures did not undergo restimulation in response to autologous tumour or lymphocytes but were restimulated by leukocytes from pool members.MLTC clones showed autologous tumour-specific cytotoxic activity or cross-reactive proliferative responses with tumours of the same site and histology. The majority of MLC clones cytotoxic for autologous tumour were also specific and did not lyse allogeneic tumour, K562, or lymphoblasts from the inducing pool. Two clones lysed autologous tumour and pool members. None of the clones tested proliferated in response to autologous tumour following MLC activation but some were responsive to pool members and one clone was restimulated by autologous monocytes. No association was found between clone phenotype and function. The implication of these data is that the effector cells with activity against autologous tumour induced in MLC arose largely by transstimulation of in vivo-activated tumour reactive lymphocytes by IL-2 release rather than expansion of NK-like effectors or sharing of antigenic specificities between tumour and allogeneic lymphocytes. Since MLC activation of cancer patients lymphocytes does not induce proliferative responses to autologous tumour it is unlikely to be a useful procedure in preparing cells for immunotherapy protocols. Abbreviations used in this paper: PBL, peripheral blood lymphocytes; TIL, tumour infiltrating lymphocytes; MLTC, mixed lymphocyte tumour culture; IL-2, interleukin-2; MLC, mixed lymphocyte culture; LSM, lymphocyte separation medium; BSS, balanced salt solution; HuSe, human serum; PBS, phosphate-buffered saline; CTC, cultured T cells; PHA, phytohaemagglutinin; CM, cultured medium; NK, natural killer; FcR, receptor for the Fc portion of IgG     

alpha-Fucose inhibits human mixed-lymphocyte culture reactions and subsequent suppressor cell generation

Carbohydrate moieties serve as important sites of interaction for many lymphocyte activities. The potential role of saccharides in the cellular interactions involved in mitogen-, antigen-, and alloantigen-induced proliferation was investigated. Eight different monosaccharides were tested for their inhibitory potential when added to uni- and bidirectional mixed-lymphocyte culture (MLC) reaction as well as to mitogen (Con A, PHA, PWM)-stimulated cultures. Only alpha-L-fucose blocked the MLC reaction in a dose-dependent fashion while having no effect on mitogen stimulation, although antigen-specific stimulation was also blocked by fucose. Similarly alpha-L-fucose specifically inhibited the MLC-induced generation of suppressor cells. Pretreatment of the MLC responder cells with fucose dehydrogenase abolished the MLC reaction while stimulator cell pretreatment had no effect, suggesting that the recognition site of the former contained alpha-L-fucose. The generation and the effector phase of Con A-induced suppressor cells was not affected by fucose, indicating that different receptors are involved in the latter. Apparent competitive inhibition by exogenous fucose of the cell-cell interaction required for the MLC reaction suggested that this monosaccharide is an essential constituent of allogeneic recognition sites.     

Polyamines regulate Rho-kinase and myosin phosphorylation during intestinal epithelial restitution

Polyamines are required for the early phase of mucosal restitution that occurs as a consequence of epithelial cell migration. Our previous studies have shown that polyamines increase RhoA activity by elevating cytosolic free Ca(2+) concentration ([Ca(2+)](cyt)) through controlling voltage-gated K(+) channel expression and membrane potential (E(m)) during intestinal epithelial restitution. The current study went further to determine whether increased RhoA following elevated [Ca(2+)](cyt) activates Rho-kinase (ROK/ROCK) resulting in myosin light chain (MLC) phosphorylation. Studies were conducted in stable Cdx2-transfected intestinal epithelial cells (IEC-Cdx2L1), which were associated with a highly differentiated phenotype. Reduced [Ca(2+)](cyt), by either polyamine depletion or exposure to the Ca(2+)-free medium, decreased RhoA protein expression, which was paralleled by significant decreases in GTP-bound RhoA, ROCK-1, and ROKalpha proteins, Rho-kinase activity, and MLC phosphorylation. The reduction of [Ca(2+)](cyt) also inhibited cell migration after wounding. Elevation of [Ca(2+)](cyt) induced by the Ca(2+) ionophore ionomycin increased GTP-bound RhoA, ROCK-1, and ROKalpha proteins, Rho-kinase activity, and MLC phosphorylation. Inhibition of RhoA function by a dominant negative mutant RhoA decreased the Rho-kinase activity and resulted in cytoskeletal reorganization. Inhibition of ROK/ROCK activity by the specific inhibitor Y-27632 not only decreased MLC phosphorylation but also suppressed cell migration. These results indicate that increase in GTP-bound RhoA by polyamines via [Ca(2+)](cyt) can interact with and activate Rho-kinase during intestinal epithelial restitution. Activation of Rho-kinase results in increased MLC phosphorylation, leading to the stimulation of myosin stress fiber formation and cell migration.