Depressed antigen presentation function and membrane interleukin-1 activity of peritoneal macrophages after laparotomy

Although major tissue trauma produces profound depression of cell-mediated immunity, it is not known whether surgical trauma (i.e., midline laparotomy) has any adverse effect on the antigen presentation function and membrane interleukin-1 (IL-1) activity of peritoneal macrophages. To study this, C3H/HEJ (endotoxin-tolerant) mice were anesthetized. An approximately 1-inch midline abdominal incision was made, followed by abdominal closure. On days 1, 3, 5, and 7, peritoneal macrophages were harvested by means of peritoneal lavage, and antigen presentation capability was tested by incubating various numbers of peritoneal macrophages with 2 X 10(4) D10.G4.1 cells per well in the presence of conalbumin (400 micrograms/ml). The T helper cell clone (D.10.G4.1) proliferates on recognition of conalbumin in the context of Iak and also proliferates in the presence of membrane-bound IL-1 plus concanavalin A. To measure membrane IL-1 expression in peritoneal macrophages, Concanavalin A (10 micrograms/ml) was substituted for conalbumin. Cultures were incubated for 72 hours, pulsed with tritiated thymidine, and harvested. Peritoneal macrophages from laparotomized mice induced significantly less T helper cell proliferation on days 1 and 3 in the antigen presentation assay (37% and 30%, respectively; p less than 0.05) and in the membrane IL-1 assay (14% and 10%, respectively; p less than 0.05) as compared with the control. This difference was not detectable on day 5. More effective antigen presentation capability (167% of control; p less than 0.05) was seen on day 7. Thus laparotomy by itself produces marked depression of both antigen presentation function and membrane IL-1 activity of peritoneal macrophages, which may enhance susceptibility to intra-abdominal sepsis.     

Immunoprotective effect of a calcium channel blocker on macrophage antigen presentation function, major histocompatability class II antigen expression, and interleukin-1 synthesis after hemorrhage

Hemorrhage induces a severe suppression of the immune system resulting in increased susceptibility to sepsis. Although studies indicate beneficial effects of calcium channel blockers on cell and organ functions after low-flow conditions, it remains unknown whether such agents have any effects on different immune responses after hemorrhage. To study this, C3H/HeN mice were bled to a mean blood pressure of 35 mm Hg and were maintained for 60 minutes, followed by resuscitation with their own shed blood and adequate fluid. The mice received either the water-soluble calcium channel blocker diltiazem (400 or 2400 micrograms/kg body weight) or saline solution (vehicle). Peritoneal macrophages were obtained by lavage 24 hours later. Antigen presentation was measured by coculturing peritoneal macrophages with the D10.G4.1 helper T-lymphocyte clone. Immune associated antigen (Ia) expression was determined by direct immunofluorescence. Interleukin (IL)-1, 6, and tumor necrosis factor-alpha (TNF) levels in peritoneal macrophage supernatants were measured by use of cytokine-specific cellular assays. Hemorrhage caused a significant decrease in peritoneal macrophage antigen presentation function, Ia expression, and IL-1 and IL-6 synthesis in the vehicle-treated group, whereas TNF levels were increased. However, both doses of diltiazem significantly improved peritoneal macrophage antigen presentation, Ia expression, and IL-1 synthesis. IL-6 synthesis was only increased with high doses of diltiazem, whereas both diltiazem doses decreased TNF production. These results indicate that the calcium channel blocker diltiazem can markedly improve macrophage functions after hemorrhage. The use of diltiazem might offer a new therapeutic modality in the treatment of immunosuppression and in decreasing the susceptibility to sepsis after hemorrhagic shock.     

MLC-inhibiting serum in mice after transfusion with 3 M KCl-extracted soluble antigen

Balb/c (H-2d) mice were transfused weekly with 3 M KCl-extracted soluble antigen prepared from splenocytes of C3H/HeJ (C3H)(H-3k) mice. One week after each transfusion, spleen and serum samples were collected from transfused mice and pooled. The serum was absorbed with erythrocytes and spleen cells from C3H mice and heat inactivated. Spleen cells from transfused mice were tested for proliferative responses in mixed lymphocyte culture (MLC) against stimulator cells from the antigen donor C3H or from third party SJL (H-2s) mice. The proliferative responses of lymphocytes from soluble-antigen-transfused Balb/c mice to stimulator cells from C3H and SJL mice were not suppressed. Furthermore, suppressor cells could not be demonstrated in spleens of transfused mice in in vitro coculture experiments. The MLC inhibition test was utilized to investigate the presence of MLC-inhibiting serum from transfused mice. The results demonstrate that serum capable of inhibiting responses of Balb/c mice were induced after three weekly injections of soluble antigen and that this inhibition in MLC was specific for the stimulator cells from the antigen donor C3H mice. These findings differ from our studies using whole blood transfusions where (1) MLC inhibiting antibodies developed in Balb/c mice after only one transfusion of C3H whole blood, and (2) serum from blood transfused mice achieve greater inhibition than soluble-antigen-induced serum. These results suggest that although soluble antigen is capable of inducing MLC inhibiting serum, the kinetics of this induction may be different from transfusion with whole blood.     

Effect of blood transfusions from different H-2 donors on immune responses in mice

We studied the effect of blood transfusions (BT) from different H-2 donors on the induction of suppressor cells (SC) and of MLC inhibitory activity in serum in a drug-unmodified mouse model. Balb/c (H-2d) mice were transfused at weekly intervals with whole blood from donors of three strains using two transfusion protocols. In protocol I, blood was transfused first from C3H/HeJ (C3H) (H-2k), then C57Bl (H-2b), and then SJL (H-2s) strain mice, and in protocol II the order of blood donors was reversed. Spleen cells and serum samples were obtained from the transfused mice one and two weeks after the last BT. In both transfusion protocols, the kinetics of responses of cells from recipient transfused mice to cells from the blood donors in MLC were similar to those of cells from nontransfused mice. The peak responses of cells from transfused mice were consistently lower than those of cells from nontransfused mice. In cell-mixing experiments, radiosensitive SC capable of inhibiting responses of Balb/c mice to cells from all three blood donors in MLC could be demonstrated one week after the last transfusion in both protocols. Two weeks after the last BT, SC were demonstrable only against the first (C3H) blood donor in protocol I, and against all three blood donors in protocol II. Serum obtained one week after transfusion in protocol I inhibited responses of Balb/c mice to stimulator lymphocytes from all three blood donors in MLC. Serum obtained two weeks after BT, however, inhibited responses of recipient mice only to the first blood donor. In contrast, in protocol II, serum obtained both one and two weeks after BT did not cause inhibition of responses of cells from Balb/c mice to blood donor cells in MLC. Similar results were obtained when Balb/c mice were transfused at weekly intervals with whole blood from either C3H or from SJL mice. The data suggest that the induction of SC and/or MLC-inhibitory activity in the serum after BT is dependent on the H-2 type of the first blood donor.     

Do female sex steroids adversely or beneficially affect the depressed immune responses in males after trauma-hemorrhage?

HYPOTHESIS: Administration of female sex steroids in males after trauma-hemorrhage has salutary effects on the depressed immune responses. DESIGN: Randomized laboratory experiment. INTERVENTIONS: Male C3H/HeN mice were subjected to midline laparotomy and hemorrhagic shock (35+/-5 mm Hg for 90 minutes, then resuscitation) or sham operation and received subcutaneous 17beta-estradiol (40 microg/kg body weight) or corn oil vehicle at the beginning of resuscitation. MAIN OUTCOME MEASURES: At 24 hours after hemorrhage, the animals were killed and plasma 17beta-estradiol and IL-6, splenocyte interleukin (IL) 2, IL-3, and IL-10 production as well as splenic and peritoneal macrophage IL-1beta, IL-10, and IL-6 release were measured. RESULTS: Splenocyte IL-2 and IL-3 release were significantly depressed after hemorrhage in vehicle-treated mice (P<.05, analysis of variance). Treatment with 17beta-estradiol after hemorrhage led to the restoration of splenocyte IL-2 and IL-3 release. The depressed proinflammatory cytokine (IL-1 and IL-6) release seen in splenic and peritoneal macrophages was restored in the 17beta-estradiol-treated hemorrhage group. In contrast, the sustained release of the anti-inflammatory cytokine IL-10 by splenocytes and splenic and peritoneal macrophages in vehicle-treated mice after hemorrhage was decreased in 17beta-estradiol-treated mice. The increase in circulating IL-6 levels after hemorrhage was significantly attenuated in 17beta-estradiol-treated mice. Although administration of 17beta-estradiol increased plasma 17beta-estradiol levels by approximately 100% in sham as well as hemorrhage groups, improved immune responses were seen only in posthemorrhage 17beta-estradiol-treated mice. There was no adverse effect of 17beta-estradiol treatment in the sham or posthemorrhage groups. CONCLUSION: Since administration of a single dose of 17beta-estradiol in males after trauma-hemorrhage restores the immune functions and decreases circulating levels of IL-6, hormones with estrogenic properties should be considered as safe and novel therapeutic agents for restoring the immune responsiveness in male trauma victims.     

Effects of laparotomy on systemic macrophage function.

Surgical trauma induces immunosuppression that may adversely influence survival. This study examined the effect of laparotomy on two different macrophage populations, peritoneal macrophages (PM phi) and Kupffer cells. Female, 6- to 8-week old, CFW/C3H-HeN mice (n = 160) were randomly allocated to one of three study groups: control, ether anesthetic only, or ether anesthetic and laparotomy. On postoperative days 1 and 3, PM phis and Kupffer cells were harvested and assayed for superoxide anion production (O2-), percent macrophage phagocytosis of Candida albicans (CAP), percent C. albicans killed by macrophages (CAK), percent major histocompatibility complex (MHC)-class II antigen expression, and antigen presentation. Macrophages isolated on postoperative day 1 were also cocultured with 100 units/10(6) cells/ml interferon-gamma (IFN-gamma). Laparotomy significantly impaired microbicidal activity (O2-, percent CAP, and percent CAK) and antigen presentation on postoperative day 1. On postoperative day 3, O2- and antigen presentation were increased significantly (p less than 0.05) over control values, indicating a rebound phenomenon. Kupffer cell microbicidal function was unchanged on postoperative days 1 and 3. The initial immune impairment (PM phis: O2-, CAP, and CAK) was abrogated by IFN-gamma treatment. In immunosuppressed hosts after injury, administration of macrophage-activating factors such as IFN-gamma could be of therapeutic benefit.     

Insights into the mechanisms of defective antigen presentation after hemorrhage

Although hemorrhage depresses macrophage antigen presentation (AP), a critical component in eliciting an antigen-specific immune response, it is not known which particular step in macrophage AP (i.e., uptake, ingestion, catabolism, or presentation of degraded antigens to T cells) is defective. To study this, C3H/HeN mice were bled to an arterial mean blood pressure of 35 mm Hg, maintained for 60 minutes, and then adequately resuscitated. Peritoneal and splenic macrophage cultures were prepared 2 and 24 hours after hemorrhage. Macrophage AP capacity was measured by coculturing macrophages with the T-helper cell clone D10.G4.1. To gain information about macrophage ability to digest the specific antigen conalbumin, lysosomal activity was bypassed by use of chemically denatured conalbumin peptides. To study macrophage ability to present conalbumin peptides, macrophages were fixed and D10.G4.1 proliferation in response to fragmented conalbumin was determined. AP of native conalbumin by peritoneal macrophages and splenic macrophages was depressed (p less than 0.05) by 50% (peritoneal macrophages) and 55% (splenic macrophages) 2 hours and 57% (peritoneal macrophages) and 35% (splenic macrophages) 24 hours after hemorrhage. In contrast, presentation of conalbumin peptides was only slightly decreased. In addition, the ability of fixed peritoneal macrophages and splenic macrophages to present conalbumin peptides was similar in hemorrhaged and sham mice. Because bypassing of macrophage lysosomal activity with degraded native antigens prevented the suppression of AP, the results suggest that hemorrhage-induced suppression of AP is not caused by a reduced macrophage capacity to present antigenic peptides but by decreased antigen catabolism by macrophages.     

Sepsis-induced changes in macrophage co-stimulatory molecule expression: CD86 as a regulator of anti-inflammatory IL-10 response

BACKGROUND: Sepsis remains a substantial risk after surgery or other trauma. Macrophage dysfunction, as a component of immune suppression seen during trauma and sepsis, appears to be one of the contributing factors to morbidity and mortality. However, whereas it is known that the ability of macrophages to present antigen and express major histocompatibility complex MHC class II molecules is decreased during sepsis, it is not known to what extent this is associated with the loss of co-stimulatory receptor expression. Our objectives in this study were, therefore, to determine if the expression of co-stimulatory molecules, such as CD40, CD80, or CD86, on peritoneal/splenic/liver macrophages were altered by sepsis (cecal ligation [CL] and puncture [CLP] or necrotic tissue injury (CL) alone; and to establish the contribution of such changes to the response to septic challenge using mice that are deficient in these receptors. METHODS: To address our first objective, male C3H/HeN mice were subjected to CLP, CL, or sham (n = four to six mice/group), and the adherent macrophages were isolated from the peritoneum, spleen, or liver at 24 h post-insult. The macrophages were then analyzed by flow cytometry for their ex vivo expression of CD40, CD80, CD86, and/or MHC II. RESULTS: The expression of CD86 and MHC II, but not CD40 or CD80, were significantly decreased on peritoneal macrophages after the onset of sepsis or CL alone. In addition, CD40 expression was significantly increased in Kupffer cells after sepsis. Alternatively, splenic macrophages from septic or CL mice did not show changes in the expression of CD80, CD86, or CD40. To the degree that the loss of CD86 expression might contribute to the changes reported in macrophage function in septic mice, we subsequently examined the effects of CLP on CD86 -/- mice. Interestingly, we found that, unlike the background controls, neither the serum IL-10 concentrations nor the IL-10 release capacity of peritoneal macrophages from septic CD86 -/- mice were increased. CONCLUSION: Together, these data suggest a potential role for the co-stimulatory receptor CD86/B7-2 beyond that of simply promoting competent antigen presentation to T-cells, but also as a regulator of the anti-inflammatory IL-10 response. Such a role may implicate the latter response in the development of sepsis-induced immune dysfunction.     

Effect of blood transfusion on IL-2 production

Spleen cells from B10.A mice transfused with B10.D2 blood suppress the immune responses of normal B10.A to B10.D2 in coculture as early as 2 days posttransfusion. In addition, the ability of B10.A mice to respond in cell-mediated lymphocytotoxicity (CML) is significantly impaired as early as 2 days after B10.D2 transfusion. Experiments were performed to characterize the cells mediating the suppressive effect and to determine whether the inability of transfused mice to generate a cytotoxic response is due to an inhibition of IL-2 production. To characterize the suppressor cells, spleen cells from B10.A mice were assayed 2 or 16 days after B10.D2 transfusion for the ability to suppress mixed lymphocyte culture (MLC) and CML responses of normal B10.A mice in coculture. The putative suppressor cells were either passed over a Sephadex G-10 or nylon wool column, treated with anti-Thy antibody or left untreated before addition to the coculture. Untreated cells from transfused mice suppressed the CML response of normal B10.A both 2 and 16 days posttransfusion, while the effect on the MLC response was inconsistent. Passage of the cells over Sephadex G-10 or nylon wool before assaying abrogated the suppressive effect, while treatment with anti-Thy antibody had no effect. These results suggest that the suppressor cells appearing shortly after blood transfusion have the characteristics of macrophages and not T lymphocytes. To determine the effect of transfusion on IL-2 production, cells from transfused mice were assayed for their ability to produce IL-1 and IL-2 and for the formation of IL-2 receptors. In addition, the effect of exogenous IL-1 and IL-2 on restoring the CML response of transfused mice to normal was assayed. The production of IL-1 by transfused mice was normal, while the production of IL-2 was significantly suppressed both 2 and 16 days posttransfusion. Activated cells from normal and transfused mice showed equal ability to absorb IL-2, indicating that IL-2 receptor formation is normal after transfusion. The addition of exogenous IL-2, but not IL-1, to CML cultures containing cells from transfused mice as responders restored the response to normal. These results indicate that the inability of transfused mice to respond in CML is due, at least in part, to an inability to produce IL-2. This could be mediated by prostaglandins released by activated macrophages.     

Induction of endotoxin tolerance inhibits alloimmune responses

It was recently reported that the induction of endotoxin tolerance (ET), which is defined as a reduced response to a lipopolysaccharide (LPS) challenge following the first LPS encounter, inhibits major histocompatibility complex (MHC)-restricted antigen presentation. This raises the question whether alloimmune responses can be inhibited by inducing ET in transplant donors. C57BL/6 mice were treated with a low dose of LPS prior to a challenge with a high dose of LPS to induce ET. Hearts from endotoxin-tolerized C57BL/6 mice were transplanted to BALB/c mice. The survival of the endotoxin-tolerized heart allografts was significantly prolonged. By using irradiated splenocytes from C57BL/6 mice and allogeneic splenocytes from BALB/c mice, a mixed lymphocyte reaction (MLR) assay was performed. The MLR assay used CFSE, and revealed that the splenocytes from the endotoxin-tolerized mice failed to induce the proliferation of allogeneic CD4(+) and CD8(+) T cells. Cytokine analyses of the supernatant of the MLR culture using endotoxin-tolerized stimulators revealed a distinct shift in the Th 1/Th 2 balance toward the Th 2-type response. The induction of ET increased the proportion of myeloid-related dendritic cells (DCs) expressing molecules necessary for antigen presentation, which favor the development of a Th 2 response; however, it reduced the proportion of lymphoid-related DCs expressing those molecules, which favor the development of the Th 1 response. Although the relevance of these findings with regard to the prolonged survival of the endotoxin-tolerized heart allografts remains to be elucidated, this is the first study to demonstrate that the induction of ET in donor animals inhibits alloimmune responses.     

Liver sinusoidal endothelial cells contribute to alloreactive T-cell tolerance induced by portal venous injection of donor splenocytes

We demonstrated that an indirect pathway of alloantigen presentation via liver sinusoidal endothelial cells (LSEC) is involved in alloreactive T-cell tolerance induced by portal venous injection (PI) of donor cells. Thirty million C57BL/6 (B6) splenocytes that were either untreated or treated with 30-Gy irradiation were injected via the portal vein into Balb/c mice. Host LSEC expressing major histocompatibility complex class II actively endocytosed the allogeneic naive splenocytes as well as irradiated splenocytes after PI. Using a transendothelial migration assay, it was demonstrated that host-type Balb/c CD4(+) T cells that transmigrated across LSEC that had captured irradiated B6 splenocytes were rendered tolerant to subsequent alloantigen presentation by host professional antigen-presenting cells. Consistently, PI of irradiated donor-type splenocytes led to remarkable prolongation of the survival of subsequently transplanted heart allografts. These results indicate that indirect antigen presentation by LSEC significantly contributes to alloreactive T-cell tolerance induced by PI of irradiated donor splenocytes.     

Effect of ibuprofen and interleukin 2 on transfusion-induced suppression of cell-mediated immunity

Transfusion-induced immunosuppression has been associated with excessive production of prostaglandin E and decreased interleukin 2 (IL-2) production. In the present study, allogeneic blood-transfused mice were tested for cell-mediated immunity with the use of a delayed-type hypersensitivity assay. In vivo administration of a cyclo-oxygenase inhibitor, ibuprofen, and murine recombinant IL-2 was initiated on day 0 and continued daily throughout the delayed-type hypersensitivity assay. The results indicate that prostaglandin E may play a primary role in allogeneic blood transfusion-induced suppression, as manifest by normal responses in ibuprofen-treated mice. Supplementation of transfused mice with recombinant IL-2 also preserved immune response, indicating inadequate IL-2 production after transfusion, while receptor expression appears to remain intact.     

Induction of endotoxin tolerance inhibits alloimmune responses

It was recently reported that the induction of endotoxin tolerance (ET), which is defined as a reduced response to a lipopolysaccharide (LPS) challenge following the first LPS encounter, inhibits major histocompatibility complex (MHC)-restricted antigen presentation. This raises the question whether alloimmune responses can be inhibited by inducing ET in transplant donors. C57BL/6 mice were treated with a low dose of LPS prior to a challenge with a high dose of LPS to induce ET. Hearts from endotoxin-tolerized C57BL/6 mice were transplanted to BALB/c mice. The survival of the endotoxin-tolerized heart allografts was significantly prolonged. By using irradiated splenocytes from C57BL/6 mice and allogeneic splenocytes from BALB/c mice, a mixed lymphocyte reaction (MLR) assay was performed. The MLR assay used CFSE, and revealed that the splenocytes from the endotoxin-tolerized mice failed to induce the proliferation of allogeneic CD4⁺ and CD8⁺ T cells. Cytokine analyses of the supernatant of the MLR culture using endotoxin-tolerized stimulators revealed a distinct shift in the Th 1/Th 2 balance toward the Th 2-type response. The induction of ET increased the proportion of myeloid-related dendritic cells (DCs) expressing molecules necessary for antigen presentation, which favor the development of a Th 2 response; however, it reduced the proportion of lymphoid-related DCs expressing those molecules, which favor the development of the Th 1 response. Although the relevance of these findings with regard to the prolonged survival of the endotoxin-tolerized heart allografts remains to be elucidated, this is the first study to demonstrate that the induction of ET in donor animals inhibits alloimmune responses.     

Hemorrhage without tissue trauma produces immunosuppression and enhances susceptibility to sepsis

To determine whether hemorrhage without major tissue trauma can itself produce immunosuppression, the effect of hemorrhage on the lymphocyte response to T-cell mitogen in endotoxin-resistant C3H/HEJ mice was measured. The mice were bled to achieve a mean blood pressure of 35 mm Hg, maintained at that level for one hour, and then adequately resuscitated. On days 1 through 10 thereafter, the proliferative responses of the splenocytes to concanavalin A were measured and allogeneic mixed lymphocyte reaction was performed. The proliferative responses to mitogen stimulation as well as the results of mixed lymphocyte reaction studies indicated that marked immunosuppression occurred at day 1. Immunosuppression persisted for at least five days following hemorrhage, as evidenced by mitogen stimulation assay. Another group of mice was subjected to sepsis three days after hemorrhage and resuscitation. The mortalities in the sham-hemorrhage and hemorrhage groups following sepsis were 58% and 100%, respectively. Thus, a significant depression of cellular immunity occurred following simple hemorrhage despite adequate resuscitation, and this immunosuppression enhanced the susceptibility to sepsis.     

Mechanism of immunosuppression following hemorrhage: defective antigen presentation by macrophages

The mechanism by which simple hemorrhage profoundly impairs the proliferative response of T lymphocytes to mitogen and alloantigen, produces a defect in interleukin-2 generation, and increases the susceptibility to sepsis remains unknown. Since antigen presentation (AP) by the macrophage (M phi) plays a critical role in the antigen-specific activation of T-helper cells and lymphokine production, we investigated whether the function of the M phi as an AP cell is altered following hemorrhage. C3H/HEJ mice were bled to a mean BP of 35 mm Hg, maintained at that level for 1 hr, and then resuscitated. There was no mortality with this model. Control mice were not bled but otherwise treated identically. Immediately after resuscitation the mice were sacrificed and peritoneal M phi (PM phi) as well as splenic adherent cells (SAC) were harvested. AP function was tested by coculturing different numbers of PM phi and SAC with D10.G4.1 cells (2 x 10(4) cells/well) in the presence of conalbumin (300 micrograms/ml). This T-helper cell clone proliferates upon recognition of conalbumin in the context of Iak (a M phi surface membrane glycoprotein), thus directly reflecting M phi AP capability. After 72 hr of incubation, the cultures were pulsed with [3H]thymidine and harvested. D10.G4.1 proliferations induced via AP by PM phi and SAC from hemorrhaged-resuscitated mice were 29 and 24% of control, respectively (P less than 0.05). Thus, we conclude that AP by M phi following hemorrhage is defective despite adequate resuscitation, a mechanism which could explain the state of immunosuppression and enhanced susceptibility to sepsis.     

Effect of hypomagnesemia on allogeneic activation in mice

INTRODUCTION: Magnesium (Mg) plays an essential role in a wide range of fundamental cellular reactions. It has been reported that in rodents Mg-deficient diet-induced hypomagnesemia results in an early inflammation. We have previously shown that chronic severe hypomagnesemia was associated neither with endothelial cell activation nor with an inflammatory process which are crucial in the allograft rejection process. T cell allogeneic stimulation activates the phosphatase calcineurin which triggers the signaling pathways leading to IL-2 synthesis and lymphocyte proliferation. Full activation of calcineurin requires Mg. Surveys suggest that a significant number of people consume less Mg than the international dietary reference intakes leading to hypomagnesemia in 2.5% to 15% of the general population. OBJECTIVE: The aim of the study was to investigate the effects of hypomagnesemia on lymphocyte allogeneic activation and proliferation in a murine model of dietary-induced hypomagnesemia. METHODS: C57BL/6J (H-2(b), Mls(b)) mice were given normal Mg-containing diet (1400 ppm Mg, control mice), or synthetic Mg-deficient diets containing either 50 ppm Mg or 150 ppm Mg for 28 days. Serum Mg levels were determined at days 5, 14 and 28. In parallel, complete urine and faeces were collected by using metabolic cages during a 24 h period for Mg determinations. Splenocytes from C57BL/6 mice fed either normal diet or 50 ppm Mg-diet were used as responder cells in mixed lymphocyte reaction (MLR) performed with splenocytes from C3H/He mice (H-2(k), Mls(IIa)) and C57BL/6 mice fed normal diet as stimulators for allogeneic and isogeneic conditions, respectively. TGF-beta and IL-2 productions were quantified in the supernates of mixed splenocytes cultures. 3x10(6) splenocytes from mice fed 50 ppm Mg-diet were used for calcineurin activity determination at day 28. RESULTS: In mice fed 150 ppm Mg-diet, moderate hypomagnesemia was observed from day 5 to day 28. Oral supplementation with Mg pidolate (5 or 20 mg Mg/kg/day) could not restore normal serum Mg levels. Serum Mg concentration early decreased in mice fed 50 ppm Mg-diet to achieve stabilized severe hypomagnesemia at days 14 and 28. Urine Mg concentration early dramatically fell down then stabilized in mice fed Mg-deficient diets. In MLR performed at day 28 with splenocytes from mice fed 50 ppm Mg-diet, proliferation and IL-2 production in allogeneic conditions were similar to control mice. No TGF-beta production was detected in any group. Lastly, calcineurin activity measured at day 28 was significantly lower in splenocyes from mice fed 50 ppm Mg-diet than in mice fed control diet. CONCLUSION: Mg-deficiency does not alter splenocyte allogeneic activation and proliferation and IL-2 production in vitro, although it partially inhibits calcineurin activity. We hypothesize that the remaining activity is sufficient for IL-2 gene normal activation. Alternatively, Mg-deficiency may trigger other signaling pathways leading to IL-2 production.     

Macrophage antigen presentation and interleukin 1 production after cecal ligation and puncture in C3H/HeN and C3H/HeJ mice

Following cecal ligation and puncture with a 25-gauge needle, endotoxin-sensitive C3H/HeN mice have a 45% mortality compared with no mortality in endotoxin-resistant C2H/HeJ mice. Macrophage production of interleukin 1 and antigen presentation were studied in these two strains of mice following cecal ligation and puncture at 2, 4, 8, 16, and 24 hours and at 2, 4, 6, and 8 days. Splenic macrophages were cultured with a T-helper cell clone (D10.G4.1), and antigen presentation and interleukin 1 production were measured by D10.G4.1 proliferation. Macrophage antigen presentation by C2H/HeJ mice was markedly increased compared with that in C3H/HeN mice at all times after cecal ligation and puncture, most strikingly at 2 days (185m740 cpm for C3H/HeJ mice vs 30,300 for C2H/HeN mice). Macrophage interleukin 1 production was significantly increased in C3H/HeJ mice vs C3H/HeN mice at all times after cecal ligation and puncture (except at 2 days) and was maximal at 8 days (25,000 cpm for C3H/HeJ mice vs 5190 for C3H/HeN mice). These data suggest that the differences in mortality after cecal ligation and puncture between these two strains of mice may relate to a supranormal response of macrophages of C3H/HeJ mice or to an inadequate response of macrophages of C3H/HeN mice.     

Interferon-gamma attenuates hemorrhage-induced suppression of macrophage and splenocyte functions and decreases susceptibility to sepsis.

Although it is known that interferon-gamma synthesis and macrophage functions are depressed after hemorrhage, it remains to be determined whether systemic administration of interferon-gamma has any effect on hemorrhage-induced depression of macrophage and splenocyte functions. To study this, C3H/HEN mice were bled to a mean blood pressure of 35 mm Hg, maintained for 60 minutes, and followed by adequate fluid resuscitation. The mice then received either 1000 units interferon-gamma or saline solution (vehicle). Peritoneal (pM phi) and splenic (sM phi) macrophages and splenocytes were isolated 24 hours later. PM phi antigen presentation was measured by coculturing pM phi with the D10.G4.1 cell clone. Major histocompatibility complex class II (Ia) antigen expression was determined by direct immunofluorescence. Cytokine release by pM phi, sM phi, and splenocytes was assessed with specific bioassays. For survival studies, mice were subjected to sepsis 3 days after hemorrhage. Treatment with interferon-gamma restored (p less than or equal to 0.05) hemorrhage-induced suppression of pM phi antigen presentation capacity and Ia antigen expression and increased (p less than or equal to 0.05) interleukin-1 and tumor necrosis factor release by pM phi and sM phi, as well as splenocyte proliferation (p less than or equal to 0.05). Interferon-gamma also decreased (p less than or equal to 0.007) the susceptibility to sepsis after hemorrhage. Thus interferon-gamma represents a potent agent for treating hemorrhagic shock-induced immunosuppression and for increasing the ability of the host defense system to combat bacterial infections after hemorrhage.     

Induction of antiidiotypic antibodies by blood transfusions. Characterization of T cell alloantigen-specific receptors by sera from transfused mice

Balb/c (H-2d) mice were transfused weekly with 0.1 ml of whole blood from C3H (H-2k) mice. One week after 3 blood transfusions (BT), the mice were bled and the sera collected and pooled. The 3BT serum was absorbed twice with C3H lymphocytes and IgG isolated by ion-exchange chromatography. Balb/c anti-C3H, Balb/c anti-Balb/c, and Balb/c anti-SJL (H-2s) lymphocytes were generated in the mixed lymphocyte cultures and metabolically labeled with 35S-methionine. Cell lysates were prepared from labeled lymphocytes and precleared by absorption with normal mouse serum. Immunoprecipitation was carried out by 3BT-IgG and NMS-IgG. 3BT-IgG specifically precipitated 7 molecules (30K, 60K, 72K, 86K, 92K, 97K, 145K) from Balb/c anti-C3H lymphocytes. In contrast, 3BT-IgG did not precipitate these molecules from Balb/c anti-Balb/c or from Balb/c anti-SJL lymphocytes. The data suggest that BT induces antibodies directed against the blood donor alloantigen-specific receptors on recipient's T lymphocytes.     

Energetics of defective macrophage antigen presentation after hemorrhage as determined by ultraresolution 31P nuclear magnetic resonance spectrometry: restoration with adenosine triphosphate-MgCl2.

BACKGROUND. The purpose of this study was to determine whether a decrease in macrophage energetics contributes to the profound immune dysfunction that occurs after hemorrhage and, if so, whether adenosine triphosphate (ATP)-MgCl2 treatment has any beneficial effects on the above parameters. METHODS. C3H/HeN mice were bled to a mean blood pressure of 35 mm Hg, maintained at that pressure for 60 minutes, resuscitated with their own shed blood and Ringer's lactate, and treated with ATP-MgCl2 (80 mumol/kg body weight) or saline solution (vehicle). Peritoneal macrophages were harvested 1 hour after resuscitation and ATP levels were determined by 31P nuclear magnetic resonance spectrometry. In addition, macrophage functions were determined by measuring antigen presentation capacity (AP), as well as interleukin-1 (IL-1), interleukin-6 (IL-6), and tumor necrosis factor (TNF) synthesis. RESULTS. Hemorrhage caused a significant decrease in peritoneal macrophage AP function, as well as IL-1, IL-6, and TNF synthesis, by 52% +/- 14%, 91% +/- 12%, 78% +/- 8%, and 89% +/- 8%, respectively, which was correlated with a 78% +/- 6% decrease in macrophage ATP levels (p less than 0.05). Treatment with ATP-MgCl2 after hemorrhage restored macrophage ATP levels (p less than 0.05) and significantly increased (p less than 0.05) macrophage AP, IL-1, IL-6, and TNF release by 110% +/- 21%, 130% +/- 38%, 124% +/- 17%, and 66% +/- 24%, respectively. CONCLUSIONS. The decreased macrophage ATP levels may be the cause of defective macrophage AP and cytokine release after hemorrhage, and both macrophage ATP levels and macrophage immune functions can be restored with adjuvant ATP-MgCl2 treatment after hemorrhage.