Induction of global anergy rather than inhibitory Th2 lymphokines mediates posttrauma T cell immunodepression

Interleukin-16 expression in the peripheral blood and CD8 T lymphocytes after traumatic injury

BACKGROUND

Expressed in several pathologic conditions, interleukin (IL-16) can induce chemotaxis and regulate the activation of CD4-positive leukocytes. This study investigated the expression of IL-16 in trauma patient plasma and peripheral blood leukocytes to determine its involvement in the physiologic response to injury.

METHODS

In this study, 25 consecutive patients requiring trauma team activation and 15 noninjured subjects were evaluated for plasma IL-16 by enzyme-linked immunosorbent assay and peripheral blood leukocyte expression of intracellular cytokine by flow cytometry.

RESULTS

Trauma patient plasma IL-16 was transiently increased after injury in comparison with levels in noninjured control subjects. In patients with worse outcome, both peripheral blood T lymphocyte intracellular IL-16 levels and CD4/CD8 lymphocyte ratios were lower than those for less severely injured patients and control subjects.

CONCLUSION

Posttraumatic changes in IL-16 expression were found to be associated with worse patient outcome, suggesting an innate immune mechanism with a role in regulation of the T lymphocyte response to injury.

Longitudinal study of cytokine and immune transcription factor mRNA expression in septic shock

Success in treating severe sepsis will require relevant tools to monitor the patient immunoinflammatory status. This study aimed to investigate the feasibility of measuring a panel of immunological mediator mRNAs in whole blood and to study their prognostic values in septic shock patients. At the onset of shock, compared to healthy volunteers, mRNA levels in septic shock patients were increased for IL-10, IL-1beta, and high mobility group B1 (HMGB1) and decreased for transforming growth factor beta 1, the Th1, and Th2 transcription factors, T-bet and GATA-3, respectively. Single parameter analysis highlighted an increased expression of IL-10 and HMGB1 mRNA in nonsurvivors and a significant rise over time of GATA3 in survivors. Combining the expression levels of four genes, hierarchical cluster analysis showed that up to 95% of the patients with a similar outcome displayed transcriptional similarities. These results illustrate both the potential of whole blood mRNA quantification assays and the interest of a multiparametric strategy to better stratify septic patients.

The Th2 response as monitored by CRTH2 or CCR3 expression is severely decreased during septic shock

The shift of T lymphocytes toward a Th2 profile during septic shock has been established on the basis of in vitro cytokine production. In the present study, the Th2 response was investigated at the level of cell surface marker expression (whole blood flow cytometry). In 58 patients with septic shock, we observed a reduced CRTH2 (chemoattractant receptor-homologous molecule expressed on Th2 cells) expression on Th2 lymphocytes and regulatory T cells in comparison with 39 healthy volunteers. Eosinophils, which constitutively express CRTH2 in healthy individuals, also exhibited low levels of CRTH2 in patients. In addition, eosinophil CCR3 expression (eotaxin receptor, type 2 chemokine) was strongly correlated with CRTH2, suggesting thus an extended modulation of Th2 related molecules. Importantly, the persistence over time of low levels of CRTH2 or CCR3 expression was found in nonsurvivors. We hypothesize that the restoration of CRTH2/CCR3 expression may be an indicator for optimal recovery after septic shock.

Paradoxical effect of IL-18 therapy on the severe and mild Escherichia coli infections in burn-injured mice

OBJECTIVE

To investigate the effects of IL-18 therapy on severe and mild bacterial infection after burn injury.

SUMMARY BACKGROUND DATA

IL-18 therapy restores IFN-gamma production in immunosuppressive mice following burn injury and up-regulate host response to LPS and experimental bacterial peritonitis. On the other hand, the overproduction of IFN-gamma could induce an exaggerated inflammation. Therefore, in this study, we focus on the beneficial and deleterious effects of IL-18-induced IFN-gamma and investigate the behavior of IL-18 in infections.

METHODS

Burn injury was induced in C57BL/6 mice and then they were i.p. injected with IL-18 (0.2 microg) on alternate days. After 1 week, severe and mild infections were made in mice by an Escherichia coli challenge (5 x 10 CFU and 1 x 10 CFU i.v., respectively).

RESULTS

IL-18 therapy decreased the mortality of burn-injured mice followed by a severe infection, whereas it unexpectedly increased the mortality of burned mice with a mild infection. The IL-18 therapy increased the number of liver mononuclear cells (MNCs), especially NK cells, and greatly up-regulated the impaired IFN-gamma production from the liver and spleen MNCs in mice with severe infection. Both the serum IFN-gamma concentrations recovered while the bacterial count in the liver decreased. In contrast, the serum IFN-gamma concentrations of the burned mice with mild infection did not decrease in comparison to the unburned mice, whereas IL-18 therapy greatly up-regulated the serum IFN-gamma levels in burned mice. However, IL-18 therapy significantly elevated the serum ALT and creatinine levels, thus suggesting that the mortality was induced by an exaggerated form of shock/multiorgan failure. These beneficial and deleterious effects of IL-18 therapy in mice with severe and mild infections, respectively, were all inhibited by anti-IFN-gamma Ab pretreatment.

CONCLUSION

IL-18 therapy can be a potent therapeutic tool against severe bacterial infection in immunocompromised hosts, but careful attention should also be paid to its adverse effects.

Regulation of macrophage IL-10 production postinjury via beta2 integrin signaling and the P38 MAP kinase pathway

Although LPS receptor (CD14) signaling is mediated in part by beta2 integrins, the role of beta2 integrins in macrophage LPS signaling postinjury remains unknown. To study this, splenic macrophages were isolated from mice 7 days postburn, and inflammatory mediator production was determined. Macrophages isolated from injured mice produced higher levels of PGE2, TNF-alpha, IL-6, and IL-10 and lower levels of IL-12 in response to LPS stimulation than did cells from sham-treated mice. Blockade of beta2 integrin signaling by addition of antibodies against the CD11b (alphaCD11b) to the cultures increased IL-10 production by macrophages from injured mice without affecting other mediators. In contrast, sham macrophage responses to LPS were unaffected by alphaCD11b. Inhibition of p38 MAP kinase activity attenuated IL-10 production and abrogated the enhanced IL-10 response induced by alphaCD11b, whereas ERK 1/2 inhibition had no effect. Burn injury was associated with increased levels of total and phosphorylated p38 MAP kinase. These findings indicate that LPS signaling via beta2 integrins acts to attenuate the exaggerated induction of IL-10 by macrophages postinjury. Moreover, this effect of beta2 integrin signaling postinjury appears to be downstream of the p38 MAP kinase pathway and is independent of other markers of macrophage hyperactivity.

Burn injury promotes antigen-driven Th2-type responses in vivo

Severe injury induces detrimental changes in immune function, often leaving the host highly susceptible to developing life-threatening opportunistic infections. Advances in our understanding of how injury influences host immune responses suggest that injury causes a phenotypic imbalance in the regulation of Th1- and Th2-type immune responses. We report in this study, using a TCR transgenic CD4(+) T cell adoptive transfer approach, that injury skews T cell responses toward increased Th2-type reactivity in vivo without substantially limiting Ag-driven CD4(+) T cell expansion. The increased Th2-type response did not occur unless injured mice were immunized with specific Ag, suggesting that the phenotypic switch is Ag dependent. These findings establish that severe injury induces fundamental changes in the induction of Ag-specific CD4(+) Th cell responses favoring the development of Th2-type immune reactivity in vivo.

Use of intracellular cytokine staining and bacterial superantigen to document suppression of the adaptive immune system in injured patients

OBJECTIVE

To determine the percentages of major T lymphocyte subsets in the circulating peripheral blood mononuclear cell population in patients with major traumatic injury at early and late time points and to determine the expression of coreceptors and cytokine production by these T cell subsets.

SUMMARY BACKGROUND DATA

Prior studies suggest that serious injury in humans suppresses the adaptive immune system as revealed by diminished proliferation and altered cytokine production in response to polyclonal T cell activation. However, the contribution of individual cell types to this immune dysfunction has not been well characterized.

METHODS

The percentage of circulating CD4+ and CD8+ T cells and the relative density of CD4 and CD8 coreceptor expression was determined by flow cytometry in 17 consecutive trauma patients (injury severity score > 20) within 24 hours of injury and at day 7. Intracellular expression of the cytokines interleukin 2 (IL-2), interferon gamma (IFNgamma), IL-4, and IL-10 were also studied after stimulation with bacterial superantigen (SEB). Patients were compared with age- and sex-matched controls and to themselves for differences between early and late cytokine expression.

RESULTS

The percentage of circulating CD4+ and CD8+ T cells was decreased versus controls at day 1 and further decreased by day 7 following injury. CD4 and CD8 cell surface expression was also decreased at days 1 and 7. CD4+ T cells in injured patients responded to SEB activation with decreased expression of IFNgamma and IL-2 on day 1 versus controls (P < 0.05) and of all 4 cytokines by day 7 (P < 0.05), while CD8+ T cells showed diminished expression of IFNgamma and IL-2 only at both time points. When day 1 and day 7 cytokine expression results were compared in the same patients, CD4+ T cells showed diminished expression of IFNgamma, IL-2, and IL-4 by day 7 (P < 0.05), but maintained expression of IL-10. CD8 T cells showed diminished expression of IFNgamma only.

CONCLUSIONS

Severe injury induces a loss of circulating CD4+ and CD8+ T lymphocytes and diminished coreceptor expression by these cells. Both T cell subsets show progressive loss of immunostimulatory cytokine production with maintenance of potentially suppressive IL-10 production. These events may have negative consequences for host defense.

Mechanisms of immune resolution

Initially after injury, the innate/proinflammatory and some aspects of the acquired immune response are up-regulated to maintain a defense against foreign pathogens, clear tissue debris present at the wound site, and orchestrate aspects of tissue remodeling, cell proliferation and angiogenic process, associated with the wound response. However, for proper wound healing to progress, this initial inflammatory response has to be regulated or shut down so as to allow for the reestablishment of matrix, recellularization, and tissue remodeling. Inability to properly resolve the extent of innate/acquired response at a site of injury can lead to poor wound healing, immune suppression, and recurrent infectious episodes. This review attempts to summarize information on regulatory mechanisms that are thought to be involved in controlling/resolving innate or acquired immune responses so as to provide a framework for use in thinking about the impact these processes and their manipulation may have on wound healing and its potential management.

Failure of monocytes of trauma patients to convert to immature dendritic cells is related to preferential macrophage-colony-stimulating factor-driven macrophage differentiation

Following trauma, increased inflammatory monokine activation and depressed APC function can occur simultaneously. These contradictory monocyte (Mphi) dysfunctions could result if postinjury Mphi differentiation preferentially favored inflammatory macrophage (Mac) differentiation over development into the most potent APC, dendritic cells (DC). In this report, Mphi of trauma patients with a depressed MLR induction capacity are, for the first time, shown to be unable to differentiate in vitro to immature CD1a(+) DC under the influence of GM-CSF and IL-4. Trauma patient Mphi that retained MLR-inducing capacity had a nonsignificant reduction in DC differentiation capacity. Only patient Mphi populations with depressed differentiation to immature DC (iDC) demonstrated depressed IL-12 and IL-15 production and a continued reduced MLR induction capacity. Neither increased IL-10 production nor decreased CD11c(+) DC precursor numbers correlated with depressed Mphi-to-DC differentiation. Instead, these patients' APC-dysfunctional Mphi populations had increased expression of inflammatory Mac phenotypes (CD64(+), CD86(low), HLA-DR(low)) and up-regulated secretion of M-CSF. M-CSF combined with IL-6 inhibits Mphi-to-iDC differentiation and promotes Mphi-to-Mac differentiation by down-regulating GM-CSFR expression and increasing DC apoptosis. Both depressed GM-CSFR expression and increased Mphi iDC apoptosis, as well as increased expression of CD126 (IL-6R) and CD115 (M-CSFR), were detected in APC-defective patient Mphi. In vitro addition of anti-M-CSF enhanced the IL-4 plus GM-CSF-induced Mphi-to-DC differentiation of these patients. This suggests that, in trauma patients, enhanced Mphi-to-Mac differentiation with concomitant inhibited iDC development is partially due to increased circulating Mphi sensitivity to and production of M-CSF and contributes to postinjury immunoaberrations.

Advanced age negatively influences mesenteric lymph node T cell responses after burn injury

While the pathophysiology of burn injury is well established in young adults, the factors that contribute to pathogenesis and increased death in elderly burn patients are not defined. The purpose of this study is to determine the effects of burn injury on mesenteric lymph node (MLN) T cell responses in young and aged mice. MLN is a cluster of lymph nodes that drains various parts of the intestine and is known to play role in clearance bacteria originating from the intestinal lumen. Results presented here suggest a significant suppression in Con A-induced MLN cell proliferation and IL-2 production in uninjured aged mice compared with uninjured young mice. Following 24 h after injury, although, a significant decrease in lymph node cell proliferation and IL-2 production was observed in both young and aged mice compared with their respective sham-injured animals, the suppression was more in aged mice. In addition we found a reduction in IFN-gamma, a Th-1 cytokine by MLN T cells from aged burned mice relative to young burn (P<0.05) or sham-injured mice (P<0.01). The Th-2 cytokine IL-4, on the other hand, was significantly increased in both young and aged burn-injured mice MLN T cells compared with their respective sham-injured mice. These results show that burn injury causes a greater suppression in MLN T cells ability to proliferate and a more pronounced shift to Th-2 phenotype in aged mice as compared with young mice. Such decreases in T cell functions may impair MLN's ability to clear the bacterial pathogens originating from intestine and thereby contribute to increased pathogenesis in injured host.

Aging enhances lymphocyte cytokine defects after injury

Mortality and sepsis after a traumatic injury is greater in the elderly than in young individuals. The altered lymphocyte response observed to occur in healthy aged individuals is proposed to be a contributing factor to increased mortality. The immune response associated with the increased mortality was explored using a murine scald injury model. In the absence of injury, aged mice had depressed delayed-type hypersensitivity (DTH) and splenocyte proliferative responses relative to young mice. There was also an increase with age in the production of the TH2 cytokines interleukin (IL)-4 and IL-10 by splenocytes. There was no change in the TH1 cytokines IFNgamma or IL-12 with age. However, IL-2 production was significantly lower. Following injury, there was a further decrease in the DTH response of aged injured mice, compared with aged sham mice. In addition, there was a decrease in all of the cytokines examined, regardless of age. In contrast, IFNgamma and IL-2 were significantly lower in the aged injured animals compared with the young injured animals. These results suggest that the lack of an adequate amount of TH1 cytokines shortly after injury in the aged mice may parallel the increased incidence of sepsis and death that occurs in aged burn patients.

Effects of perioperative recombinant human IFN-gamma (rHuIFN-gamma) application in vivo on T cell response

In spite of the well-known immunoregulatory effects of recombinant human interferon-gamma (rHuIFN-gamma), in vitro clinical trials in trauma patients remain inconclusive. In vitro studies have shown that IFN-gamma has an effect on lymphocyte responses in addition to immunomodulatory effects on the monocyte/macrophage system. To investigate the in vivo effect of rHuIFN-gamma perioperatively on lymphocyte behavior in surgical patients, we studied 46 anergic patients undergoing major surgery. Treated patients (T, n = 24) received 100 microg rHuIFN-gamma subcutaneously (s.c.), and control patients (C, n = 22) received a placebo on preoperative days -7, -5, and -3 in a controlled, double-blinded placebo trial. Whole blood cultures were stimulated with mitogen on perioperative days, and cytokines were investigated in the supernatants. Interleukin-2 receptor (IL-2R) levels were significantly elevated in the treatment arm during the postoperative period (p < 0.05). The postoperative enhancement of IL-4 in C was completely attenuated in T (p < 0.05). IL-2 levels were elevated perioperatively in T but not in C. No significant effect of rHuIFN-gamma could be demonstrated on IL-10 or lymphocyte proliferation in vitro. From this pilot study, we conclude that preoperative in vivo immunomodulation of lymphocyte function with rHuIFN-gamma in anergic patients is effective. It improves immunoreactivity, as shown by elevated IL-2R levels. Elevated IL-2 and suppressed IL-4 levels indicate a shift toward a Th1-driven lymphocyte response.

Interferon-gamma production is suppressed in thermally injured mice: decreased production of regulatory cytokines and corresponding receptors

Thermal injury to 40% or more of the total body surface area poses a significant risk for the development of opportunistic infections that increase complications and mortality. Altered cytokine induction profiles, including suppression of the Th1 cytokines IFN-gamma and IL-12 and elevations in the anti-inflammatory cytokine IL-10, are believed to contribute to burn-associated immunosuppression and the development of sepsis. The specific changes that lead to altered cytokine production following major burns are not known. We examined the effects of burn injuries to 40% of the mouse body surface on IFN-gamma induction in the major IFN-gamma-producing cell types of the spleen. Additionally, effects on key IFN-gamma-regulatory cytokines were examined after bacterial challenge. We report that in vivo induction of IFN-gamma in natural killer lymphocytes is suppressed in burned mice. Splenic IFN-gamma was suppressed at both the mRNA and protein levels. Early suppression was associated with impairments in both the macrophage/dendritic cell and lymphocyte populations, whereas persistent suppression was associated with impaired lymphocyte function and decreased responsiveness to IFN-gamma-inducing factors. IFN-gamma production could be restored by neutralization of the upregulated cytokine IL-10. Induction of the IFN-gamma-inducers IL-15, IL-12, and IL-2 was also impaired after burn injury, whereas IL-18 levels remained unaffected. Exogenous application of these suppressed cytokines to isolated splenocytes did not restore IFN-gamma to sham levels, indicating a loss of responsiveness to these factors. Expression of the IL-2, IL-12, and IL-15 receptors was suppressed after thermal injury. We conclude that burn-associated suppression of IFN-gamma is due to deficient production of inducing factors and their receptors, leading to severe impairments in cellular IFN-gamma induction pathways.

Role of NFAT and AP-1 in PGE2-mediated T cell suppression in burn injury

PGE2 is known to suppress T cell proliferation and IL-2 production in many inflammatory conditions. Previous studies from our laboratory have shown that such suppression of T cell proliferation in burn and sepsis could result from alteration in T cell activation signaling molecule p59fyn. In this study, we examined the role of downstream signaling molecules NFAT and AP-1 in PGE2-mediated suppression of T cell in burn injury. These studies were carried out utilizing splenic T cells from sham and burn rats 3 days after injury. The data presented in this manuscript suggest a significant suppression of IL-2 production by T cells from burn injured rats compared with the T cells from sham rats. The suppression in T cell IL-2 production was accompanied by a decrease in the activation of NFAT and AP-1 as well as a decrease in T cell p59fyn kinase activity. The treatments of burn-injured animals with PGE2 synthesis blocker indomethacin prevented both the decrease in NFAT and AP-1 binding to IL-2 sequences. In vitro incubation of control rat T cells with PGE2 suppressed the activation of NFAT and AP-1. These results suggested that the suppression of T cell IL-2 production could result from PGE2-mediated alterations in the T cell signaling molecule p59fyn and NFAT/AP-1.

Impairment of splenic B and T lymphocytes in the early period after severe thermal injury: immunohistochemical and electron microscopic analysis

Immunocompetent cells, such as lymphocytes and macrophages are easily damaged after severe thermal injury. In the present study, we investigated structural changes in splenic lymphocytes in the early period after a full skin thickness burn of 30% of the body surface area in rats. At 2h after thermal injury, numerous B lymphocytes had accumulated in the markedly expanded marginal zone of the splenic white pulp. Electron microscopy showed a small number of apoptotic cells in the marginal zone of the white pulp. After 5h, B lymphocytes in the marginal zone as well as in the lymphoid sheath and follicles were markedly decreased in number with an increase of tingible bodies and tingible body macrophages. The number of apoptotic cells had increased not only in the marginal zone, but also in the lymphoid sheath and follicles. After 12h, the splenic white pulp became atrophic with the appearance of a small number of large blastic cells and mitotic figures. After 24h, the splenic white pulp was still atrophic with a decrease in the number of lymphocytes, especially B lymphocytes. On the other hand, the large blastic cells and mitotic figures increased in number. Apoptotic cells decreased in number in the white pulp. After 48h, the lymph follicles were slightly enlarged and a small germinal centre occasionally appeared. A small number of T lymphocytes were observed in the splenic white pulp of the normal rats. However, the T lymphocytes almost disappeared shortly after thermal injury. A recovery in T cell number was observed only after 48h. These findings indicate that severe impairment of both B and T lymphocytes, circulating and in the lymphoid organs, occurs shortly after thermal injury and continues for several days. This severe damage to the lymphocytes is considered to be closely related to severe immune suppression after thermal injury.

CD8(+) T cells express a T-helper 1--like phenotype after burn injury

BACKGROUND

Previous studies suggest that CD8(+) T cells are immunosuppressive after burn injury, but recent reports indicate that CD8(+) T cells have several functions similar to CD4(+) T cells, including the secretion of cytokines. This study uses HY male antigen in transgenic HY female mice to determine the antigen-specific response of activated CD8(+) T cells after burn injury.

METHODS

HY TCR transgenic female mice underwent burn or sham injury. Seventy-two hours after the burn, splenocytes were stimulated with 20 micromol/L HY peptide for 16, 48, and 64 hours; cellular proliferation, intracellular interferon-gamma and interleukin-2, and apoptosis were measured.

RESULTS

Burn injury significantly impaired proliferation to HY antigen (P < or =.05). Activated CD8(+) T cells from burned mice showed increased intracellular interferon-gamma and interleukin-2 16 hours after stimulation compared with sham (P < or =.05) and at no time was less than control mice. The percent of CD8(+) T cells decreased with the time of stimulation but was not due to apoptosis by Annexin V staining.

CONCLUSIONS

Activated CD8(+) T cells express a T(h1)-like phenotype after burn injury. This provides evidence that CD8(+) T cells are not simply suppressive and that is consistent with data that CD4(+) T cells are primed for a T(h1) response after burn injury.

The Th1 versus Th2 cytokine profile in cerebrospinal fluid after severe traumatic brain injury in infants and children

OBJECTIVE: To further characterize the Th1 (proinflammatory) vs. the Th2 (antiinflammatory) cytokine profile after severe traumatic brain injury (TBI) by quantifying the ventricular cerebrospinal fluid concentrations of Th1 cytokines (interleukin [IL]-2 and IL-12) and Th2 cytokines (IL-6 and IL-12) in infants and children. DESIGN: Retrospective study. SETTING: University children's hospital. PATIENTS: Twenty-four children hospitalized with severe TBI (admission Glasgow Coma Scale score, <13) and 12 controls with negative diagnostic lumbar punctures. INTERVENTIONS: All TBI patients received standard neurointensive care, including the placement of an intraventricular catheter for continuous drainage of cerebrospinal fluid. MEASUREMENTS AND MAIN RESULTS: Ventricular cerebrospinal fluid samples (n = 105) were collected for as long as the catheters were in place (between 4 hrs and 222 hrs after TBI). Cerebrospinal fluid samples were analyzed for IL-2, IL-4, IL-6, and IL-12 concentrations by enzyme-linked immunoassay. Peak and mean IL-6 (335.7 +/- 41.4 pg/mL and 259.5 +/- 37.6 pg/mL, respectively) and IL-12 (11.4 +/- 2.2 pg/mL and 4.3 +/- 0.8 pg/mL, respectively) concentrations were increased (p <.05) in children after TBI vs. controls (2.3 +/- 0.7 pg/mL and 1.0 +/- 0.5 pg/mL) for IL-6 and IL-12, respectively. In contrast, peak and mean IL-2 and IL-4 concentrations were not increased in TBI children vs. controls. Increases in the cerebrospinal fluid concentration of IL-6 were significantly associated with admission Glasgow Coma Scale score of </=4 and age of </=4 yrs. Increases in cerebrospinal fluid IL-4 and IL-12 were associated with child abuse as an injury mechanism (both p </=.05 vs. accidental TBI). CONCLUSIONS: This study confirms that IL-6 levels are increased in cerebrospinal fluid after TBI in infants and children. It is the first report of increased IL-12 levels in cerebrospinal fluid after TBI in infants and children. Further, it is the first to report on IL-2 and IL-4 levels in pediatric or adult TBI. These data suggest that selected members of both the Th1 and Th2 cytokine families are increased as part of the endogenous inflammatory response to TBI. Finally, in that both IL-6 and IL-12 (but neither IL-2 nor IL-4) can be produced by astrocytes and/or neurons, a parenchymal source for cytokines in the brain after TBI may be critical to their production in the acute phase after TBI.