Farah Haque

PGE2 suppresses intestinal T cell function in thermal injury : A cause of enhanced bacterial translocation

Increased gut bacterial translocation in burn and trauma patients has been demonstrated in a number of previous studies, however, the mechanism for such an increased gut bacterial translocation in injured patients remains poorly understood. Utilizing a rat model of burn injury, in the present study we examined the role of intestinal immune defense by analyzing the T cell functions. We investigated if intestinal T cells dysfunction contributes to bacterial translocation after burn injury. Also our study determined if burn-mediated alterations in intestinal T cell functions are related to enhanced release of PGE2. Finally, we examined whether or not burn-related alterations in intestinal T cell function are due to inappropriate activation of signaling molecule P59fyn, which is required for T cell activation and proliferation. The results presented here showed an increase in gut bacterial accumulation in mesenteric lymph nodes after thermal injury. This was accompanied by a decrease in the intestinal T cell proliferative responses. Furthermore, the treatments of burn-injured animals with PGE2 synthesis blocker (indomethacin or NS398) prevented both the decrease in intestinal T cell proliferation and enhanced bacterial translocation. Finally, our data suggested that the inhibition of intestinal T cell proliferation could result via PGE2-mediated down-regulation of the T cell activation-signaling molecule P59fyn. These findings support a role of T cell-mediated immune defense against bacterial translocation in burn injury.

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.

Enteral nutritional supplementation prevents mesenteric lymph node T-cell suppression in burn injury

OBJECTIVE To determine the effects of an immune-enhancing diet supplemented with glutamine, arginine, fish oil, and dietary nucleotides on mesenteric lymph node T-cell functional disturbances encountered after burn injury in rats. DESIGN A prospective animal study. SETTING University medical center research laboratory. SUBJECTS Adult male Sprague-Dawley rats. INTERVENTIONS Rats received a 30%, total body surface, full-thickness burn. Burn-injury rats received the IMPACT diet supplemented with glutamine, arginine, fish oil, and nucleotides or arginine, fish oil, and nucleotides, or an isocaloric/isonitrogenous diet without supplementation with glutamine, arginine, fish oil, or nucleotides. MEASUREMENTS AND MAIN RESULTS Two days after injury, we found a significant decrease in the proliferation and interleukin-2 production by mesenteric lymph node T cells derived from rats fed on conventional chow compared with sham rats. The burn-related suppression of mesenteric lymph node T-cell proliferation and interleukin-2 production was prevented when the rats were fed on a high-protein diet rich in glutamine, arginine, fish oil, and nucleotides. We found that the immunostimulatory effects of the enriched diet are dependent on the presence of glutamine, arginine, fish oil, and nucleotides as feeding of rats on the isocaloric/isonitrogenous diet deficient in glutamine, arginine, fish oil, and nucleotides did not prevent the burn-related suppression of mesenteric lymph node T-cell dysfunction. Finally, our studies suggested that immunostimulatory effects of the diet are mediated by prostaglandin E(2) regulation of T-cell activation signaling molecule P59fyn. CONCLUSION These results suggest that a diet rich in arginine, fish oil, and nucleotides, with and without glutamine, can effectively prevent T-cell dysfunction encountered after burn injury.

Effects of pentoxyfylline on mesenteric lymph node T-cells in a rat model of thermal injury.

Cutaneous burn injury-induced T lymphocyte suppression is a well-known phenomenon. In this study, we evaluated the effect of treatment of burn rats with pentoxifylline (PTX) on the burn-induced suppression of T lymphocytes. Anesthetized rats were subjected to 30% total body surface area burn by exposing skin to 95°C water for 10 s. T lymphocytes were isolated from sham and burn rats with or without PTX treatment (120 mg/kg, ip). T cell proliferation and interleukin (IL)-2 production in response to T cell mitogen concanavalin A was measured using 3 H-thymidine uptake and enzyme-linked immunosorbent assay, respectively. P59 fyn autophosphorylation and its kinase activity was determined using in vitro kinase assay. In addition, T lymphocyte Ca2+ signaling was assessed using Ca2+ imaging technique. Two days after injury, there was a significant decrease in mesenteric lymph node T cell proliferation and IL-2 production in burn injured rats compared with those obtained from sham-injured rats. This decrease in T cell proliferation and IL-2 production in burn-injured rats was accompanied by a significant suppression in both P59 autophophorylation and kinase activity as well as Ca2+ signaling. Treatment of burn-injured rats with PTX produced a near complete recovery of T cell proliferation and IL-2 production. Furthermore, PTX treatment also prevented the burn-mediated suppression in P59fyn and kinase activity as well as restored Ca2+ signaling similar to those observed in sham injured rats. These findings altogether suggested that PTX treatment attenuate T cell suppression in burn-injured rats and that the effects of PTX are mediated via modulating P59 fyn and Ca2+ signaling.

Enterococcus faecalis exacerbates burn injury-induced host responses in rats.

Pathophysiology of burn injury with complications of gram-positive infections is not well characterized. We have developed an in vivo rat model to study the effects of burn injury along with intra-abdominal inoculation of Enterococcus faecalis. We hypothesized that although burn injury or E. faecalis inoculation by itself may not induce significant pathophysiological responses, the combination of the two can lead to adverse pathophysiological consequences. Sprague-Dawley rats were divided into 4 groups: group 1(C), controls; group 2(B), burn injury on 30% total body surface area; group 3(EF), intra-abdominal implantation of bacterial pellet impregnated with E. faecalis; group 4(B+EF), burn injury plus bacterial pellet implantation. The mortality was 25% and 60% on day 1 and 2 in Group 4(B+EF), respectively; no significant mortality was observed in other groups. In group 4(B+EF), metabolic acidosis, respiratory alkalosis, and a hyperdynamic state developed on day 1, and metabolic and respiratory acidosis and a hypodynamic state on day 2. There were no significant alterations in metabolic or hemodynamic measurements in other groups. Intestinal microvascular permeability to albumin on day 1 and 2 was increased in group 4(B+EF). In group 2(B), microvascular permeability was not increased significantly. Although the permeability was increased on day 1 in group 3(EF), it declined on day 2. The metabolic and hemodynamic alterations were correlated with increased intestinal microvascular permeability to albumin. E. faecalis appeared to be involved in initiating a vicious cycle of burn injury-mediated disruption of intestinal integrity along with metabolic and hemodynamic derangements.

Molecular mechanisms and structural features of cardiomyopathy-causing troponin T mutants in the tropomyosin overlap region

Significance Mutations in genes encoding sarcomeric proteins are the major cause of primary inherited cardiomyopathies. Troponin T (TnT), encoded by TNNT2, harbors most of its pathogenic mutants at TNT1 (residues ∼80–180 of TnT). TNT1 is known to interact with tropomyosin (Tm). In this study, we have analyzed TNT1 mutants using in vitro and in silico methods and correlated the results. We also found a striking correlation between binding affinities for Tm and changes in the calcium sensitivity of regulated actomyosin ATPase activities within residues 92–144. These data are consistent with reducing or increasing the affinity of TnT for Tm as the primary cause of cardiomyopathy for mutations in this region, suggesting a smaller Tm binding region. Point mutations in genes encoding sarcomeric proteins are the leading cause of inherited primary cardiomyopathies. Among them are mutations in the TNNT2 gene that encodes cardiac troponin T (TnT). These mutations are clustered in the tropomyosin (Tm) binding region of TnT, TNT1 (residues 80–180). To understand the mechanistic changes caused by pathogenic mutations in the TNT1 region, six hypertrophic cardiomyopathy (HCM) and two dilated cardiomyopathy (DCM) mutants were studied by biochemical approaches. Binding assays in the absence and presence of actin revealed changes in the affinity of some, but not all, TnT mutants for Tm relative to WT TnT. HCM mutants were hypersensitive and DCM mutants were hyposensitive to Ca2+ in regulated actomyosin ATPase activities. To gain better insight into the disease mechanism, we modeled the structure of TNT1 and its interactions with Tm. The stability predictions made by the model correlated well with the affinity changes observed in vitro of TnT mutants for Tm. The changes in Ca2+ sensitivity showed a strong correlation with the changes in binding affinity. We suggest the primary reason by which these TNNT2 mutations between residues 92 and 144 cause cardiomyopathy is by changing the affinity of TnT for Tm within the TNT1 region.

Cough, wheezing, and rash in a patient with a history of allergic bronchopulmonary aspergillosis

HISTORY OF PRESENT ILLNESS A 30-year-old white woman presented to Allergy and Immunology Clinic for evaluation 1 week after being discharged from the hospital with cough, difficulty breathing, chronic persistent tongue swelling, and wheezing. The patient was sent to the emergency department and was subsequently hospitalized and treated with intravenous methylprednisolone and prednisone, 40 mg twice daily. These episodes were more frequent, with approximately 10 emergency department visits this year. The patient also had a pruritic erythematous maculopapular rash on her chest and extremities that was treated with triamcinolone cream without relief. In addition, she complained of chronic night sweats and chills for 1 year without weight loss.