Hubert G. Schwelberger

Lipocalin-2 Regulates the Inflammatory Response During Ischemia and Reperfusion of the Transplanted Heart

Ischemia and reperfusion (IR) are known to negatively affect early allograft function following solid organ transplantation. Lipocalin‐2 (Lcn‐2) has been described as a marker and potential positive modulator of acute inflammation during these processes. Using a heterotopic murine heart transplant model we previously found that IR resulted in a pronounced upregulation of Lcn‐2 mRNA in the heart at 12 (22.7‐fold increase) and 24 h (9.8‐fold increase) of reperfusion. We now confirm this increase at the protein level and provide evidence for infiltrating polymorphonuclear cells as the primary source of Lcn‐2 protein. Lcn‐2 levels are increased 6.6‐fold at 12 h, 11.4‐fold at 24 h and 6.4 fold at 48 h after reperfusion. In Lcn‐2−/− grafts the number of infiltrating granulocytes is reduced by 54% (p < 0.05) at 2 h, 79% (p < 0.01) at 12 h, 72% (p < 0.01) at 24 h and 52% (p < 0.01) at 48 h after reperfusion compared to Lcn‐2+/+ grafts, without any differences in cardiomyocyte apoptosis. These data suggest a function of Lcn‐2 in the initiation of the inflammatory response. Moreover, an increase in Lcn‐2 is not only restricted to the transplanted heart, but is also observed in the kidney, hinting at a possible involvement of Lcn‐2 in the systemic response to IR.

Bariatric Surgery Cannot Prevent Tryptophan Depletion Due to Chronic Immune Activation in Morbidly Obese Patients

Background: Increased activity of the immuno-modulatory enzyme indoleamine-2,3-dioxygenase (IDO) during immune activation, results in tryptophan depletion. Tryptophan metabolic changes reduce serotonin production and cause mood disturbances, depression, and impaired satiety, ultimately leading to increased food intake and obesity. Bariatric surgery significantly diminishes immune mediators by substantial weight reduction. We examined IDO-mediated tryptophan-catabolism in morbidly obese patients compared to lean individuals. Methods: Serum concentrations of kynurenine and tryptophan, calculated kynurenine to tryptophan ratios (kyn trp-1) as an indirect estimate of IDO activity, and neopterin levels reflecting IFN-γ mediated immune activation, were assessed before and after bariatric surgery. The study population included 22 morbidly obese individuals and 20 normal-weight volunteers. Results: Median weight loss after 24.4±5.1 months was 40.6 kg resulting in a reduction of BMI from 44.1 kg/m2 to 29.9 kg/m2 (P<0.001). Preoperative kyn trp-1 in morbidly obese patients was significantly increased compared to the control group (41.6±20.1 mmol/mol vs 26.5±5.1 mmol/mol; P<0.001). Postoperative weight reduction did not lead to normalization of kyn trp-1 (37.9±14.0 mmol/mol). As a consequence, tryptophan levels were significantly lower in morbidly obese patients (pre-: 51.5±9.2 μmol L−1 and postoperatively: 46.9±7.6 μmol L−1) when compared with those of normal-weight controls (64.8±9.5 μmol L−1; P<0.001). In addition, neopterin levels were elevated in the study population pre- and postoperatively compared to normal-weight volunteers (both P<0.001). Conclusions: Tryptophan depletion in morbidly obese patients is due to chronic immune activation and persists in spite of significant weight reduction following bariatric surgery. This might thereby be responsible for diminished serotonin functions, leading to unchanged satiety dysregulation and a reward-deficiency-syndrome.

A p38MAPK/MK2 signaling pathway leading to redox stress, cell death and ischemia/reperfusion injury

BackgroundMany diseases and pathological conditions are characterized by transient or constitutive overproduction of reactive oxygen species (ROS). ROS are causal for ischemia/reperfusion (IR)-associated tissue injury (IRI), a major contributor to organ dysfunction or failure. Preventing IRI with antioxidants failed in the clinic, most likely due to the difficulty to timely and efficiently target them to the site of ROS production and action. IR is also characterized by changes in the activity of intracellular signaling molecules including the stress kinase p38MAPK. While ROS can cause the activation of p38MAPK, we recently obtained in vitro evidence that p38MAPK activation is responsible for elevated mitochondrial ROS levels, thus suggesting a role for p38MAPK upstream of ROS and their damaging effects.ResultsHere we identified p38MAPKα as the predominantly expressed isoform in HL-1 cardiomyocytes and siRNA-mediated knockdown demonstrated the pro-oxidant role of p38MAPKα signaling. Moreover, the knockout of the p38MAPK effector MAPKAP kinase 2 (MK2) reproduced the effect of inhibiting or knocking down p38MAPK. To translate these findings into a setting closer to the clinic a stringent kidney clamping model was used. p38MAPK activity increased upon reperfusion and p38MAPK inhibition by the inhibitor BIRB796 almost completely prevented severe functional impairment caused by IR. Histological and molecular analyses showed that protection resulted from decreased redox stress and apoptotic cell death.ConclusionsThese data highlight a novel and important mechanism for p38MAPK to cause IRI and suggest it as a potential therapeutic target for prevention of tissue injury.

Lipocalin‐2 as mediator of chemokine expression and granulocyte infiltration during ischemia and reperfusion

Lipocalin‐2 (Lcn2) expression contributes to ischemia and reperfusion injury (IRI) by enhancing pro‐inflammatory responses. The aim of this work was to elucidate the regulation of Lcn2 during hypoxia and its effects on the expression of key chemokines and adhesion molecules. Lcn2 wt and Lcn2−/− mice were used in a heterotopic heart transplantation model. Quantitative RT‐PCR was applied for chemokine gene expression analysis. Reporter gene studies were used to elucidate the regulation of the Lcn2 promoter by hypoxia. HIF‐1β expression led to a 2.4‐fold induction of the Lcn2 promoter. Apart from an earlier onset of granulocyte infiltration in the Lcn2 wt setting after 2 h of reperfusion compared with the Lcn2−/− setting (P < 0.013), exogenous application of recombinant Lcn2 revealed a trend toward increase of granulocyte infiltration. Analyzed chemokines were expressed significantly higher in the Lcn2 wt setting at 2 h of reperfusion (P ≤ 0.05). The number of apoptotic cells observed in Lcn2−/− grafts was significantly higher than in the Lcn2 wt setting. Our results indicate that Lcn2 affects granulocyte infiltration in the reperfused graft by modulating the expression of chemokines, their receptors and the apoptotic rate.

New tools for studying old questions: antibodies for human diamine oxidase

Diamine oxidase (DAO) oxidatively deaminates histamine and other diamines. Due to the lack of antibodies for human DAO, many findings on this enzyme had not been confirmed in man. Therefore, we produced a series of monoclonal antibodies by immunizing mice with human DAO protein fragments expressed in vitro. Five different monoclonal antibodies specific for human DAO were obtained that do not recognize any other human protein and can detect DAO with 100-fold greater sensitivity than the most sensitive enzymatic assays currently available. Using these antibodies allowed confirming the expression and cellular localization of DAO in various human tissues such as kidney, intestine and placenta where the presence of the enzyme had previously been deduced from activity measurement and DAO mRNA analysis. Due to the high sensitivity of the novel monoclonal antibodies, DAO was also detected at sites that previously evaded unequivocal proof of DAO enzymatic activity such as the urine. On the other hand, with these antibodies it was possible to show that DAO is normally not present in human liver and blood serum. The new monoclonal antibodies not only allow a comprehensive quantitative evaluation of the expression of DAO at the cellular level in man but will also facilitate sensitive analyses of disease-associated alterations of this enzyme.

Exogenous Lipocalin 2 Ameliorates Acute Rejection in a Mouse Model of Renal Transplantation

Lipocalin 2 (Lcn2) is rapidly produced by damaged nephron epithelia and is one of the most promising new markers of renal injury, delayed graft function and acute allograft rejection (AR); however, the functional importance of Lcn2 in renal transplantation is largely unknown. To understand the role of Lcn2 in renal AR, kidneys from Balb/c mice were transplanted into C57Bl/6 mice and vice versa and analyzed for morphological and physiological outcomes of AR at posttransplantation days 3, 5, and 7. The allografts showed a steady increase in intensity of interstitial infiltration, tubulitis and periarterial aggregation of lymphocytes associated with a substantial elevation in serum levels of creatinine, urea and Lcn2. Perioperative administration of recombinant Lcn2:siderophore:Fe complex (rLcn2) to recipients resulted in functional and morphological amelioration of the allograft at day 7 almost as efficiently as daily immunosuppression with cyclosporine A (CsA). No significant differences were observed in various donor–recipient combinations (C57Bl/6 wild‐type and Lcn2−/−, Balb/c donors and recipients). Histochemical analyses of the allografts showed reduced cell death in recipients treated with rLcn2 or CsA. These results demonstrate that Lcn2 plays an important role in reducing the extent of kidney AR and indicate the therapeutic potential of Lcn2 in transplantation.

Histamine inactivation in the colon of pigs in relationship to abundance of catabolic enzymes

Objective. Catabolism of histamine plays a crucial role in the intestine in preventing intoxication by luminal histamine. Two enzymes are involved, namely histamine N-methyltransferase (HMT) and diamine oxidase (DAO). The purpose of this study was to find a link between histamine catabolism and the activities of HMT and DAO. Material and methods. Epithelia of porcine proximal colon were mounted in Ussing chambers. After mucosal addition of 3H-histamine (100 µmol·l−1) and 14C-mannitol, the appearance of non-catabolized histamine, 3H-histamine label (hist-rad) and 14C-mannitol label were measured in parallel on the serosal side. Activities of HMT and DAO were determined in the proximal colon and proximal jejunum. Results. Differences between the fluxes of histamine and hist-rad indicated catabolic conversion of 81.4±1.6% histamine during epithelial transit. Fluxes of hist-rad and histamine increased linearly with increasing mannitol fluxes but the percentage of catabolized histamine was not related to either mannitol or hist-rad fluxes. However, the percentage of catabolized histamine rose with increasing DAO activity. Given a negative correlation between DAO and HMT activities, the fraction of catabolized histamine decreased with increasing HMT activity. HMT activity was comparable in the colon and jejunum, but DAO activity was approximately nine times higher in the jejunum. Conclusions. Permeation, but not the relative efficiency of catabolism, of histamine depends on epithelial/paracellular tightness. While previous studies have shown that colonic HMT essentially catabolizes the bulk of histamine during permeation, DAO activity seems to be more variable and limiting for the overall efficiency of the catabolic process.

Diets High in Heat-Treated Soybean Meal Reduce the Histamine-Induced Epithelial Response in the Colon of Weaned Piglets and Increase Epithelial Catabolism of Histamine

We examined the influence of dietary fermentable protein (fCP) and fermentable carbohydrates (fCHO) on the colonic epithelial response to histamine in pigs. Thirty-two weaned piglets were fed 4 diets in a 2 × 2 factorial design with low fCP/low fCHO, low fCP/high fCHO, high fCP/low fCHO and high fCP/high fCHO. After 21-23 days, the pigs were killed and tissue from the proximal colon was stimulated with carbachol, histamine, PGE2 or sodium hydrogen sulphide in Ussing chambers. Changes in short-circuit current and tissue conductance were measured. Diamine oxidase, histamine N-methyltransferase, stem cell growth factor receptor, Fc-epsilon receptor I and cystic fibrosis transmembrane conductance regulator gene expression was determined. Activities of diamine oxidase and histamine N-methyltransferase and numbers of colonic mast cells were measured. The change in the short-circuit current in response to histamine was lower (P = 0.002) and tended to be lower for PGE2 (P = 0.053) in high fCP groups compared to low fCP groups, irrespective of fCHO. Additionally, the change in tissue conductance after the application of histamine was lower (P = 0.005) in the high fCP groups. The expression of histamine N-methyltransferase mRNA (P = 0.033) and the activities of diamine oxidase (P = 0.001) and histamine N-methyltransferase (P = 0.006) were higher with high fCP in comparison with low fCP. The expression of mast cell markers, stem cell growth factor receptor (P = 0.005) and Fc-epsilon receptor I (P = 0.049) was higher with high fCP diets compared to diets low in fCP, whereas the mast cell count did not differ between groups. The expression of the cystic fibrosis transmembrane conductance regulator was reduced (P = 0.001) with high fCP diets compared to low fCP diets. The lower epithelial response to histamine and PGE2 and elevated epithelial histamine inactivation suggests an adaptation to high fCP diets.

Functional characteristics of the porcine colonic epithelium following transportation stress and Salmonella infection

Objective. Stressful life events and infections contribute to gut disorders such as irritable bowel syndrome (IBS) and inflammatory bowel disease (IBD). We used a pig model to analyse whether this could be linked to altered mediator sensitivity of the epithelial lining. Material and Methods. Uninfected control pigs or pigs with subclinical Salmonella (S.) typhimurium DT 104 infection were killed either without (ConRest, InfRest) or with prior 8-h transportation (ConTrans, InfTrans). Short-circuit current (Isc), tissue conductance (Gt) and release of mast cell mediators were monitored in isolated colonic epithelia mounted in Ussing chambers. Epithelia were exposed to histamine (100 µM, mucosally), substance P (SP; 1 µM, serosally), calcimycin A23187 (1 µM, serosally) and theophylline (10 mM, bilaterally). Transepithelial flux of histamine and colonic activities of histamine N-methyltransferase (HMT) and diamine oxidase (DAO) were determined. Results. S. infection decreased baseline Isc, Gt and histamine fluxes, while transportation had no effect on these values. Mucosal histamine increased Isc only in ConTrans pigs. This was not associated with increased mucosal-to-serosal flux of histamine but with a 2-fold increased DAO activity. Serosal SP increased Isc only in transported animals, but the increase was six times higher in ConTrans versus InfTrans pigs. Effectiveness of SP was not dependent on the release of histamine or prostaglandin D2. A23187 and theophylline elicited increases in Isc that were not different between treatments. Conclusions. Transportation stress facilitates secretory responses of the colonic epithelium to SP and luminal histamine. This is suppressed by subclinical S. infection. Effects of S. infection on porcine colon resemble, in part, the known effects of an oral S. endotoxin application.

Characterization of diamine oxidase from human seminal plasma

Diamine oxidase (DAO) was purified to homogeneity from human seminal plasma by consecutive chromatographic fractionation on heparin-sepharose, phenyl-sepharose, CIM-QA, and Superdex 200. Human seminal plasma DAO behaves electrophoretically similar to DAO proteins from other human tissues and has very similar enzymatic properties with histamine and aliphatic diamines being the preferred substrates as well as significant conversion of polyamines. The cellular source and functional importance of DAO in human semen remain to be determined.