Neuroprotection with the P53-Inhibitor Pifithrin-µ after Cardiac Arrest in a Rodent Model.

BACKGROUND: The small molecule pifithrin-µ reversibility inhibits the mitochondrial pathway of apoptosis. The neuronal effects of pifithrin-µ applied after cardiac arrest are unknown. We hypothesized that pifithrin-µ reduces neuronal damage in the most vulnerable brain region, the hippocampus, after cardiac arrest. METHODS: In two randomized controlled series we administered pifithrin-µ or control in 109 rats resuscitated after 8 or 10 min of cardiac arrest. Neuronal damage was blindly assessed with histology (Fluoro Jade B: FJB, cresyl violet: CV) in the most vulnerable brain region (CA1 segment of hippocampus) and with a series of neurobehavioral tests (Open Field Task, Tape-Removal Test, Morris Water Maze test). Mixed ANOVA was used to combine both series, simple comparisons were done with t tests or Mann-Whitney U test. RESULTS: Pifithrin-µ reduced the number of degenerating, FJB-positive neurons by 25% (mixed ANOVA p group = 0.014). This was more prominent after 8 min cardiac arrest (8 min arrest pifithrin-µ 94 ±â€Š47 vs control 128 ±â€Š37; n = 11 each; 10 min arrest pifithrin-µ 78 ±â€Š44, n = 15 vs control 101 ±â€Š31, n = 18; p group* arrest length interaction = 0.622). The reduction of ischemic CV-positive neurons in pifithrin-µ animals was not significant (ANOVA p group = 0.063). No significant group differences were found in neurobehavioral testing. CONCLUSION: Temporarily inhibition of apoptosis with pifithrin-µ after cardiac arrest decreases the number of injured neurons in the CA1 segment of hippocampus in a cardiac arrest rat model, without clinical correlate. Further studies should elucidate the role of this neuroprotective agent in different settings and with longer cardiac arrest.

Melatonin or ramelteon therapy differentially affects hepatic gene expression profiles after haemorrhagic shock in rat--A microarray analysis.

BACKGROUND & AIMS: Melatonin has been demonstrated to reduce liver damage in different models of stress. However, there is only limited information on the impact of this hormone on hepatic gene expression. The aim of this study was, to investigate the influence of melatonin or the melatonergic agonist ramelteon on hepatic gene expression profiles after haemorrhagic shock using a whole genome microarray analysis. METHODS: Male Sprague-Dawley rats (200-300 g, n=4/group) underwent haemorrhagic shock (mean arterial pressure 35±5 mmHg). After 90 min of shock, animals were resuscitated with shed blood and Ringer's and treated with vehicle (5% dimethyl sulfoxide), melatonin or ramelteon (each 1.0 mg/kg intravenously). Sham-operated animals were treated likewise but did not undergo haemorrhage. After 2 h of reperfusion, the liver was harvested, and a whole genome microarray analysis was performed. Functional gene expression profiles were determined using the Panther® classification system; promising candidate genes were evaluated by quantitative polymerase chain reaction (PCR). RESULTS: Microarray and PCR data showed a good correlation (r(2)=0.84). A strong influence of melatonin on receptor mediated signal transduction was revealed using the functional gene expression profile analysis, whereas ramelteon mainly influenced transcription factors. Shock-induced upregulation of three candidate genes with relevant functions for hepatocytes (ppp1r15a, dusp5, rhoB) was significantly reduced by melatonin (p<0.05 vs. shock/vehicle), but not by ramelteon. Two genes previously known as haemorrhage-induced (il1b, s100a8) were transcriptionally repressed by both drugs. CONCLUSIONS: Melatonin and ramelteon appear to induce specific hepatic gene expression profiles after haemorrhagic shock in rats. The observed differences between both substances are likely to be attributable to a distinct mechanism of action in these agents.

Melatonin receptors mediate improvements of survival in a model of polymicrobial sepsis.

OBJECTIVES: Melatonin has been demonstrated to improve survival after experimental sepsis via antioxidant effects. Yet, recent evidence suggests that this protective capacity may also rely on melatonin receptor activation. Therefore, the present study was designed to investigate whether selective melatonin receptor-agonist ramelteon may influence survival and immune response in a model of polymicrobial sepsis in rats, wild-type and melatonin receptor MT1/MT2 double knockout mice. DESIGN: Prospective, randomized, controlled study. SETTING: University research laboratory. SUBJECTS: Male Sprague-Dawley rats (200-250 g) and male C3H/HeN wild-type and MT1/MT2 receptor knockout mice (20-22 g). INTERVENTIONS: Animals underwent cecal ligation and incision and remained anesthetized for evaluation of survival for 12 hours (rats: n = 15 per group) or 15 hours (mice: n = 10 per group). Analysis of immune response by means of enzyme-linked immunosorbent assay was performed before and 5 hours after cecal ligation and incision (rats only; n = 5 per group). After induction of sepsis, animals were treated IV with vehicle, different doses of melatonin (rats: 0.01/0.1/1.0/10 mg/kg; mice: 1.0 mg/kg), ramelteon, melatonin receptor-antagonist luzindole, ramelteon + luzindole, or melatonin + luzindole (each 1.0 mg/kg). Sham controls underwent laparotomy but not cecal ligation and incision. MEASUREMENTS AND MAIN RESULTS: Compared with vehicle, administration of ramelteon or melatonin significantly improved median survival time in rats (sepsis/melatonin [0.1 mg/kg], 554 min, [1.0 mg/kg] 570 min, [10 mg/kg] 579 min; sepsis/ramelteon, 468 min; each p < 0.001 vs sepsis/vehicle, 303 min) and wild-type mice (sepsis/melatonin, 781 min; sepsis/ramelteon, 701 min; both p < 0.001 vs sepsis/vehicle, 435 min). This effect was completely antagonized by coadministration of luzindole in all groups. Melatonin, ramelteon, or luzindole had no significant effect on survival time in knockout mice. Significantly elevated concentrations of tumor necrosis factor-α, interleukin-6, and interleukin-10 were observed 5 hours after cecal ligation and incision in rats (p < 0.05 vs baseline and corresponding sham); neither ramelteon nor melatonin treatment significantly affected immune response. CONCLUSIONS: Melatonin receptors mediate improvements of survival after polymicrobial sepsis in rats and mice; this effect appears to be independent from major alterations of cytokine release.

Sample transport by pneumatic tube system alters results of multiple electrode aggregometry but not rotational thromboelastometry.

Pneumatic tube systems (PTS) present a convenient way for blood sample transport in medical facilities. Associated preanalytical interference in various tests is largely unknown. Implementing point-of-care coagulation management at our institution, we investigated multiple electrode aggregometry (MEA) and rotational thromboelastometry (ROTEM) after PTS transportation. Whole blood samples from patients undergoing general or trauma surgery were analysed by MEA after collection (baseline, '0 × PTS') and sent on a predefined PTS track (n = 12). MEA was repeated after samples travelled the track 4 ('4 × PTS'), 8 ('8 × PTS') and 12 times ('12 × PTS') and compared with stationary controls analysed at the same time. Samples for ROTEM (n = 6) were analysed after collection and travelling the track 12 times. An acceleration detector recorded g-forces on the PTS track. At '0 × PTS' no significant differences in MEA results were detected. Values were significantly lower for transported samples compared with controls ('4 × PTS' to '12 × PTS', p < 0.001). Furthermore, MEA results of PTS samples were significantly decreased for '4 × PTS' to '12 × PTS' compared to baseline (p < 0.001). Except for the clotting time in EXTEM PTS transport did not significantly alter results for investigated ROTEM parameters, compared with baseline and stationary controls. Acceleration detector readout revealed alternating g-forces between -6.3 and +5.9 during transport. PTS transport caused invalid results in MEA while only one ROTEM parameter was found to be affected in this study. Variable acceleration during transport provides a potential reason for platelet activation. The authors recommend sample transport by hand or the device to be placed patient-side when MEA is performed.

Fatal multiorgan failure associated with disseminated herpes simplex virus-1 infection: a case report.

Herpes simplex virus type 1 (HSV-1) infections cause typical dermal and mucosal lesions in children and adults. Also complications to the peripheral and central nervous system, pneumonia or hepatitis are well known. However, dissemination to viscera in adults is rare and predominantly observed in immunocompromised patients. Here we describe the case of a 70-year-old male admitted with macrohematuria and signs of acute infection and finally deceasing in a septic shock with multi organ failure 17 days after admission to intensive care unit. No bacterial or fungal infection could be detected during his stay, but only two days before death the patient showed signs of rectal, orolabial and genital herpes infection. The presence of HSV-1 was detected in swabs taken from the lesions, oropharyngeal fluid as well as in plasma. Post-mortem polymerase chain reaction analyses confirmed a disseminated infection with HSV-1 involving various organs and tissues but excluding the central nervous system. Autopsy revealed a predominantly retroperitoneal diffuse large B-cell lymphoma as the suspected origin of immunosuppression underlying herpes simplex dissemination.

Interaction of human immunodeficiency virus gp120 with the voltage-gated potassium channel BEC1.

Retrovirus replication critically depends on a dynamic interplay between retroviral and host proteins. We report on the binding of the surface subunit (glycoprotein 120 (gp120)) of the human immunodeficiency virus type 1 (HIV-1) envelope protein (Env) to the cytoplasmic C-terminus of the voltage-gated potassium channel BEC1 (brain-specific ether-a-go-go-like channel 1), an interaction that can result in the repression of BEC's activity and the inhibition of HIV-1 particle-release. BEC1 protein was found to be expressed in T cells and macrophages, the major target cells of HIV-1. Thus, gp120/BEC1 interaction may be involved in HIV-1 life cycle and/or pathogenesis.