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The leading hypothesis of why organisms age is the “Free Radical Theory of Aging”, which states that the accumulation of reactive oxygen species (ROS), such as superoxide (O2•-) and hydrogen peroxide (H2O2), causes protein, lipid and DNA damage and leads to the observed age-related decline of cells and tissues. A major obstacle in analyzing the role of oxidative stress in aging organisms is the inability to precisely localize and quantify the oxidants, to identify proteins and pathways that might be affected, and ultimately, to correlate changes in oxidant levels with the lifespan of the organism. To directly monitor the onset and extent of oxidative stress during the lifespan of Caenorhabditis elegans, we utilized the fluorescent H2O2 sensor protein HyPer, which enabled us to quantify endogenous peroxide levels in different tissues of living animals in real time. We made the surprising observation that wildtype C. elegans is exposed to very high peroxide levels during development. Peroxide levels drop rapidly as the animals mature, and low peroxide levels then prevail throughout the reproductive age, after which an age-accompanying increase of peroxide level is observed. These results were in excellent agreement with findings obtained by using the highly quantitative redox proteomic technique OxICAT, which monitors the oxidation status of redox-sensitive proteins as read-out for onset, localization, and protein targets of oxidative stress. By using OxICAT, we detected increased protein thiol oxidation during the development of C. elegans and in aging animals. Many processes in C. elegans might potentially contribute to the elevated peroxide levels observed during development, including cuticle formation, apoptosis, proliferation, gametogenesis, or ROS signaling. The finding that all investigated C. elegans mutants regardless of their lifespan are exposed to high developmental peroxide levels argues for ROS accumulation to be a universal and necessary event. Yet, recovery from the early oxidative boost might determine the subsequent adult lifespan, as we found that long-lived daf-2 mutants transition faster to reducing conditions than short-lived daf-16 mutants, which retain higher peroxide levels throughout their mature life. These results suggest that changes in the cellular oxidant homeostasis, encountered at a very early stage in life, might determine subsequent redox levels and potentially the lifespan of organisms. Manipulation of developmental oxidant levels using glucose restriction or a short bolus of superoxide caused a disruption in developmental growth, a delay in reproduction, and a shortened lifespan. These results suggest that developmental oxidant levels are fine-tuned and optimized. Future experiments are aimed to investigate the sources of developmental hydrogen peroxide, and to elucidate whether active down-regulation of antioxidant enzymes during the larval period might foster peroxide accumulation. Preliminary results indicate that this might indeed be the case for peroxiredoxin 2, whose expression was significantly lower during development than at later stages in life. Finally, we investigated whether the observed variances in the developmental peroxide levels of individual worms within a synchronized wildtype population might be responsible for the observed significant variances in lifespan, and hence could serve as a predictor for adult lifespan. Preliminary results revealed that neither too low nor too high peroxide levels during development are beneficial for the lifespan of wildtype worms, suggesting that ROS level during development might be optimized for maximized lifespan. Future experiments aim to reveal the processes that are affected by ROS and which might influence the individual’s lifespan early in life.
Tetrasomy 9p is a rare chromosomal syndrome and about 30% of known cases exhibit mosaicism. Approximately 50 of the reported cases with tetrasomy 9p mosaicism show a characteristic facial appearance, growth failure, and developmental delay. However, 3 patients with mosaicism for isochromosome 9p and a normal phenotype have also been reported. We report 2 additional cases of clinically normal young females with tetrasomy 9p mosaicism, one of whom also exhibited X chromosome aneuploidy mosaicism leading to an overall of 6 different cell lines. STR analysis performed on this complex mosaic case indicated that the extra isochromosome was of maternal origin while the X chromosome aneuploidy was of paternal origin, indicating a postzygotic event.
Background: In postoperative sepsis, mortality is increased due to the surgically induced immune dysfunction. Further causes of this traumatic effect on the immune system include burn injuries and polytrauma, as well as endogenous traumata like stroke. Several animal models have been defined to analyse the characteristics of trauma-induced immune suppression. This article will correlate our results from animal studies and clinical observations with the recent literature on postoperative immune suppression. Methods: The previously described model of surgically induced immune dysfunction (SID) was performed in mice by laparotomy and manipulation of the small intestine in the antegrade direction. Blood samples were collected 6 and 72 h following SID to analyse the white blood cell count and corticosterone levels. To assess the postoperative immune status in humans, we analysed expression of HLA-DR on monocytes of 118 patients by flow cytometry prior to and 24, 48 and 72 h after surgery. Results: The postoperative immune suppression in our SID model is characterised by lymphocytopenia and significantly increased corticosterone levels in mice dependent on the degree of surgical trauma. This is comparable to the postoperative situation in humans: major and especially long-lasting surgery results in a significantly reduced expression of HLA-DR on circulating monocytes. Previous studies describe a similar situation following burn injury and endogenous trauma, i.e. stroke. Conclusions: We suggest the completion of our previously published sepsis classification due to the immune status at the onset of sepsis: type A as the spontaneously acquired sepsis and type B as sepsis in trauma-induced pre-existing immune suppression.
Indoloquinoline derivatives are very interesting compounds for pharmaceutical applications because of their broad spectrum of biological activity. However, phenyl-substituted indoloquinolines suffer from solubility problems in aqueous solution and require the synthesis of better soluble derivatives for their effective application. Therefore, the indoloquinoline derivatives were covalently attached to two different types of cationic aminoalkyl linkers. After having successfully established the synthesis and subsequent purification of the novel derivatives that could be isolated in excellent yields, these ligands were characterized in this thesis with regard to their spectral properties in different environments and their sequence specific binding to different types of nucleic acids with a variety of spectroscopic methods.
Background/Aims: Only rather few data on the validity of screening questionnaires to detect problem drinking in adolescents exist. The aim of this study was to compare the performance of the Alcohol Use Disorders Identification Test (AUDIT), its short form AUDIT-C, the Substance Module of the Problem Oriented Screening Instrument for Teenagers (POSIT), and CRAFFT (acronym for car, relax, alone, forget, family, and friends). Methods: The questionnaires were filled in by 9th and 10th graders from two comprehensive schools. All students received an interview using the alcohol section of the Composite International Diagnostic Interview. Alcohol abuse and alcohol dependence according to DSM-IV as well as episodic heavy drinking served as criteria to validate the screening instruments. Results: All 9th and 10th graders (n = 225) of both schools participated. No significant differences were found for areas under the receiver operating characteristic curves ranging from 0.810 to 0.872. Cronbach’s alpha was satisfactory (0.77–0.80) but poor for CRAFFT (0.64). Different cut-offs are discussed. Conclusions: Considering validity as well as reliability, AUDIT, AUDIT-C and POSIT performed well; however, the POSIT is quite lengthy. AUDIT-C showed good psychometric properties and has clear advantages because of its brevity.
I have investigated the role played by reactive oxygen species (ROS) generated by the phagocyte NADPH oxidase system in the innate immune response. I first looked at effector functions by asking whether ROS released from phagocytes might be effective in the killing of extracellular bacteria. Since bacteria can be killed in many other ways – for example by proteases or by cationic peptides – I made use of the recently demonstrated capacity of ROS to remove discontinuities from the surface of gold as the basis of an in vivo assay for extracellular ROS. Unlike bacterial killing, this readout system is not affected by enzymes, cationic peptides or other biological anti-bacterial agents. By this means I was able to use wild type mice and a congenic strain which lacks the gene coding for the gp91 subunit of the phagocyte NADPH oxidase to demonstrate that ROS generated by the NADPH oxidase system are indeed found outside the cells during an inflammation in vivo and that their principle source is neutrophil granulocytes rather than tissue macrophages. Since ROS released by these cells will be non-specific in its action it is to be expected that the releasing cell will itself suffer considerable damage. This fits well to the known short life of activated neutrophils and may explain the established fact that their death is dependent on the NADPH oxidase system. The long lived macrophages, in contrast, restrict their production of extracellular ROS. ROS are increasingly being found to be involved in both intra and intercellular signalling processes I looked for an involvement of NADPH oxidase derived ROS in the recruitment of neutrophils to sites of inflammation in vivo. Since the gene coding for the gp91 subunit of the NADPH oxidase is on the X chromosome I made use of a mosaic expression strategy based on X chromosomal inactivation. The results show that indeed ROS serves as a component of the neutrophil recruitment process in the critical early stages of an infection. Possible mechanisms are explored.
Acute pancreatitis is a common clinical inflammatory disease with variable severity from mild, self-limiting attacks to a severe lethal attack with a high mortality. In most of the cases, acute pancreatitis is either caused by gallstone obstruction or excessive alcohol consumption. Clinical symptoms include elevated levels (minimum 3 times than normal) of pancreatic enzymes such as amylase or lipase in serum. It is generally believed that earliest event in acute pancreatitis occur in acinar cells which includes premature protease activation and cytoplasmic vacuole formation. Premature trypsinogen activation has been considered as chief culprit as it can activate other proteases in a cascade like manner in acinar cells. Trypsin activity takes place in a biphasic curve with elevated levels at 1 h and 8 h in the initial stages up to 24 h in caerulein induced pancreatitis in mice. It has been shown that cytoplasmic vacuoles observed in pancreatitis are of autophagic nature. The role of autophagy for the disease onset and its role in trypsinogen is much of a debate. Hence, we studied the relation between autophagosome formation and trypsinogen activation in first 12h of pancreatitis. Although autophagosomes were found to be co-localised with trypsin in vivo, this was found to be a late event occuring only by 4 h. Substrate specific trypsin activity and western blotting from both sub-cellular fractions over the time course of pancreatitis and multiple fractions prepared from 1 h caerulein induced pancreatic tissue revealed that trypsin activity observed at 1 h occured in a zymogen enriched fraction. In line simultaneous confocal imaging of trypsin activity and autophagosome formation in hyperstimulated acini isolated from GFP-LC3 mice showed that both processes are independent and take place in parallel. Furthermore, protease inhibition by gabexate mesilate did not prevent autophagosome formation indicating that trypsinogen activation is not a prerequisite for vacuole formation. Even though, autophagosomes and active trypsin were found to be co-localised around 30 minutes to some degree upon cholecystokinin hyperstimulation, the earliest trypsin activation started to appear by 15 minutes and was independent of autophagosomes. The earliest active trypsin was found to be co-localised along with the cis-Golgi complex suggesting that the Golgi apparatus and its pre-condensed zymogen granules are the compartment responsible for the trypsinogen activation. 2) Protease activation in pancreatic acinar cells considered as the early hallmark event in the acute pancreatitis. However, the disease is aggravated by the infiltration of the leukocytes. Activated proteases mediate acinar cell injury and hereby cause the release of chemokines, which in turn attract inflammatory cells. Transmigrated inflammatory cells cause systemic damage that deteriorates the condition of the disease. Neutrophil elastase has been reported to be involved in the dissociation of cell-cell contact at adherens junctions by the extracellular cleavage of E-cadherin. This subsequently leads to transmigration of leukocytes into the epithelial tissue during the initial phase of experimental pancreatitis and aggravates the disease condition. On the other hand, pancreatic elastase substantially contributes to acinar cell necrosis. In this study, ZD0892, an orally bioavailable dual inhibitor against both elastases was tested for its efficacy to ameliorate severity in acute pancreatitis. ZD0892 orally fed mice showed increased survival compared to the control group in the taurocholate model of severe pancreatitis. In the initial stages of pancreatitis up to 24 h, the severity markers were found to be significantly lower in the inhibitor treated group. Treatment of mice with ZD0892 did not impede the defensive property of the leukocytes such as phagocytosis or oxidative burst. In caerulein induced pancreatitis, a mild form of acute pancreatitis, in rats, the local damage measured as serum amylase and lipase, wet dry ratio, and pancreatic myeloperoxidase levels were significantly lower in the inhibitor group. Systemic inflammatory parameters such as myeloperoxidase activity in lung was found to be significantly lower in the inhibitor fed rats. Inhibitor feeding resulted in lesser elastolytic activity compared to control group indicating that extracellular matrix was less damaged. Prophylactic treatment of pancreatitis with an orally available inhibitor with a dual specificity against pancreatic elastase and PMN-elastase was shown to ameliorate both local and systemic damage. Hence, in overall, ZD0892 treatment is proved to be beneficial to the mice and rats in experimental pancreatitis and should be considered for treatment in humans as the substance has been already studied in phase I and II trails for other indications.
Ribozymes for Aminoacylation
(2012)
Aminoacyl-tRNA synthetases (aaRS) are at the heart of modern translation, catalyzing the accurate biosynthesis of aminoacyl-tRNAs. According to the RNA world hypothesis, the early translation system should have aminoacylation ribozymes for RNA aminoacylation. For this, an aaRS ribozyme system, consisting of the KK13 ribozyme and the C3a ribozyme was successfully designed, which can perform both amino acid activation and aminoacyl transfer reaction. Generation of such aminoacylation ribozyme system would fill up the gap between the RNA world and the modern biological world. In addition, two types of diversified aminoacylation ribozymes, symmetrical ribozymes and self-assembling ribozymes were successfully developed, which may have great meaning in the origin of life.
Background: Among the five somatostatin receptors (sst<sub>1</sub>-sst<sub>5</sub>), the sst<sub>3</sub> receptor displays a distinct pharmacological profile. Like sst<sub>2</sub>, the sst<sub>3</sub> receptor efficiently internalizes radiolabeled somatostatin analogs. Unlike sst<sub>2</sub>, however, internalized sst<sub>3</sub> receptors are rapidly transferred to lysosomes for degradation. Apart from this, very little is known about the clinical relevance of the sst<sub>3</sub> receptor, which may in part be due to the lack of specific monoclonal sst<sub>3</sub> antibodies. Methods: Here, we have extensively characterized the novel rabbit monoclonal anti-human sst<sub>3</sub> antibody UMB-5 using transfected cells and receptor-expressing tissues. UMB-5 was then subjected to immunohistochemical staining of a series of 190 formalin-fixed, paraffin-embedded normal and neoplastic human tissues. Results: Specificity of UMB-5 was demonstrated by detection of a broad band migrating at a molecular weight of 70,000–85,000 in immunoblots from human pituitary. After enzymatic deglycosylation, the size of this band decreased to a molecular weight of 45,000. Tissue immunostaining was completely abolished by pre-adsorption of UMB-5 with its immunizing peptide. In addition, UMB-5 detected distinct cell populations in human tissues like pancreatic islands, anterior pituitary, adrenal cortex, adrenal medulla, and enteric ganglia, similar to that seen with a rabbit polyclonal antibody generated against a different carboxyl-terminal epitope of the sst<sub>3</sub> receptor. In a comparative immunohistochemical study, UMB-5 yielded predominant plasma membrane staining in the majority of pituitary adenomas, pheochromocytomas, and a subset of neuroendocrine tumors. The sst<sub>3</sub> receptor was also present in many glioblastomas, pancreatic, breast, cervix, and ovarian carcinomas. Conclusion: The rabbit monoclonal antibody UMB-5 may prove of great value in the identification of sst<sub>3</sub>-expressing tumors during routine histopathological examinations. Given its unique trafficking properties, these tumors may be potential candidates for sst<sub>3</sub>-directed receptor radiotherapy.
Quantum-Kinetic Modeling of Electron Release in Low-Energy Surface Collisions of Atoms and Molecules
(2012)
In this work we present a theoretical description of electron release in the collision of atomic and molecular projectiles with metallic and especially dielectric surfaces. The associated electron yield, the secondary electron emission coefficient, is an important input parameter for numerical simulations of dielectric barrier discharges and other bounded low-temperature gas discharges. The available reference data for emission coefficients is, however, very sparse and often uncertain, especially for molecular projectiles. With the present work we aim to contribute to the filling of these gaps by providing a flexible and easy-to-use model that allows for a convenient calculation of the emission coefficient and related quantities for a wide range of projectile-surface systems and the most dominant reaction channels.