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61.
Dorothee Rickert Marc O Scheithauer Saadet Coskun Andreas Lendlein Steffen Kelch Ralf-Peter Franke 《Biomedizinische Technik》2006,51(3):116-124
The stability and tight integration into adjacent tissue of a novel, degradable, elastic copolymer were examined in an animal model. The biomaterial was used for the reconstruction of a gastric wall defect in Sprague-Dawley rats (n=42) to test the polymeric material under the extreme chemical, enzymatical and mechanical conditions of the stomach. In the control group (n=21) the same defect of the gastric wall was primarily closed without biomaterial implantation. In the baseline group (n=21) the animals were kept under standard conditions without any surgical procedure. The implantation periods were 1 week, 4 weeks and 6 months. The animals' weight was determined preoperatively and before explantation. After explantation, air was pumped into the stomach and the pressure was measured by using a pressure-gauge in order to test whether the surgically produced union of the stomach wall and the polymer patch was gas-tight. After 1 week of implantation time a statistically significant increase of the body weight of the animals was found only in the baseline group. Four weeks and 6 months after the abdominal surgical procedure, a statistically significant increase of the animals' weight was found in the implantation group, the control and the baseline group. Gastrointestinal complications like fistula, perforation or peritonitis did not occur in any of the animals. The measurement of the stomach pressure after maximal gas insufflation did not show significant differences between the implantation group, the control and the baseline group in any of the time periods investigated. Despite very high strains of the gastric wall, no gas leakage was detected. There was a tight connection between the polymer and the adjacent stomach wall in all animals investigated. An adequate mechanical stability of the biomaterial was detectable under the extreme pathophysiological conditions of the stomach milieu. A fast and unfavourable degradation of the degradable polymer was not found in any of the animals. Further investigations are needed to analyse the mechanisms of the tissue integration of the biomaterial as well as the degradation kinetic of the polymer and the process of the tissue remodeling. The knowledge of these processes is necessary to adapt the novel biomaterial and thus prepare it for the use and implantation in different body locations and to develop novel therapeutical options in medicine. 相似文献
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63.
The spirochete Borrelia burgdorferi, the causative agent of Lyme disease, has an unusual genome comprised of a linear chromosome and the largest plasmid complement of any characterized bacterium. Certain plasmid-encoded elements are required for virulence and viability, both in vitro and in vivo. The genetic tools to manipulate B. burgdorferi are sufficiently developed for precise molecular genetic investigations. B. burgdorferi now represents a prime system with which to address basic questions of plasmid biology and plasmid contributions to bacterial virulence and disease pathogenesis. 相似文献
64.
Recent studies have revealed a novel mechanism of antigen cross-presentation by intercellular peptide transfer through gap junctions, which provides new insight about how the immune system recognizes and destroys viruses and tumor cells. At the site of infection or tumorigenesis, gap junctions provide an "information-sharing" channel through which viral- and tumor-derived peptides are transferred to professional antigen-presenting cells (APCs), leading to na?ve T-cell stimulation. Similarly, gap-junction-mediated peptide transfer from infected or malignant cells to neighboring cells incurs "collateral damage" by cytotoxic T cells, thereby limiting the spread of viruses or the progression of tumors. 相似文献
65.
66.
Daryl A. Bosco Elan Zohar Eisenmesser Michael W. Clarkson Wladimir Labeikovsky Oscar Millet Dorothee Kern 《Journal of molecular biology》2010,403(5):723-738
Peptidyl-prolyl isomerases (PPIases) are emerging as key regulators of many diverse biological processes. Elucidating the role of PPIase activity in vivo has been challenging because mutagenesis of active-site residues not only reduces the catalytic activity of these enzymes but also dramatically affects substrate binding. Employing the cyclophilin A PPIase together with its biologically relevant and natively folded substrate, the N-terminal domain of the human immunodeficiency virus type 1 capsid (CAN) protein, we demonstrate here how to dissect residue-specific contributions to PPIase catalysis versus substrate binding utilizing NMR spectroscopy. Surprisingly, a number of cyclophilin A active-site mutants previously assumed to be strongly diminished in activity toward biological substrates based only on a peptide assay catalyze the human immunodeficiency virus capsid with wild-type activity but with a change in the rate-limiting step of the enzymatic cycle. The results illustrate that a quantitative analysis of catalysis using the biological substrates is critical when interpreting the effects of PPIase mutations in biological assays. 相似文献
67.
Hanschmann EM Lönn ME Schütte LD Funke M Godoy JR Eitner S Hudemann C Lillig CH 《The Journal of biological chemistry》2010,285(52):40699-40705
The proteins from the thioredoxin family are crucial actors in redox signaling and the cellular response to oxidative stress. The major intracellular source for oxygen radicals are the components of the respiratory chain in mitochondria. Here, we show that the mitochondrial 2-Cys peroxiredoxin (Prx3) is not only substrate for thioredoxin 2 (Trx2), but can also be reduced by glutaredoxin 2 (Grx2) via the dithiol reaction mechanism. Grx2 reduces Prx3 exhibiting catalytic constants (K(m), 23.8 μmol·liter(-1); V(max), 1.2 μmol·(mg·min)(-1)) similar to Trx2 (K(m), 11.2 μmol·liter(-1); V(max), 1.1 μmol·(mg·min)(-1)). The reduction of the catalytic disulfide of the atypical 2-Cys Prx5 is limited to the Trx system. Silencing the expression of either Trx2 or Grx2 in HeLa cells using specific siRNAs did not change the monomer:dimer ratio of Prx3 detected by a specific 2-Cys Prx redox blot. Only combined silencing of the expression of both proteins led to an accumulation of oxidized protein. We further demonstrate that the distribution of Prx3 in different mouse tissues is either linked to the distribution of Trx2 or Grx2. These results introduce Grx2 as a novel electron donor for Prx3, providing further insights into pivotal cellular redox signaling mechanisms. 相似文献
68.
69.
Jutta Walstab Christian Hammer Felix Lasitschka Dorothee M?ller Christopher N. Connolly Gudrun Rappold Michael Brüss Heinz B?nisch Beate Niesler 《The Journal of biological chemistry》2010,285(35):26956-26965
Although five 5-hydroxytryptamine type 3 (5-HT3) subunits (A–E) have been cloned, knowledge on the regulation of their assembly is limited. RIC-3 has been identified as a chaperone specific for the pentameric ligand-gated nicotinic acetylcholine and 5-HT3 receptors. Therefore, we examined the impact of RIC-3 on differently composed 5-HT3 receptors with the focus on 5-HT3C, -D, and -E subunits. The influence of RIC-3 on these receptor subtypes is supported by the presence of RIC3 mRNA in tissues expressing at least one of the subunits 5-HT3C, -D, and -E. Furthermore, immunocytochemical studies on transfected mammalian cells revealed co-localization in the endoplasmic reticulum and direct interaction of RIC-3 with 5-HT3A, -C, -D, and -E. Functional and pharmacological characterization was performed using HEK293 cells expressing 5-HT3A or 5-HT3A + 5-HT3B (or -C, -D, or -E) in the presence or absence of RIC-3. Ca2+ influx analyses revealed that RIC-3 does not influence the 5-HT concentration-response relationship on 5-HT3A receptors but leads to differential increases of 5-HT-induced maximum response (Emax) on cells expressing different subunits. Increases of Emax were due to analogously enhanced Bmax values for binding of the 5-HT3 receptor antagonist [3H]GR65630. The observed enhanced cell surface expression of the tested 5-HT3 subunit combinations correlated with the increased surface expression of 5-HT3A as determined by flow cytometry. In conclusion, we showed that RIC-3 can interact with 5-HT3A, -C, -D, and -E subunits and predominantly enhances the surface expression of homomeric 5-HT3A receptors in HEK293 cells. These data implicate a possible role of RIC-3 in determining 5-HT3 receptor composition in vivo. 相似文献
70.
Tailspike Interactions with Lipopolysaccharide Effect DNA Ejection from Phage P22 Particles in Vitro
Dorothee Andres Christin Hanke Ulrich Baxa Ana?t Seul Stefanie Barbirz Robert Seckler 《The Journal of biological chemistry》2010,285(47):36768-36775
Initial attachment of bacteriophage P22 to the Salmonella host cell is known to be mediated by interactions between lipopolysaccharide (LPS) and the phage tailspike proteins (TSP), but the events that subsequently lead to DNA injection into the bacterium are unknown. We used the binding of a fluorescent dye and DNA accessibility to DNase and restriction enzymes to analyze DNA ejection from phage particles in vitro. Ejection was specifically triggered by aggregates of purified Salmonella LPS but not by LPS with different O-antigen structure, by lipid A, phospholipids, or soluble O-antigen polysaccharide. This suggests that P22 does not use a secondary receptor at the bacterial outer membrane surface. Using phage particles reconstituted with purified mutant TSP in vitro, we found that the endorhamnosidase activity of TSP degrading the O-antigen polysaccharide was required prior to DNA ejection in vitro and DNA replication in vivo. If, however, LPS was pre-digested with soluble TSP, it was no longer able to trigger DNA ejection, even though it still contained five O-antigen oligosaccharide repeats. Together with known data on the structure of LPS and phage P22, our results suggest a molecular model. In this model, tailspikes position the phage particles on the outer membrane surface for DNA ejection. They force gp26, the central needle and plug protein of the phage tail machine, through the core oligosaccharide layer and into the hydrophobic portion of the outer membrane, leading to refolding of the gp26 lazo-domain, release of the plug, and ejection of DNA and pilot proteins. 相似文献