Application of CFD modelling at a full-scale ozonation plant for the removal of micropollutants from secondary effluent.

Since November 2009, Germany's first full-scale ozonation plant for tertiary treatment of secondary effluent is in continuous operation. A kinetic model was developed and combined with the commercial computational fluid dynamics (CFD) software ANSYS(®) CFX(®) to simulate the removal of micropollutants from secondary effluents. Input data like reaction rate constants and initial concentrations of bulk components of the effluent organic matter (EfOM) were derived from experimental batch tests. Additionally, well-known correlations for the mass transfer were implemented into the simulation model. The CFD model was calibrated and validated by full-scale process data and by analytical measurements for micropollutants. The results show a good consistency of simulated values and measured data. Therewith, the validated CFD model described in this study proved to be suited for the application of secondary effluent ozonation. By implementing site-specific ozone exposition and the given reactor geometry the described CFD model can be easily adopted for similar applications.

Developmental expression of the GIRK family of inward rectifying potassium channels: implications for abnormalities in the weaver mutant mouse.

G-protein-gated inward rectifying potassium channels (GIRKs) are a newly identified gene family. These gene products are thought to form functional channels through the assembly of heteromeric subunits. Recently, it has been demonstrated that a point mutation in the GIRK2 gene, one of the GIRK family members, is the cause of the neurological and reproductive defects observed in the weaver (wv) mutant mouse. The mechanism(s) by which a single amino acid substitution in GIRK2 protein leads to the severe phenotypes in the wv / wv mouse is not fully understood. However, it implicates the importance of GIRK channels in neuronal development. To characterize the mRNA expression patterns of GIRK1-3 during mouse brain development we have used in situ hybridization analyses. We found that the expression of all three genes showed developmental regulation. In most areas that showed expression, the levels of GIRK1-3 transcripts reached their peak at around postnatal day 10 (P10). In general, GIRK1 showed the least fluctuation in its levels of expression during development, while dynamic changes were found with the levels of GIRK2 and GIRK3 transcripts. GIRK3 becomes the predominant inward rectifying K+-channel in the brain at later postnatal ages. In the CNS regions affected in the wv / wv mouse, GIRK2 is the predominant inward rectifying channel that is expressed. This suggests that the presence of the other subtypes are able to compensate for the mutated GIRK2 channel in weaver neurons that survive.

Basophil priming by neurotrophic factors. Activation through the trk receptor.

There is increasing evidence that nerve growth factor (NGF) acts on cells of the immune system, apart from its neurotrophic effects. In human basophils, NGF potentiates mediator release and primes the cells to produce leukotriene C4 in response to C5a. It is, however, unknown whether other homologous neurotrophins also act outside the nervous system, and whether activation of basophils by NGF requires interaction with trk tyrosine kinase receptors, the low affinity NGF receptor (LNGFR), or both. A triple mutant NGF designed to interrupt binding to the LNGFR was found to activate basophils with equal efficacy as wild-type NGF, demonstrating that the LNGFR is not necessary. Despite a 10 times lower potency of mutant NGF, no LNGFR expression was detected by FACS analysis. Brain-derived neurotrophic factor, which interacts with trkB, was inactive at concentrations up to 1000 ng/ml (> 30,000-fold lower potency than NGF), while neurotrophin-3, which is thought to interact with trkC, trkB, and more weakly with trk, induced a threshold effect at 300 ng/ml (approximately 10,000-fold lower potency), demonstrating that 1) the LNGFR cannot deliver a direct signal; and 2) basophils do not express functional trkB and trkC receptors. In agreement with the functional data, basophils (in contrast to other granulocyte types) expressed mRNA for trk, but not trkB or trkC, and no or minimal mRNA for LNGFR. These data demonstrate that human blood basophils express functional trk receptors that do not require the participation of LNGFR, and that, among the neurotrophin family, NGF is unique in priming basophils.

[Mycotic aneurysm of the posterior tibial artery and pseudo-phlebitis: contribution of color Doppler ultrasonography]. / Anévrisme mycotique de l'artère tibiale postérieure et pseudophlébite: apport de l'échographie Doppler couleur.

Mycotic aneurysm of the posterior tibial artery and pseudophlebitis: role of color Doppler sonography A case of a 78-year-old male patient presenting with endocarditis caused by Streptococcus bovis and pseudophlebitis of the left lower limb is described. Color Doppler sonography ruled out thrombophlebitis and showed a large pulsatile mass of the posterior compartment of the leg due to a mycotic aneurysm of the posterior tibial artery. This aneurysm was confirmed by angiography and treated by surgery. The important role of color Doppler sonography for the diagnosis of this particular case is emphasized.

Expression of functional trk tyrosine kinase receptors after T cell activation.

Increasing evidence indicates that nerve growth factor (NGF), in addition to its neurotrophic actions, exerts specific effects on cells of the immune system. This report show that the CD4-positive T cell line 9/6 expresses trk protooncogene, the signal transducing receptor unit for NGF, after TCR-mediated activation by Ag and APC. This receptor is of functional importance because interaction of NGF with Ag-stimulated 9/6 T cells induced the transcriptional activation of the c-fos gene, a hallmark of the biochemical response to NGF. Our findings that neither mitogen nor Ag stimulation induced the expression of the low affinity NGF receptor in 9/6 T cells indicate that trk alone is sufficient to mediate biologic activity of NGF in T lymphocytes.

Postnatal ontogeny of the neurotrophin receptors trk and trkB mRNA in rat sensory and sympathetic ganglia.

Using reverse transcription followed by polymerase chain reaction, we examined the expression of mRNA for the tyrosine kinase receptors trk and trkB in rat sensory and sympathetic ganglia during postnatal development. While the levels of both trk and trkB mRNA in the dorsal root ganglia (DRG) decreased two-fold, they increased by seven and two times, respectively, in superior cervical ganglia. The developmentally regulated and tissue-specific expression of trk and trkB genes suggest that peripheral ganglia differ in their responsiveness to neurotrophins in neonatal and adult rats. We found that the temporal pattern of trk expression in DRG neurons correlates with the observed age-dependent ability of nerve growth factor to induce the biosynthesis of the neuropeptide substance P.

Expression of nerve growth factor and nerve growth factor receptor tyrosine kinase Trk in activated CD4-positive T-cell clones.

Recent evidence suggests that nerve growth factor (NGF), in addition to its neurotrophic functions, acts as an immunomodulator mediating "cross-talk" between neuronal and immune cells, including T lymphocytes. We have analyzed murine CD4+ T-cell clones for their ability to express transcripts encoding NGF, low-affinity NGF receptor, and trk protooncogene, the signal-transducing receptor subunit for NGF. We show that two CD4+ T-helper (Th) clones, Th0-type clone 8/37 and Th2-type clone D10.G4.1, express NGF and Trk mRNA after appropriate activation with mitogen or with antigen and antigen-presenting cells. NGF and trk induction occurred to a similar extent and over a similar time course in activated 8/37 T cells, raising the possibility that NGF and trk genes are under coordinate control. NGF and NGF receptor expression does not seem to be a universal property of all activated CD4+ T cells, since Th1-type clone 9/9 did not express any of the transcripts after either stimulation. The absence of low-affinity NGF receptor mRNA in resting and activated T cells implies that the low-affinity NGF receptor is not involved in NGF signal transduction in CD4+ T cells. Our finding that activated CD4+ T-cell clones not only express Trk but also synthesize and release biologically active NGF implicates NGF as an autocrine and/or paracrine factor in the development and regulation of immune responses.

Expression of low-affinity NGF receptor and trkB mRNA in human SH-SY5Y neuroblastoma cells.

We have used the human neuroblastoma cell line SH-SY5Y as a model system to investigate the expression and regulation of the receptors for brain-derived neurotrophic factor (BDNF), a member of the nerve growth factor (NGF) family of neurotrophins. We demonstrate that SH-SY5Y cells express transcripts encoding the low-affinity NGF receptor (LNGFR) and trkB, the signal transducing receptor unit for BDNF. Interaction of BDNF with SH-SY5Y cells increased the transcription of the c-fos gene, showing that these molecules encode functional BDNF receptors. Our findings that differentiating agents such as retinoids and cAMP analogs increased the expression of LNGFR, but decreased trkB mRNA levels, suggest that LNGFR and trkB have different roles during neuronal differentiation.

Expression of functional trk protooncogene in human monocytes.

There is increasing evidence that neurotrophins, including nerve growth factor (NGF), exert specific effects on cells of the immune system in addition to their neurotrophic actions. This report shows that human monocytes express the trk protooncogene, encoding the signal-transducing receptor unit for NGF. This receptor is functional, since interaction of NGF with monocytes triggered a respiratory burst, the major component of monocyte cytotoxic activity. During in vitro differentiation of human blood monocytes to macrophages trk expression decreased, suggesting a maturation-dependent trk expression decreased, suggesting a maturation-dependent trk regulation. Treatment of monocytes with Staphylococcus aureus Cowan I, a potent activator of monocytes, stimulated trk mRNA synthesis in a time-dependent way, implying a modulatory role for NGF in immune functions. The finding that dibutyryl cAMP elicited a time-dependent trk induction in monocytes as well as in phorbol ester-differentiated promonocytic U937 cells indicates that adenylate cyclase is involved in monocytic trk regulation. These results suggest that NGF, in addition to its neurotrophic function, is an immunoregulatory cytokine acting on monocytes.

Measurement of human nerve growth factor binding sites in brain and in peripheral tissues by a specific immunoprecipitation assay.

Using a monoclonal antibody against the human nerve growth factor (NGF) receptor (20.4 IgG), a specific immunoprecipitation assay for the quantitation of human NGF binding sites has been established. The procedure involves specific labeling of NGF receptors by covalent crosslinking to 125I-NGF with a carbodiimide reagent, and subsequent immunoprecipitation of the detergent-extracted 125I-NGF-receptor complexes with the 20.4 IgG. This two-site assay provides a specific method to measure NGF binding sites in peripheral tissues and central nervous system. Moreover, it allows analysis of the immunoprecipitated receptor species by sodium dodecyl sulfate polyacrylamide gel electrophoresis. The finding that specific NGF binding sites are expressed on human neuronal and nonneuronal tissues, including lymphoid tissues, indicates that NGF exerts a broader physiological function than originally ascribed.

Nerve growth factor induces growth and differentiation of human B lymphocytes.

Nerve growth factor (NGF) is known to affect peripheral sympathetic and sensory neurons as well as defined populations of neurons in the central nervous system. This paper presents evidence that NGF is also active in modulation of B-cell-mediated immune responses. NGF receptors were immunoprecipitated from highly purified human B-cell populations, and to a lesser extent, from T-cell populations, by using a monoclonal antibody recognizing NGF receptors present on neural cells. NGF receptors were also detected in significant amounts in human spleen and lymph node tissue. In addition, NGF induced a dose-dependent increase in B-cell DNA synthesis as determined by incorporation of [3H]thymidine. This B-cell growth-promoting activity was inhibited by a neutralizing anti-NGF monoclonal antibody. Immunoglobulin secretion, principally affecting IgM synthesis, was also modulated by NGF. The concentrations that affected B-cell proliferation are consistent with the presence of functional high-affinity NGF receptors. The results suggest that NGF, in addition to its neurotrophic function, also acts as an immunoregulatory cytokine.

Neuronotrophic factors released by C6 glioma cells.

Glial cells have been shown previously to release factors that promote survival of central and peripheral neurons [neuronotrophic factors (NTFs)]. We have investigated the release of NTFs by C6 cells, a rat glioma cell line, under different modes of conditioning. Media conditioned in the presence or absence of serum [C6 cell conditioned media (C6CMs)] were analyzed using biological, biochemical, and immunological assays. We report that (a) nuclear and cytoskeletal proteins were not present in C6CMs, indicating that C6CM proteins result from release by C6 cells rather than from cell death; (b) C6CM contained 1-3 micrograms protein/ml, corresponding to a secretion rate of about 0.5 pg protein per cell and day; (c) C6CM contained the neurite-promoting factor laminin and low amounts of nerve growth factor; (d) the presence of fetal calf serum in the culture medium was essential for synthesis and release of NTFs; and (e) our C6CM contained at least three NTFs differing by their temporal secretory patterns and three NTFs differing by biochemical properties, indicating that C6 cells produce and secrete six different NTFs. Within these, nerve growth factor seems to be the only established NTF.

Substance P modulates the release of locally synthesized nerve growth factor from rat saphenous nerve neuroma.

In saphenous nerve neuromata of adult rats a long-term increase of immunoreactive nerve growth factor (irNGF) was detected after nerve transection. The occurrence of messenger RNA encoding NGF (NGF mRNA) in these proximal nerve stumps indicates local biosynthesis of NGF. In situ superfusion of neuromata revealed a constant release of irNGF which was significantly reduced by substance P (SP) but not affected by calcitonin gene related peptide (CGRP). We therefore suggest that SP may modulate the availability of NGF in the microenvironment of the regenerating nerve fiber endings.

o-Isothiocyanate dihydropyridine (oNCS-DHP), a long-acting, reversible inhibitor of the Ca++ channel.

The binding characteristics and pharmacological properties of o-isothiocyanate dihydropyridine [oNCS-DHP; 2,6-dimethyl-3,5-dicarbomethoxy-4-(2-isothiocyanatophenyl)-1, 4-dihydropyridine] were investigated in guinea pig heart and ileum. [3H]oNCS-DHP bound to a single population of high-affinity sites (Bmax = 107 fmol/mg of protein and Kd = 0.99 nM) in cardiac membranes, with a specificity characteristic of dihydropyridine receptors. After incubation of membranes with the tracer (0.5 nM), addition of excess nifedipine (1 microM) caused a dissociation of [3H]oNCS-DHP from its binding site. The reversibility of [3H]oNCS-DHP binding was confirmed by the lack of affinity labeling of cardiac membranes as determined by sodium dodecylsulfate-polyacrylamide gel electrophoresis. oNCS-DHP inhibited the inward Ca++ current of isolated guinea pig cardiac myocytes as determined in voltage-clamp experiments. In isolated perfused guinea pig hearts, oNCS-DHP caused a concentration-dependent increase in coronary artery flow and a decrease in left ventricular pressure. The effects of the highest concentration (0.3 microM) were still near maximal after a 1-h washout. Suppression of K+ depolarization-induced contractures of isolated ileal longitudinal muscle strips by oNCS-DHP remained maximal even after 5 h of washout. In all of the three biological test systems investigated, the Ca++ channel activator Bay K 8644 caused a complete and rapid reversal of the inhibitory effects of oNCS-DHP. Thus, it can be concluded that oNCS-DHP does not bind irreversibly to Ca++ channel dihydropyridine receptors in guinea pig heart and ileum. However, the o-isothiocyanatophenyl substituent on the dihydropyridine molecule confers upon the compound a very long duration of Ca++ channel blocking activity.