Control of heterocyst and nitrogenase synthesis in cyanobacteria.
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The development of the heterocyst by filamentous nitrogen-fixing cyanobacteria provides an attractive model system for studying cellular differentiation. Heterocyst synthesis is repressed by the presence of exogenous combined nitrogen. In this report, it is shown that the tryptophan analog, D,L-7-azatryptophan (Aza-T), is capable of relieving the repressive effect of exogenous NH4NO3 on heterocyst and nitrogenase synthesis. In nitrogen-fixing cultures, the presence of 20 micron Aza-T increases the heterocyst frequency twofold. The glutamate analog, L-methionine-D,L-sulfoximine (MSX), has also been shown to cause a derepression in the synthesis of heterocysts and nitrogenase. However, unlike MSX, Aza-T does not appear to exert its effects by inhibiting the activity of glutamine synthetase. Therefore, glutamine synthetase may not be the sole key to the derepression of heterocyst and nitrogenase development in the cyanobacteria. It is hoped that a study of Aza-T action may lead to the elucidation of a novel control mechanism. (+info)
Reduced crystallization inhibition by urine from men with nephrolithiasis.
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BACKGROUND: Human urine is known to inhibit growth, aggregation, nucleation, and cell adhesion of calcium oxalate monohydrate (COM) crystals, the main solid phase of human kidney stones. This study tests the hypothesis that low levels of inhibition are present in men with calcium oxalate stones and could therefore promote stone production. METHODS: In 17 stone-forming men and 17 normal men that were matched in age to within five years, we studied the inhibition by dialyzed urine proteins of COM growth, aggregation, and binding to cultured BSC-1 renal cells, as well as whole urine upper limits of metastability (ULM) for COM and calcium phosphate (CaP) in relationship to the corresponding supersaturation (SS). RESULTS: Compared with normals, patient urine showed reduced COM growth inhibition and reduced ULM in relationship to SS. When individual defects were considered, 15 of the 17 patients were abnormal in one or more inhibition measurements. ULM and growth inhibition defects frequently coexisted. CONCLUSIONS: Reduced COM growth and CaP and CaOx ULM values in relationship to SS are a characteristic of male stone formers. Both defects could promote stones by facilitating crystal nucleation and growth. Abnormal inhibition may be a very important cause of human nephrolithiasis. (+info)
Gene transfer mediated by fusion protein hemagglutinin reconstituted in cationic lipid vesicles.
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Hemagglutinin, the membrane fusion protein of influenza virus, is known to mediate a low-pH-dependent fusion reaction between the viral envelope and the limiting membrane of the endosomal cell compartment following cellular uptake of the virus particles by receptor-mediated endocytosis. Here we exploited this activity of hemagglutinin to achieve efficient gene delivery to cultured cells. Hemagglutinin was reconstituted in the presence of the monocationic lipid dioleoyldimethylammonium chloride (DODAC) to permit plasmid binding to the virosome surface. Virosomes with 30 mol% DODAC exhibited a distinct binding capacity for plasmid without causing aggregation. The virosome fusion activity was not affected by the cationic lipid DODAC as demonstrated by low-pH-dependent lipid mixing with erythrocyte ghosts. Efficient cell transfection of BHK-21 cells was observed with virosomes containing 30 mol% DODAC and plasmid encoding for beta-galactosidase (pCMV beta-gal) associated to their surface. The transfection activity observed was dependent on the functional activity of hemagglutinin. Contrary to DNA/cationic lipid complexes the transfection was not dependent on the cationic lipid to DNA charge ratio. Importantly, transfection of BHK-21 cells with pCMV beta-gal by DODAC-containing virosomes did not show any significant signs of cytotoxicity that is commonly observed with DNA/cationic lipid complexes. Together with the high levels of expression of the transgene this highlights the potential of DODAC-containing virosomes as a novel approach in nonviral gene transfer. (+info)
Immunotherapy of advanced malignancy by direct gene transfer of an interleukin-2 DNA/DMRIE/DOPE lipid complex: phase I/II experience.
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PURPOSE: We have completed a phase I study, followed by three phase I/II studies, in patients with metastatic melanoma, renal cell carcinoma (RCC), and sarcoma in order to evaluate the safety, toxicity, and antitumor activity of Leuvectin (Vical Inc, San Diego, CA), a gene transfer product containing a plasmid encoding human interleukin (IL)-2 formulated with the cationic lipid 1, 2-dimyristyloxypropyl-3-dimethyl-hydroxyethyl ammonium bromide/dioleyl-phosphatidyl-ethanolamine (DMRIE/DOPE) and administered intratumorally. PATIENTS AND METHODS: Twenty-four patients were treated in the phase I study. Leuvectin doses were 10 microg, 30 microg, or 300 microg weekly for 6 weeks. In three subsequent phase I/II studies, a total of 52 patients (18 with melanoma, 17 with RCC, and 17 with sarcoma) were treated with further escalating doses of Leuvectin: 300 microg twice a week for 3 weeks, 750 microg weekly for 6 weeks, and 1,500 microg weekly for 6 weeks. RESULTS: There were no drug-related grade 4 toxicities and only one grade 3 toxicity, but the majority of patients experienced mild constitutional symptoms after treatment. In the phase I/II studies, 45 patients were assessable for response (14 with RCC, 16 with melanoma, and 15 with sarcoma). Two patients with RCC and one with melanoma have achieved partial responses lasting from 16 to 19 months and continuing. In addition, two RCC, three melanoma, and six sarcoma patients had stable disease lasting from 3 to 18 months and continuing. The plasmid was detected by polymerase chain reaction assay in the posttreatment samples of 29 of 46 evaluated patients. Immunohistochemistry studies on serial biopsy specimens showed increased IL-2 expression and CD8(+) infiltration after treatment in the tumor samples of several patients (12 and 16, respectively). CONCLUSION: Direct intratumoral injection of Leuvectin is a safe and possibly effective immunotherapeutic approach in the treatment of certain tumor types. (+info)
A preferential pole for exocytosis in cultured chromaffin cells revealed by confocal microscopy.
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Histological studies suggest that adrenal medulla chromaffin cells in situ are polarised, but functional evidence is lacking. We present here the first demonstration for polarisation of exocytosis in isolated, spherical, bovine chromaffin cells. Cells were stimulated with 70 mM K(+) to cause a marked enhancement of catecholamine release, monitored amperometrically. FM1-43 and dopamine beta-hydroxylase antibodies provided fluorescence confocal pictures that were 2-3-fold more intense in the bottom of the cells, as compared to equatorial or apex planes. This suggests that the solid phase to which the cell attaches serves as a 'trophic' signal for the polarisation of its secretory apparatus. (+info)
Block of gating currents related to K+ channels as a mechanism of action of clofilium and d-sotalol in isolated guinea-pig ventricular heart cells.
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1 The possibility that the class III antiarrhythmic drugs clofilium and d-sotalol might affect delayed rectifier potassium channels at the level of their gating currents was assessed with the whole-cell patch-clamp technique in guinea-pig isolated ventricular heart cells. 2 Clofilium (up to 20 microM) and d-sotalol (1 microM) did not decrease the Na current, the L-type Ca current or the background K current iKl, but significantly depressed the time-dependent delayed outward K current iK. 3 Clofilium partially decreased in a dose-dependent manner (1-20 microM) QON of intramembrane charge movements (ICM) elicited by a depolarizing pulse applied from a holding potential of -110 mV or following a 100 ms inactivating prepulse to -50 mV. D-sotalol (1 microM) also decreased QON. Channel density estimated from the clofilium-sensitive ICM closely matched that of the delayed rectifier channels. 4 Clofilium and d-sotalol decreased QOFF seen on repolarization in a dose- and voltage-dependent manner. The kinetics of the decay of the OFF gating currents were not affected, and only the fast phase was depressed. 5 In control conditions, QON availability with voltage was most of the time well described by two inactivating components. In the presence of clofilium and d-sotalol, a complex behaviour of QON availability was observed, unmasking additional components. The reactivation kinetics of QON after a 500 ms inactivating pulse to 0 mV was not affected. 6 We conclude that delayed rectifier K channels significantly contribute to QON and QOFF of ICM in guinea-pig ventricular heart cells, besides Na and Ca channels, and that clofilium and d-sotalol directly interact with these K channels proteins by affecting their gating properties. (+info)
The effect of S-layer protein adsorption and crystallization on the collective motion of a planar lipid bilayer studied by dynamic light scattering.
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A dedicated dynamic light scattering (DLS) setup was employed to study the undulations of freely suspended planar lipid bilayers, the so-called black lipid membranes (BLM), over a previously inaccessible spread of frequencies (relaxation times ranging from 10(-2) to 10(-6) s) and wavevectors (250 cm(-1) < q < 38,000 cm(-1)). For a BLM consisting of 1,2-dielaidoyl-sn-3-glycero-phosphocholine (DEPC) doped with two different proportions of the cationic lipid analog dioctadecyl-dimethylammonium bromide (DODAB) we observed an increase of the lateral tension of the membrane with the DODAB concentration. The experimentally determined dispersion behavior of the transverse shear mode was in excellent agreement with the theoretical predictions of a first-order hydrodynamic theory. The symmetric adsorption of the crystalline bacterial cell surface layer (S-layer) proteins from Bacillus coagulans E38-66 to a weakly cationic BLM (1.5 mol % DODAB) causes a drastic reduction of the membrane tension well beyond the previous DODAB-induced tension increase. The likely reason for this behavior is an increase of molecular order along the lipid chains by the protein and/or partial protein penetration into the lipid headgroup region. S-layer protein adsorption to a highly cationic BLM (14 mol % DODAB) shows after 7 h incubation time an even stronger decrease of the membrane tension by a factor of five, but additionally a significant increase of the (previously negligible) surface viscosity, again in excellent agreement with the hydrodynamic theory. Further incubation (24 h) shows a drastic increase of the membrane bending energy by three orders of magnitude as a result of a large-scale, two-dimensional recrystallization of the S-layer proteins at both sides of the BLM. The results demonstrate the potential of the method for the assessment of the different stages of protein adsorption and recrystallization at a membrane surface by measurements of the collective membrane modes and their analysis in terms of a hydrodynamic theory. (+info)
Intrinsic optical signals in rat hippocampal slices during hypoxia-induced spreading depression-like depolarization.
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In interfaced rat hippocampal slices spreading depression (SD) and hypoxia-induced SD-like depolarization are associated with increased light reflectance and decreased light transmittance, indicating increased light scattering. By contrast, mild hypotonicity or electrical stimulation decrease light scattering, which is usually taken to be caused by cell swelling. This difference has been attributed to experimental conditions, but in our laboratory moderate osmotic challenge and SD produced opposite intrinsic optical signals (IOSs) in the same slice under identical conditions. To decide whether the SD-induced IOS is related to cell swelling, we investigated the effects of Cl(-) transport inhibitors and Cl(-) withdrawal on both light reflectance and transmittance, as well as on changes in interstitial volume and tissue electrical resistance. In normal [Cl(-)](o), early during hypoxia, there was a slight decrease in light reflectance paired with increase in transmittance. At the onset of hypoxic SD, coincident with the onset of cell swelling (restriction of TMA(+) space), the IOS signals suddenly inverted, indicating sharply increased scattering. The SD-related IOSs started in a single spot and spread out over the entire CA1 region without invading CA3. Application of 2 mM furosemide decreased IOS intensity. When [Cl(-)](o) was substituted by methylsulfate or gluconate, the SD-related reflectance increase and transmittance decrease were suppressed and replaced by opposite signals, indicating scattering decrease. Yet Cl(-) withdrawal did not prevent cell swelling measured as shrinkage of TMA(+) space. The SD-related increase of tissue electrical resistance was reduced when bath Cl(-) was replaced by methylsulfate and almost eliminated when replaced by gluconate. The TMA(+) signal is judged to be a more reliable indicator of interstitial space than tissue resistance. Neither application of cyclosporin A nor raising [Mg(2+)](o) depressed the SD-related reflectance increase, suggesting that Cl(-) flux through mitochondrial "megachannels" may not be a major factor in its generation. Fluoroacetate poisoning of glial cells (5 mM) accelerated SD onset and enhanced the SD-induced reflectance increase threefold. This suggests, first, that glial cells normally moderate the SD process and, second, that neurons are the predominant generators of the light-scattering increase. We conclude that light scattering by cerebral tissue can be changed by at least two different physical processes. Cell swelling decreases light scattering, whereas a second process increases scattering. During hypoxic SD the scattering increase masks the swelling-induced scattering decrease, but the latter is revealed when Cl(-) is removed. The scattering increase is Cl(-) dependent, nevertheless it is apparently not related to cell volume changes. Its underlying mechanism is as yet not clear; possible factors are discussed. (+info)