A labile regulatory copper ion lies near the T1 copper site in the multicopper oxidase CueO

CueO, a multicopper oxidase, is part of the copper-regulatory cue operon in Escherichia coli, is expressed under conditions of copper stress and shows enhanced oxidase activity when additional copper is present. The 1.7-A resolution structure of a crystal soaked in CuCl2 reveals a Cu(II) ion bound to the protein 7.5 A from the T1 copper site in a region rich in methionine residues. The trigonal bipyramidal coordination sphere is unusual, containing two methionine sulfur atoms, two aspartate carboxylate oxygen atoms, and a water molecule. Asp-439 both ligates the labile copper and hydrogen-bonds to His-443, which ligates the T1 copper. This arrangement may mediate electron transfer from substrates to the T1 copper. Mutation of residues bound to the labile copper results in loss of oxidase activity and of copper tolerance, confirming a regulatory role for this site. The methionine-rich portion of the protein, which is similar to that of other proteins involved in copper homeostasis, does not display additional copper binding. The type 3 copper atoms of the trinuclear cluster in the structure are bridged by a chloride ion that completes a square planar coordination sphere for the T2 copper atom but does not affect oxidase activity.     

Intracellular signaling leads to the hypertrophic effect of neuropeptide Y

Signal transduction pathways involved in the hypertrophic effectof neuropeptide Y (NPY) were investigated in adult cardiomyocytes. Reduction of transforming growth factor- activity inserum-supplemented media abolished the induction of hypertrophicresponsiveness to NPY. In responsive cells, NPY (100 nM) increasedprotein synthesis, determined as incorporation of[¹⁴C]phenylalanine, by35 ± 15% (P < 0.05, n = 16 cultures). In these cells, NPYactivated pertussis toxin (PTx)-sensitive G proteins andphosphatidylinositol (PI) 3-kinase. PTx and inhibition of PI 3-kinaseabolished the hypertrophic effect of NPY. NPY also activated proteinkinase C (PKC) and mitogen-activated protein (MAP) kinase. Inhibitionof these two kinases attenuated the induction of creatine kinase(CK)-BB but not the growth response to NPY. In conclusion, NPYstimulates protein synthesis in adult cardiomyocytes via activation ofPTx-sensitive G proteins and PI 3-kinase and it induces the fetal-typeCK-BB via activation of PKC and MAP kinase.

     

The effect of fumonisin B1 on developing chick embryos: correlation between de novo sphingolipid biosynthesis and gross morphological changes

Fumonisins, mycotoxins produced byFusarium moniliforme and a number of other fungi, are potent inhibitors of the sphinganine-N-acyltransferase, a key enzyme of sphingolipid biosynthesis, and cause neuronal degeneration, liver and renal toxicity, cancer and other injury to animals.In this study we investigated the effect of fumonisin B₁ on the sphingolipids of developing chick embryos. After yolk sac injection of fumonisin B₁ a concentration and time dependent increase of the sphinganine-over-sphingosine ratio of the embryos could be demonstrated. Studies were done to evaluate the effect of fumonisin B₁ on the glycosphingolipid pattern of the chick embryos. In the presence of 72 µg fumonisin B₁ per egg the incorporation of [¹⁴C]galactose and of [¹⁴C]serine into embryonic glycosphingolipids was reduced by about 70%, although the mass of glycosphingolipids was not affected by the toxin. However, a reduction of the wet weight of the treated embryos was observed. Additionally, histological examinations of whole embryo sections of control and fumonisin B₁ treated embryos are presented. Fumonisin B₁ caused haemorrhages under the skin as well as in the liver of treated embyros. A close correlation between disruption of sphingoid metabolism and light microscopic detectable tissue lesions could be observed.Abbreviations Cer ceramide (N-acylsphingosine) - FB₁ fumonisin B₁ - GM3 NeuAc23Gal14Glc11Cer - GD3 NeuAc28NeuAc23Gal14Glc11Cer - GD1a NeuAc23Gal13GalNAc14(NeuAc23)Gal14Glc11Cer - GT1b NeuAc23Gal13GalNAc14(NeuAc28NeuAc23) Gal14Glc11Cer - HPLC high pressure liquid chromatography - PBS phosphate buffered saline - PDMP 1-phenyl-2-dodecanoylamino-3-morpholino-1-propanol - Sa sphinganine - So sphingosine - Sa/So sphinganine-over-sphingosine - TLC thin layer chromatography - Tris Tris(hydroxymethyl)aminomethan Dedicated to Dr Sen-itiroh Hakomori in celebration of his 65th birthday.     

Intramolecular homologous recombination in Bacillus subtilis 168

Summary Ribosomal protein synthesis is regulated by controlling the fraction of mRNA associated with polysomes. It is known that this value changes in different developmental stages during Xenopus embryogenesis or, more generally, with changing cell growth conditions. We present here an analysis of the proportion of mRNA loaded on polysomes, carried out with probes for five different ribosomal proteins on several batches of Xenopus embryos obtained from different individuals. The results obtained indicate the existence of probe-dependent and individual differences, which reflect genetic variations in the cis- and trans-acting regulatory elements responsible for translational regulation. The fraction of ribosomal protein mRNA loaded onto polysomes can be used as an index of an individual's capacity for ribosome production.     

Isolation and characterisation of metribuzin-resistant Chlamydomonas reinhardii cells

Chlamydomonas reinhardii cells were treated with 5-fluorodeoxyuridine and ethylmethanesulfonate to induce mutagenesis. The mutant cells were analyzed for resistance against metribuzin (4-amino-6-(t-butyl)-3-methylthio-1,2,4-triazine-5-one). Clones with normal growth were isolated and the mutant cells further characterized. The photosynthetic rates of the mutant cells were about 20% lower than those of wild-type cells. The mutant cells were not only resistant against metribuzin (pI₅₀ lowered from 6.65 to 3.41) but also against bromacil, atrazine, phenisopham and tolerant against 3-(3,4-dichlorophenyl)-1,1-dimethylurea. However, the mutant was more susceptible to phenolic electron-transport inhibitors like bromonitrothymol, ioxynil and i-dinoseb. 2,4-Dinitrophenyl-2′-iodo-3′-methyl-4′-nitro-6′-isopropyl phenyl ether inhibited the wild-type thylakoids more than the mutant. The analysis of the electron transport with artificial electron donors and acceptors showed that only Photosystem II was affected by the mutation and not Photosystem I. Binding experiments with isolated thylakoids of resistant and susceptible cells using [¹⁴C]metribuzin and [³H]-i-dinoseb revealed that metribuzin did not bind specifically to the thylakoids of the mutant cells, but that i-dinoseb did bind to the thylakoids of the mutant, and even better than to the thylakoids of the wild-type cells. Fluorescence studies confirmed these results.     

Aspartate aminotransferases ofPanicum miliaceum L. andPanicum antidotale retz.

L-Aspartate: 2-oxoglutarate transaminase was isolated and partially purified from leaves ofPanicum miliaceum (C₄, NAD-malic enzyme type) and ofPanicum antidotale (C₄, NADP-malic enzyme type). In each preparation two isoenzymes with different kinetic properties could be characterized. The enzyme activity was irreversibly inhibited by 2-aminooxyacetic acid and by 2-amino-4-methoxy-3-butenoic acid. The first inhibitor reacted with pyridoxal 5-phosphate, and its inhibition could be reversed by the exchange of the modified coenzyme. The second inhibitor binds not only to the coenzyme pyridoxal 5-phosphate, but also to the apoprotein. The results of the dissociation and reconstitution experiments were in agreement with the kinetic data, showing that the mode of inactivation was different for 2-aminooxyacetic acid and 2-amino-4-methoxy-3-butenoic acid.     

Effects of glycidate on carbon dioxide fixation with isolated spinach chloroplasts

Glycidate (2,3-epoxypropionate) stimulated CO₂ fixation in isolated spinach chloroplasts up to 100%. In the presence of glycidate the initial lag phase was abolished and the chloroplasts exported mainly 3-phosphoglycerate instead of dihydroxyacetone phosphate.     

A bidirectional Tet-dependent promotor construct regulating the expression of E1A for tight control of oncolytic adenovirus replication

Tight regulation of oncolytic adenoviruses (oAdV) represents an important requirement for their safe application. Here we describe a new doxycycline (Dox)-dependent oAdV with a bidirectional expression cassette, which drives the expression of the reverse tetracycline-controlled transactivator (rtTA(s)-M2) from a lung tumor-specific promoter and, in the opposite direction, the expression of the adenoviral E1A gene from a second generation TetO(7) sequence linked to an isolated TATA box. In H441 lung cancer cells, this oAdV showed a strictly Dox-dependent E1A expression, adenoviral replication, cell killing activity and a 450-fold induction of progeny virus production. The virus could be shut off again by withdrawal of Dox and, in contrast to a control oAdV expressing E1A directly from the SP-B promoter, did not replicate in non-target cells. However, the absolute values of virus production and the cell killing activity in the presence of the inducer were still reduced as compared to the control oAdV. The results demonstrate, for the first time, Dox-dependent oAdV replication from a single adenoviral vector genome. Future improvement of the Dox-dependent E1A regulation cassette should lead to the generation of an oAdV well suited to meet the demands for a highly regulated and efficient oncolytic virus for in vivo applications.     

Localization of the reaction site of cytochrome 552 in chloroplasts from Euglena gracilis. Cytochrome content and photooxidation in different chloroplast preparations

Isolated Euglena chloroplasts retain up to 50% of cytochrome 552 on a chlorophyll basis compared to the content of cells. Cytochrome 563 is found in equal amount in chloroplasts and cells. The amount of cytochrome 552 retained depends on the isolation procedure of chloroplasts.Cytochrome 552 can be further liberated from chloroplasts by mechanical treatment or incubation with detergent. It is concluded that cytochrome 552 is not tightly bound in the membrane but rather trapped in the thylakoids of the chloroplasts.In photosynthetic electron flow, cytochrome 552 is functioning as donor for photosystem I, mediating electron flow from cytochrome 558 to P₇₀₀ under our conditions.Antimycin A stimulates the photooxidation of cytochrome 552 and of cytochrome 558.The rates of electron flow from water to NADP⁺ and of cyclic photophosphorylation mediated by phenazine methosulfate correlate with the content of endogenous cytochrome 552 in the chloroplasts. External readdition of cytochrome 552 to deficient chloroplasts causes reconstitution of NADP⁺ reduction but not of cyclic photophosphorylation. Mechanical treatment or other means of fragmentation of chloroplasts results in the exposure of originally buried reaction sites for external cytochrome 552.     

Visualization and Genetic Manipulation of Dendrites and Spines in the Mouse Cerebral Cortex and Hippocampus using In utero Electroporation

In utero electroporation (IUE) has become a powerful technique to study the development of different regions of the embryonic nervous system ^1-5. To date this tool has been widely used to study the regulation of cellular proliferation, differentiation and neuronal migration especially in the developing cerebral cortex ^6-8. Here we detail our protocol to electroporate in utero the cerebral cortex and the hippocampus and provide evidence that this approach can be used to study dendrites and spines in these two cerebral regions.Visualization and manipulation of neurons in primary cultures have contributed to a better understanding of the processes involved in dendrite, spine and synapse development. However neurons growing in vitro are not exposed to all the physiological cues that can affect dendrite and/or spine formation and maintenance during normal development. Our knowledge of dendrite and spine structures in vivo in wild-type or mutant mice comes mostly from observations using the Golgi-Cox method ⁹. However, Golgi staining is considered to be unpredictable. Indeed, groups of nerve cells and fiber tracts are labeled randomly, with particular areas often appearing completely stained while adjacent areas are devoid of staining. Recent studies have shown that IUE of fluorescent constructs represents an attractive alternative method to study dendrites, spines as well as synapses in mutant / wild-type mice ^10-11 (Figure 1A). Moreover in comparison to the generation of mouse knockouts, IUE represents a rapid approach to perform gain and loss of function studies in specific population of cells during a specific time window. In addition, IUE has been successfully used with inducible gene expression or inducible RNAi approaches to refine the temporal control over the expression of a gene or shRNA ¹². These advantages of IUE have thus opened new dimensions to study the effect of gene expression/suppression on dendrites and spines not only in specific cerebral structures (Figure 1B) but also at a specific time point of development (Figure 1C).Finally, IUE provides a useful tool to identify functional interactions between genes involved in dendrite, spine and/or synapse development. Indeed, in contrast to other gene transfer methods such as virus, it is straightforward to combine multiple RNAi or transgenes in the same population of cells. In summary, IUE is a powerful method that has already contributed to the characterization of molecular mechanisms underlying brain function and disease and it should also be useful in the study of dendrites and spines.