Regulation of gap junction coupling in the developing neocortex

In the developing mammalian, neocortex gap junctions represent a transient, metabolic, and electrical communication system. These gap junctions may play a crucial role during the formation and refinement of neocortical synaptic circuitries. This article focuses on two major points. First, the influence of gap junctions on electrotonic cell properties will be considered. Both the time-course and the amplitude of synaptic potentials depend,inter alia, on the integration capabilities of the postsynaptic neurons. These capabilities are, to a considerable extent, determined by the electrotonic characteristics of the postsynaptic cell. As a consequence, the efficacy of chemical synaptic inputs may be crucially affected by the presence of gap junctions. The second major topic is the regulation of gap junctional communication by neurotransmitters via second messenger pathways. The monoaminergic neuromodulators dopamine, nordrenaline, and serotonin reduce gap junction coupling via activation of two different intracellular signaling cascades—the cAMP/protein kinase A pathway and the IP₃/Ca²⁺/protein kinase C pathway, 013 respectively. In addition, gap junctional communication seems to be modulated by the nitric oxide (NO)/cGMP system. Since NO production can be stimulated by glutamate-induced calcium influx, the NO/cGMP-dependent modulation of gap junctions might represent a functional link between developing glutamatergic synaptic transmission and the gap junctional network. Thus, it might be of particular importance in view of a role of gap junctions during the process of circuit formation.     

棉铃虫病毒杀虫乳悬剂的生产及其药效试验

成功研制出棉铃虫病毒（ＮＰＶ）杀虫乳悬剂,改进了生产工艺和设备,建立了棉铃虫的室内品系,提高了生产效率,建立了产品的检测方法,提高了产品质量,促使棉铃虫病毒杀虫剂商品开发获得成功。大田试验证明,病毒乳悬剂的防治效果,相当于当前推广的化学农药,优于原病毒可湿性粉剂。相同剂量（０．５３一１．０７×１０（１０）ＰＩＢ／公顷）的病毒乳悬剂可使虫口平均减退９１．７％,而病毒可湿性粉剂为８３．７％。     

乌奴龙胆中五个新的环烯醚萜甙

从藏药乌奴龙胆（ＧｅｎｔｉａｎａｕｒｎｕｌａＳｍｉｔｈ）（龙胆科）的全草中分离到５个新的环烯醚萜甙,命名为乌奴龙胆甙（ｇｅｎｔｉｏｕｍｏｓｉｄｅ）Ａ－Ｅ;它们的结构主要通过光谱分析得以确定。其中,乌奴龙胆Ａ－Ｃ是二聚环烯醚萜甙,而乌奴龙胆甙Ｄ和Ｅ为马钱素型的环烯醚萜甙,所有这些化合物的分子中都具有一个２,３－二羟基苯甲酰基或其衍生物的取代基。     

The effects of glycophorin A on the expression of the human red cell anion transporter (band 3) in Xenopus oocytes

The effects of human red cell glycophorin A (GPA) on the translocation to the plasma membrane and anion transport activity of the human erythrocyte anion transporter (band 3; AE1) have been examined using the Xenopus oocyte expression system. We show that band 3 accumulates steadily at the oocyte surface with time in the presence or absence of GPA, but this occurs more quickly when GPA is coexpressed. The amount of band 3 at the surface is determined by the concentrations of band 3 and GPA cRNA that are injected, with a higher proportion of total band 3 being translocated to the surface in the presence of GPA cRNA. The increased expression of DNDS-sensitive chloride transport is highly specific to GPA, and is not observed when the cRNA to the putative glycophorin E or a very high concentration of the cRNA to glycophorin C are coexpressed with band 3 in oocytes.We thank Dr. Kay Ridgwell and Charlotte Ratcliffe for supplying plasmids and Dr. David Anstee for antibodies. This work was supported by grants from the Medical Research Council.     

The mycotoxin ochratoxin A deranges pH homeostasis in Madin-Darby canine kidney cells

Ochratoxin A (OTA) is a nephrotoxin which blocks plasma membrane anion conductance in Madin-Darby canine kidney (MDCK) cells. Added to the culture medium, OTA transforms MDCK cells in a manner similar to exposure to alkaline stress. By means of video-imaging and microelectrode techniques, we investigated whether OTA (1 mol/liter) affects intracellular pH (pH.), Cl^– (Cl _i ^– ) or cell volume of MDCK cells acutely exposed to normal (pH_norm=7.4) and alkaline (pH_alk=7.7) conditions. At pH_norm, OTA increased Cl _i ^– by 2.6±0.4 mmol/liter (n=14, P<0.05) but had no effect on pH _i . At pH_alk, application of OTA increased Cl _i ^– by 8.6±2.6 mmol/liter (n=10, P< 0.05) and raised pH _i by 0.11±0.03 (n= 8, P<0.05). The Cl^–HCO ₃ ^– exchange inhibitor DNDS (4,4-dinitro-stilbene-2, 2-disulfonate; 10 mol/liter) eliminated the OTA-induced changes of pH _i and Cl _i ^– . OTA did not affect cell volume under both pH_norm and pH_alk conditions.We conclude that the OTA-induced blockade of plasma membrane anion conductance increases Cl _i ^– without changing cell volume. The driving force of plasma membrane Cl^–/HCO ₃ ^– exchange dissipates, leading to a rise of pH _i when cells are exposed to an acute alkaline load. Thus, OTA interferes with pH _i and Cl _i ^– homeostasis leading to morphological and functional alterations in MDCK cells.The work was supported by the Deutsche Forschungsgemeinschaft (DFG, Si 170/7-1).We thank the Zeiss Company (Oberkochen, Germany) for providing the Attofluor video-imaging system for the intracellular Ca²⁺ measurements.This study was carried out with the technical assistance of Sigrid Mildenberger and Ruth Freudinger.     

Excitatory and Inhibitory Effects of A1 and A2A Adenosine Receptor Activation on the Electrically Evoked [3H]Acetylcholine Release from Different Areas of the Rat Hippocampus

Abstract: The modulation by adenosine analogues and endogenous adenosine of the electrically evoked release of [³H]acetylcholine ([³H]ACh) was compared in subslices of the three areas of the rat hippocampus (CA1, CA3, and dentate gyrus). The mixed A₁/A₂ agonist 2-chloroadenosine (CADO; 2–10 µM) inhibited, in a concentration-dependent manner, the release of [³H]ACh from the three hippocampal areas, being more potent in the CA1 and CA3 areas than in the dentate gyrus. The inhibitory effect of CADO (5 µM) on [³H]ACh release was prevented by the A₁ antagonist 1,3-dipropyl-8-cyclopentylxanthine (DPCPX; 50 nM) in the three hippocampal areas and was converted in an excitatory effect in the CA3 and dentate gyrus areas. The A_2A agonist CGS-21680 (30 nM) produced a greater increase of the evoked release of [³H]ACh in the CA3 than in the dentate gyrus areas, whereas no consistent effect was found in the CA1 area or in the whole hippocampal slice. The excitatory effect of CGS-21680 (30 nM) in the CA3 area was prevented by the adenosine receptor antagonist 3,7-dimethyl-1-propargylxanthine (10 µM). Both adenosine deaminase (2 U/ml) and DPCPX (250 nM) increased the evoked release of [³H]ACh in the CA1 and CA3 areas but not in the dentate gyrus. The amplitude of the effect of DPCPX and adenosine deaminase was similar in the CA1 area, but in the CA3 area DPCPX produced a greater effect than adenosine deaminase. It is concluded that the electrically evoked release of [³H]ACh in the three areas of the rat hippocampus can be differentially modulated by adenosine. In the CA1 area, only A₁ inhibitory receptors modulate ACh release, whereas in the CA3 area, both A_2A excitatory and A₁ inhibitory adenosine receptors modulate ACh release. In the dentate gyrus, both A₁ inhibitory and A_2A excitatory adenosine receptors are present, but endogenous adenosine does not activate them.     

Inhibition of Dopamine Agonist-Induced Phosphoinositide Hydrolysis by Concomitant Stimulation of Cyclic AMP Formation in Brain Slices

Abstract: We examined the effects of cyclic AMP on dopamine receptor-coupled activation of phosphoinositide hydrolysis in rat striatal slices. Forskolin, dibutyryl cyclic AMP, and the protein kinase A activator Sp -cyclic adenosine monophosphothioate ( Sp -cAMPS) significantly inhibited inositol phosphate formation stimulated by the dopamine D₁ receptor agonist SKF 38393. Conversely, the protein kinase A antagonist Rp -cyclic adenosine monophosphothioate ( Rp -cAMPS) dose-dependently potentiated the SKF 38393 effect. In the presence of 200 µ M Rp -cAMPS, the dose-response curves of the dopamine D₁ receptor agonists SKF 38393 and fenoldopam were shifted to the left and maximal agonist responses were markedly increased. The agonist EC₅₀ values, however, were not significantly altered by protein kinase A inhibition. Neither Sp -cAMPS nor Rp -cAMPS significantly affected basal inositol phosphate accumulation. These findings demonstrate that dopaminergic stimulation of phosphoinositide hydrolysis is inhibited by elevations in intracellular cyclic AMP. Dopamine receptor agonists that stimulate adenylyl cyclase could suppress their activation of phosphoinositide hydrolysis by concomitantly stimulating the formation of cyclic AMP in striatal tissue. The interaction between dopamine D₁ receptor-stimulated elevations in cyclic AMP and dopaminergic stimulation of inositol phosphate formation suggests a cellular colocalization of these dopamine-coupled transduction pathways in at least some cells of the rat striatum.     

Neurite Outgrowth Stimulated by the Tyrosine Kinase Inhibitor Herbimycin A Requires Activation of Tyrosine Kinases and Protein Kinase C

Abstract: Activation of tyrosine kinases is established as an important mechanism for controlling growth cone motility and neurite outgrowth. We have tested the effects of a range of tyrosine kinase inhibitors on neurite outgrowth from postnatal day 4 cerebellar granule cells cultured over confluent monolayers of 3T3 fibroblasts. The only agent that had any effect was herbimycin A, which stimulated neurite outgrowth. The response is shown to be attributable to a direct effect of this tyrosine kinase inhibitor on neurones. The neurite outgrowth response to herbimycin A was inhibited by two other tyrosine kinase inhibitors, which on their own did not affect neurite outgrowth. The data suggest that the response to herbimycin A reflects either a direct or indirect activation of one or more protein tyrosine kinases. Independent signalling events downstream from tyrosine kinase activation underlying the neurite outgrowth response to herbimycin A include increased activity of protein kinase C and calcium influx into neurones through both N-and L-type calcium channels.     

Hormone- and growth factor-stimulated NADH oxidase

An NADH oxidase activity of animal and plant plasma membrane is described that is stimulated by hormones and growth factors. In plasma membranes of cancer cells and tissues, the activity appears to be constitutively activated and no longer hormone responsive. With drugs that inhibit the activity, cells are unable to grow although growth inhibition may be more related to a failure of the cells to enlarge than to a direct inhibition of mitosis. The hormone-stimulated activity in plasma membranes of plants and the constitutively activated NADH oxidase in tumor cell plasma membranes is inhibited by thiol reagents whereas the basal activity is not. These findings point to a thiol involvement in the action of the activated form of the oxidase. NADH oxidase oxidation by Golgi apparatus of rat liver is inhibited by brefeldin A plus GDP. Brefeldin A is a macrolide antibiotic inhibitor of membrane trafficking. A model is presented where the NADH oxidase functions as a thiol-disulfide oxidoreductase activity involved in the formation and breakage of disulfide bonds. The thiol-disulfide interchange is postulated as being associated with physical membrane displacement as encountered in cell enlargement or in vesicle budding. The model, although speculative, does provide a basis for further experimentation to probe a potential function for this enzyme system which, under certain conditions, exhibits a hormone- and growth factor-stimulated oxidation of NADH.