Expression of endothelial nitric oxide synthase in the porcine oocyte and its possible function

The present study was designed to investigate the localization of endothelial nitric oxide synthase (eNOS) in porcine oocytes and its possible function during in vitro development. RT-PCR and immunoblotting analyses revealed the presence of eNOS in the oocytes prepared from small follicles, with an amplified product of 456 bp and an apparent mol wt of 130 kDa, respectively. The synthesis of oocyte NO was suppressed during a 72-h culture of cumulus-oocyte complexes in the presence of follicle-stimulating hormone (FSH), but not luteinizing hormone (LH). However, the decrease in NO synthesis did not result from the levels of eNOS mRNA and its protein, as revealed by analyses of RT-PCR and Western blot analysis, suggesting that expression of oocyte eNOS is not dependent upon gonadotropin stimulation. In proliferated cumulus cells, LH receptor mRNA expression was detected after a 48-h culture with FSH, as revealed by RT-PCR analysis. mRNA expression was inhibited by an NO-releasing agent (S-nitroso-N-acetyl-DL-penicillamine) after an additional 24-h culture. These results suggest that oocytes may release eNOS-derived NO as a signal for somatic cells to steadily suppress the development of cumulus cells, if not FSH stimulation. Conversely, the synthesis of NO is suppressed during the action of FSH on the cumulus cells with no changes in eNOS expression.     

Voltage dependence of slow inactivation in Shaker potassium channels results from changes in relative K(+) and Na(+) permeabilities

Time constants of slow inactivation were investigated in NH(2)-terminal deleted Shaker potassium channels using macro-patch recordings from Xenopus oocytes. Slow inactivation is voltage insensitive in physiological solutions or in simple experimental solutions such as K(+)(o)//K(+)(i) or Na(+)(o)//K(+)(i). However, when [Na(+)](i) is increased while [K(+)](i) is reduced, voltage sensitivity appears in the slow inactivation rates at positive potentials. In such solutions, the I-V curves show a region of negative slope conductance between approximately 0 and +60 mV, with strongly increased outward current at more positive voltages, yielding an N-shaped curvature. These changes in peak outward currents are associated with marked changes in the dominant slow inactivation time constant from approximately 1.5 s at potentials less than approximately +60 mV to approximately 30 ms at more than +150 mV. Since slow inactivation in Shaker channels is extremely sensitive to the concentrations and species of permeant ions, more rapid entry into slow inactivated state(s) might indicate decreased K(+) permeation and increased Na(+) permeation at positive potentials. However, the N-shaped I-V curve becomes fully developed before the onset of significant slow inactivation, indicating that this N-shaped I-V does not arise from permeability changes associated with entry into slow inactivated states. Thus, changes in the relative contributions of K(+) and Na(+) ions to outward currents could arise either: (a) from depletions of [K(+)](i) sufficient to permit increased Na(+) permeation, or (b) from voltage-dependent changes in K(+) and Na(+) permeabilities. Our results rule out the first of these mechanisms. Furthermore, effects of changing [K(+)](i) and [K(+)](o) on ramp I-V waveforms suggest that applied potential directly affects relative permeation by K(+) and Na(+) ions. Therefore, we conclude that the voltage sensitivity of slow inactivation rates arises indirectly as a result of voltage-dependent changes in the ion occupancy of these channels, and demonstrate that simple barrier models can predict such voltage-dependent changes in relative permeabilities.     

Competitive potentiation of acetylcholine effects on neuronal nicotinic receptors by acetylcholinesterase-inhibiting drugs

The effects of the acetylcholinesterase inhibitors physostigmine and tacrine on alpha4beta2 and alpha4beta4 subtypes of neuronal nicotinic acetylcholine (ACh) receptors, expressed in Xenopus laevis oocytes, have been investigated. In voltage-clamp experiments low concentrations of physostigmine and tacrine potentiate ion currents induced by low concentrations of ACh, whereas at high concentrations they inhibit ACh-induced ion currents. These dual effects result in bell-shaped concentration-effect curves. Physostigmine and tacrine, by themselves, do not act as nicotinic receptor againsts. The larger potentiation is observed with 10 microM: physostigmine on alpha4beta4 nicotinic receptors and amounts to 70% at 1 microM: ACh. The mechanism underlying the effects of physostigmine on alpha4beta4 ACh receptors has been investigated in detail. Potentiation of ACh-induced ion current by low concentrations of physostigmine is surmounted at elevated concentrations of ACh, indicating that this is a competitive effect. Conversely, inhibition of ACh-induced ion current by high concentrations of physostigmine is not surmounted at high concentrations of ACh, and this effect appears mainly due to noncompetitive, voltage-dependent ion channel block. Radioligand binding experiments demonstrating displacement of the nicotinic receptor agonist (125)I-epibatidine from its recognition sites on alpha4beta4 ACh receptors by physostigmine confirm that physostigmine is a competitive ligand at these receptors. A two-site equilibrium receptor occupation model, combined with noncompetitive ion channel block, accounts for the dual effects of physostigmine and tacrine on ACh-induced ion currents. It is concluded that these acetylcholinesterase-inhibiting drugs interact with the ACh recognition sites and are coagonists of ACh on alpha4-containing nicotinic ACh receptors.     

The postsynaptic density protein PSD-95 differentially regulates insulin- and Src-mediated current modulation of mouse NMDA receptors expressed in Xenopus oocytes

The NMDA subtype of glutamate receptor is physically associated with the postsynaptic density protein PSD-95 at glutamatergic synapses. The channel activity of NMDA receptors is regulated by different signaling molecules, including protein tyrosine kinases. Because previous results have suggested a role for protein kinase C (PKC) in insulin potentiation of NMDA currents in oocytes, the effects of coexpression of PSD-95 on insulin and PKC potentiation of NMDA currents from these receptors were compared. Another primary objective was to determine if PSD-95 could enable Src to potentiate currents from NR2A/NR1 and NR2B/NR1 receptors expressed in XENOPUS: oocytes. The results show opposite effects of PSD-95 coexpression on Src and insulin modulation of NR2A/NR1 receptor currents. Src potentiation of mouse NR2A/NR1 currents required PSD-95 coexpression. In contrast, PSD-95 coexpression eliminated insulin-mediated potentiation of NR2A/NR1 receptor currents. PSD-95 coexpression also eliminated PKC potentiation of NR2A/NR1 receptor currents. PSD-95 may therefore play a key role in controlling kinase modulation of NR2A/NR1 receptor currents at glutamatergic synapses.     

Neuronal nicotinic acetylcholine receptors from Drosophila: two different types of alpha subunits coassemble within the same receptor complex

Although neuronal nicotinic acetylcholine receptors from insects have been reconstituted in vitro more than a decade ago, our knowledge about the subunit composition of native receptors as well as their functional properties still remains limited. Immunohistochemical evidence has suggested that two alpha subunits, alpha-like subunit (ALS) and Drosophila alpha2 subunit (Dalpha2), are colocalized in the synaptic neuropil of the Drosophila CNS and therefore may be subunits of the same receptor complex. To gain further understanding of the composition of these nicotinic receptors, we have examined the possibility that a receptor may imbed more than one alpha subunit using immunoprecipitations and electrophysiological investigations. Immunoprecipitation experiments of fly head extracts revealed that ALS-specific antibodies coprecipitate Dalpha2, and vice versa, and thereby suggest that these two alpha subunits must be contained within the same receptor complex, a result that is supported by investigations of reconstituted receptors in Xenopus oocytes. Discrimination between binary (ALS/beta2 or Dalpha2/beta2) and ternary (ALS/Dalpha2/beta2) receptor complexes was made on the basis of their dose-response curve to acetylcholine as well as their sensitivity to alpha-bungarotoxin or dihydro-beta-erythroidine. These data demonstrate that the presence of the two alpha subunits within a single receptor complex confers new receptor properties that cannot be predicted from knowledge of the binary receptor's properties.     

Characterization and comparative pharmacological studies of a functional γ-aminobutyric acid (GABA) receptor cloned from the tobacco budworm,Heliothis virescens (Noctuidae:Lepidoptera)

This paper reports the functional expression and pharmacological characterization of a full length complementary deoxyribonucleic acid (cDNA) (pIVY12) cloned from aHeliothis virescens fertilized egg cDNA library that encodes for a γ-aminobutyric acid (GABA) receptor subunit (HVRDL-Ser 285). Two electrode voltage clamp recordings ofXenopus oocytes expressing the HVRDL GABA-gated chloride channel revealed robust chloride ion conductance in response to GABA and the GABA_A receptor agonist, muscimol. Baclofen, a GABA_B agonist had no effect. Phenobarbital showed a positive dose-dependent allosteric modulatory effect, whereas the benzodiazepine, flunitrazepam, had no effect. Chloride conductance was depressed by the novel insecticide, fipronil ((±)-5-amino-1-(2,6 dichloro-α, α, α-trifluoro-p-tolyl)-4-trifluoromethyl-sulfinylpyrazole-3-carbonitrile) and the GABA_A antagonist, picrotoxinin. The HVRDL GABA receptor was insensitive to blockage by dieldrin and the GABA_A antagonist, bicuculline. The comparative actions of fipronil, picrotoxinin and dieldrin were examined on oocytes expressing theH. virescens wild-type (HVRDL-Ser 285), the site-directed mutant (HVRDL-Ala 285), theDrosophila melanogaster Rdl wild-type (DMRDL-Ala 302) and theRdl dieldrin resistant (DMRDL-Ser 302) homo-oligomeric GABA receptors. HVRDL-Ala 285 was 15-fold more sensitive to blockage by fipronil than HVRDL-Ser 285. DMRDL-Ala 302 and DMRDL-Ser-302 showed a similar level of sensitivity to blockage by fipronil. HVRDL-Ser 285 and DMRDL-Ser 302 exhibited a similar level of insensitivity to picrotoxinin. HVRDL-Ala 285 and DMRDL-Ala 302 showed a similar range of picrotoxinin sensitivity. DMRDL-Ala 302 and HVRDL-Ala 285 showed some sensitivity to blockage by dieldrin. Fipronil sensitivity was significantly altered by the serine to alanine mutation at position 285 in the M2 region of the HVRDL subunit, whereas no difference was observed between the DMRDL-Ser 302 and DMRDL-Ala 302 receptors.     

Expression of tachykinin receptors in Xenopus oocytes injected with poly(A)~+RNA from cat dorsal root ganglion

ＴａｃｈｙｋｉｎｉｎｆａｍｉｌｙｉｓａｇｒｏｕｐｏｆｎｅｕｒｏｐｅｐｔｉｄｅｓｗｉｔｈｓｉｍｉｌａｒＣｔｅｒｍｉｎａｌｓｅｑｕｅｎｃｅｓａｎｄｒｅｌａｔｅｄｂｉｏａｃｔｉｖｉｔｉｅｓ.ＴｈｅｍａｊｏｒｔａｃｈｙｋｉｎｉｎｓｉｎｍａｍｍａｌｉａｎａｒｅｓｕｂｓｔａｎｃｅＰ(ＳＰ),ｎｅｕｒｏｋｉｎｉｎＡ(ＮＫＡ)ａｎｄｎｅｕｒｏｋｉｎｉｎＢ(ＮＫＢ).Ｃｏｒｒｅｓｐｏｎｄｉｎｇｔｏｔｈｅｓｅｐｅｐｔｉｄｅｓ,ｔｈｒｅｅｄｉｓｔｉｎｃｔｔａｃｈｙｋｉｎｉｎｒｅｃｅｐｔｏｒｓｗｅｒｅｄｉｓｃｏｖｅｒｅｄａｎｄｎ…     

Accumulation of yolk in a caecilian (Gegeneophis ramaswamii) oocyte: A light and transmission electron microscopic study

There is a paucity of information on the female reproductive biology of the caecilian amphibians when compared with the other vertebrate groups. Hence, the accumulation of nutrient reserves in the form of yolk and formation of yolk platelets were studied in Gegeneophis ramaswamii, adopting light microscopic histological and transmission electron microscopy analysis. Previtellogenic as well as vitellogenic follicles were observed in appropriate preparations. On the basis of the source and the routes of entry, we identified four types of yolk precursor materials, precursors 1 to 4. The earliest material appearing in the oocyte consists of abundant lipid vesicles during the previtellogenic phase, i.e., much before the follicular epithelium is fully established. This is a contribution from the oocyte mitochondria, which we identified as yolk precursor material 1, and it is autosynthetic. Once the follicle cell‐oocyte interface is fully established, there is an accumulation of the principal component of the heterosynthetic yolk by sequestration from the blood through the intercellular spaces between follicle cells in a pinocytic process. This we identified as yolk precursor material 2. There was also an indication of a lipidic yolk material synthesis in the follicle cells sequestered from maternal blood through the follicle cells in an endocytic process in which the macrovilli of follicle cells and the microvilli of the oocyte play a role. This we identified as yolk precursor material 3. Contribution to the yolk of peptidic, glycosidic, and/or lipidic material synthesized in the vitellogenic oocyte was also indicated. This we identified as yolk precursor material 4. The sequential development of intercellular associations and indications of synthesis/sequestration of the yolk have been traced. Thus, we report the mechanistic details of synthesis/sequestration of the yolk materials in a caecilian. J. Morphol., 2008. © 2008 Wiley‐Liss, Inc.     

Gametogenic cycles and reproduction in the beadlet sea anemone Actinia equina (Cnidaria: Anthozoa)

Sexual Actinia equina have been maintained in the laboratory. Monthly biopsies show that these animals have annual gametogenic cycles. Regular samples from several natural populations suggest that animals in the wild show similar gametogenic periodicity. In the laboratory, males release sperm, but females brood young, at least for a few weeks. Members of these broods are released sporadically, usually after a water change. Males and non-sexual adults kept in isolation for over a year release a few juveniles during and at the end of that time. These young are likely to be asexually reproduced. There appears to be geographical variation of anemone size and in the frequency of sexual individuals in populations round the British Coast, so that modes of reproduction may vary.