Accumulation and Spatial Distribution of Poly(A)+RNA in Oocytes and Early Embryos of Drosophila melanogaster

We describe the accumulation and distribution of poly (A)⁺RNA during oogenesis and early embryogenesis as revealed by in situ hybridization with a radio-labeled poly (U) probe. The amount of poly (A)⁺RNA in nurse cell cytoplasm continuously increased untill mid-vitellogenic stage (st. 10), then decreased with the rapid increase of poly (A)⁺RNA in the oocyte (st. 11). The localization of poly (A)⁺RNA at stage 10 was in the anterior region of the oocyte, where it is connected by cytoplasmic bridge to the nurse cells. These observations indicate that most of the poly (A)⁺RNA synthesized in the nurse cells is transferred to the oocyte through the cytoplasmic bridges at stage 10–11. During the remainder of oogenesis (st. 11–14) and during preblastodermal embryogenesis, poly (A)⁺RNA was evenly distributed over the cytoplasm of oocytes and embryos. At blastoderm stage, poly(A)⁺RNA became concentrated in the peripheral region of embryos. Though the somatic nuclei of the blastoderm contained a detectable amount of poly (A)⁺ RNA, the pole cell nuclei did not. The cytoplasmic RNA visualised by acridine orange staining and the poly (A)⁺RNA detected by hybridization with [³H]poly (U) exhibited identical distributions during oogenesis and early embryogenesis. These observations provide a basis to assess the unique distributions of specific RNA sequences involved in early development.     

Direct Evidence for the Presence of Germ Cell Determinant in Vegetal Pole Cytoplasm of Xenopus laevis and in a Subcellular Fraction of It

To test for the presence of germ cell determinant in Xenopus embryos, vegetal pole cytoplasm containing the "germ plasm", or a subcellular fraction of it, was microinjected into single somatic blastomeres isolated from 32-cell embryos. Injected or non-injected (control) blastomeres were cultured in ³H-thymidine until normal control embryos reached the neurula stage. The labeled explants were then implanted into unlabeled host neurulae, which were allowed to develop to the tadpole stage. Labeled PGCs of explant origin in the genital ridges of the experimental tadpoles were examined by autoradiography.
Isolated blastomeres were injected with vegetal pole cytoplasm of 32-cell embryos or with a 20,000 g pellet made from vegetal pole cytoplasm of 2-cell embryos. Labeled PGCs were found in 7.6% and 2.3% of the experimental tadpoles, respectively. No labeled PGCs were found in the control tadpoles, except for one tadpole in the first experiment. These results strongly suggest that the vegetal pole cytoplasm and its subcellular fractions act as germ cell determinant.     

Down-Regulation of the Human Norepinephrine Transporter in Intact 293-hNET Cells Exposed to Desipramine

Abstract: The effects of continuous exposure of cultured cells expressing the human norepinephrine transporter (hNET) to the hNET inhibitor desipramine on hNET expression and function were studied. Exposure of HEK-293 cells transfected stably with the hNET cDNA (293-hNET cells) to desipramine for 3 days reduced the specific binding of [³H]nisoxetine in membrane homogenates in a concentration-dependent manner. The magnitude of the reductions in [³H]nisoxetine binding to hNET was dependent on the length of time of the exposure to desipramine, reaching 77% after a 21-day exposure. The reduction of [³H]nisoxetine binding returned to control levels within 72 h after a 3-day exposure to desipramine. Reductions in [³H]nisoxetine binding to hNET were accompanied by time-dependent and exposure concentration-dependent reductions in hNET protein levels as determined by western blotting. Similar to binding, hNET protein levels returned to control levels 72 h after cessation of desipramine exposure. Northern blotting indicated that exposure of 293-hNET cells to desipramine did not significantly alter hNET mRNA levels. Uptake of [³H]norepinephrine by 293-hNET cells was markedly reduced after a 3-day exposure to desipramine. However, desipramine exposure had no effect on uptake of [³H]glutamate or [³H]-alanine. The present findings imply that down-regulation of the hNET in 293-hNET cells induced by desipramine results from a selective reduction in hNET protein levels, presumably a consequence of either a reduction in the translation of hNET mRNA or from an enhanced degradation of hNET protein.     

Elevated Levels of Glucose and L-Fucose Reduce 22Na+ Uptake and Whole Cell Na+ Current in Cultured Neuroblastoma Cells

Abstract: Na⁺ flux was studied in cultured neuroblastoma cells grown in medium containing increased glucose or L - fucose concentrations. Chronic exposure of neuroblastoma cells to 30 m M glucose or 30 m M L-fucose caused a decrease in ouabain-sensitive and veratridine-stimulated ²²Na⁺ uptake compared with cells cultured in unsupplemented medium. The Na⁺ current, determined by using whole-cell configuration of the patch clamp, was also decreased in these cells. Tetrodotoxin (3 μ M ), which blocked whole cell Na⁺ currents, also blocked veratridine-stimulated ²²Na⁺ accumulation. Culturing cells in medium containing 30 m M fructose as an osmotic control had no effect on Na⁺ flux. Specific [³H] saxitoxin binding was not affected by 30 m M glucose or 30 m M L-fucose compared with cells grown in unsupplemented medium, suggesting that the number of Na⁺ channels was not decreased. These studies suggest that exposing cultured neuronal cells to conditions that occur in the diabetic milieu alters Na⁺ transport and Na⁺-channel activity.     

Ca2+/Calmodulin-Mediated Regulation of Agonist-Induced Sequestration of Gq Protein-Coupled Histamine H1 Receptors in Human U373 MG Astrocytoma Cells

Abstract: We investigated the regulation by intracellular Ca²⁺ of agonist-induced sequestration of G_q protein-coupled histamine H₁ receptors in human U373 MG astrocytoma cells. Histamine-induced sequestration of H₁ receptors from the cell surface membrane was detected as the loss of [³H]mepyramine binding sites on intact cells accessible to the hydrophilic H₁-receptor antagonist pirdonium. The changes in the pirdonium-sensitive binding of [³H]mepyramine were mirrored by changes in the subcellular distribution of H₁ receptors detected by sucrose density gradient centrifugation. The histamine-induced sequestration of H₁ receptors did not occur in hypertonic medium, in which clathrin-mediated endocytosis is known to be inhibited, but was significantly accelerated in the absence of extracellular Ca²⁺ or in the presence of the calmodulin antagonists W-7 and calmidazolium. Inhibitors of protein kinase C (H-7 and GF109203X), Ca²⁺/calmodulin-dependent protein kinase II (KN-62), or protein phosphatase 2B (FK506) did not alter the time course of H₁-receptor sequestration. These results provide the first evidence that agonist-induced, clathrin-mediated sequestration of G_q protein-coupled receptors is transiently inhibited by Ca²⁺/calmodulin, with the result that receptors remain on the cell surface membrane during the early stage of agonist stimulation.     

Involvement of Na+,K+-ATPase in the Mitogenic Effect of Insulin-Like Growth Factor-I on Cultured Rat Astrocytes

Abstract: We have previously reported that insulin/insulin-like growth factor (IGF)-I induced the α1 isoform of Na⁺,K⁺-ATPase in cultured astrocytes. In this study the effects of insulin/IGF-I on Na⁺,K⁺-ATPase activity and cell proliferation were examined in astrocytes cultured under the various conditions, to test the possible involvement of the enzyme activity in the mitogenic action of IGF-I on astrocytes. Insulin increased Na⁺,K⁺-ATPase activity and stimulated cell proliferation in subconfluent astrocytes (cultured for 7–14 days in vitro). In contrast, these effects were not observed in confluent cells (cultured for 28 days). Furthermore, insulin stimulated neither the enzyme activity nor [³H]thymidine incorporation in astrocytes preincubated in fetal calf serum-free medium for 2 days (quiescent cells) and treated with dibutyryl cyclic AMP (differentiated cells). The increases in Na⁺,K⁺-ATPase activity and expression of the α1 mRNA preceded the mitogenic effect. ¹²⁵I-IGF-I binding experiment showed that all the cells used here had similar binding characteristics. The insulin-induced increase in enzyme activity was not affected by 1-(5-isoquinolinesulfonyl)-2-methylpiperazine (H-7), and it was observed even in Ca²⁺-free medium. The stimulation by IGF-I of [³H]thymidine incorporation was attenuated by ouabain and a low external K⁺ level. These findings suggest that stimulation of Na⁺,K⁺-ATPase activity is involved in the mitogenic action of IGF-I on cultured astrocytes.     

Down-Regulation of the Noradrenaline Transporter by Interferon-α in Cultured Bovine Adrenal Medullary Cells

Abstract: The aim of this study was to investigate the effect of long-term treatment with interferon (IFN)-α on the noradrenaline transporter of bovine adrenal medullary cells. Treatment of cultured adrenal medullary cells with IFN-α caused a decrease in uptake of [³H]noradrenaline by the cells in time (4–48 h)- and concentration (300–1,000 U/ml)-dependent manners. IFN-β also inhibited [³H]noradrenaline uptake to a lesser extent than did IFN-α, whereas IFN-γ had little effect. An anti-IFN-α antibody reduced the effect of IFN-α on [³H]noradrenaline uptake. Saturation analysis of [³H]noradrenaline uptake showed that the inhibitory effect of IFN-α was due to a reduction in the maximal uptake velocity ( V _max) values without altering apparent Michaelis constant ( K _m) values. Incubation of cells with IFN-α caused a translocation of protein kinase C from the soluble to the particulate fraction in the cells. The effect of IFN-α on [³H]noradrenaline uptake was diminished in protein kinase C-down-regulated cells. Incubation of cells with IFN-α for 48 h significantly reduced the specific binding of [³H]desipramine to crude plasma membranes isolated from cells. Scatchard analysis of [³H]desipramine binding revealed that IFN-α decreased the maximal binding ( B _max) values without any change in the dissociation constant ( K _D) values. These findings suggest that IFN-α suppresses the function of noradrenaline transporter by reducing the density of the transporter in cell membranes through, at least in part, a protein kinase C pathway.     

Characterization of a Human NK1 Tachykinin Receptor in the Astrocytoma Cell Line U 373 MG

Abstract: The human NK₁ tachykinin receptor in the astrocytoma cell line U 373 MG was characterized using selective agonists and antagonists described for this receptor in the rat. Specific [³H]substance P binding sites were present on cell homogenates, whereas [³H]neurokinin A or [³H]-senktide binding sites were absent. The binding was saturable and reversible. The binding of [³H]substance P was inhibited by very low concentrations of [L-Pro⁹]substance P and [Sar⁹,Met(O₂)¹¹]substance P; septide was ∼ 1,000-fold less potent. The most potent peptide antagonist was trans -4-hydroxy-1-(1 H -indol-3-ylcarbonyl)-L-prolyl- N -methyl- N -(phenylmethyl)-L-tyrosineamide. The rank order of potency for the nonpeptide antagonists was ( S , S )-CP 96,345 > (±)-CP 96,345 > (±)-2-chlorobenzylquinuclidinone > ( R , R )-CP 96,345 > RP 67580 > RP 68651. In [³H]-inositol-labeled cells, substance P stimulated phosphatidylinositol turnover. A good correlation was found when the abilities of NK₁ receptor agonists for stimulating inositol phosphate production and for inhibiting [³H]substance P binding were compared. Similarly, the binding and functional assays were well correlated for the antagonists. As a result of its high sensitivity and selectivity, the U 373 MG cell line thus appears an excellent tool for investigating the pharmacology of the human NK₁ receptor.     

Investigation of the role of sterol Δ8 → 7-isomerase in the sensitivity of Saccharomyces cerevisiae to fenpropimorph

Abstract Treatment of Saccharomyces cerevisiae with the morpholine fungicide fenpropimorph was examined using both a wild-type and a mutant strain ( erg2 ) defective in sterol Δ ^{8 → 7}-isomerase. No resistance to fenpropimorph was observed in the mutant strain after 3 days, although after 7 days the mutant and the wild-type strains had grown in concentrations of fenpropimorph close to the saturating dose. Re-inoculation of both strains into fresh medium containing fenpropimorph resulted in continued growth and this adaptation to fungicide tolerance was lost on subculture in the absence of fenpropimorph. Analysis of the sterols present in the cells indicated that fenpropimorph treatment resulted in the accumulation of Δ ^8,14-sterols. This accumulation and the corresponding depletion of ergosterol were correlated with growth inhibition rather than the presence of Δ ⁸-sterols. Together with an absence of gene dosage effect for ERG2 on fenpropimorph sensitivity, this supports the hypothesis that sterol Δ ^{8 → 7}-isomerase inhibition does not contribute to the fungicidal activity of fenpropimorph.     

Changes in the Activities of H+, K+-ATPase and Na+, K+-ATPase in Cultured Cells Derived from Micromeres of Sea Urchin Embryos with Special Reference to Their Roles in Spicule Rod Formation

In cultured cells derived from micromeres isolated at the 16-cell stage of sea urchin embryos, the activity of H⁺, K⁺-ATPase became detectable after 15 hr of culture, when the cells started to form spicules, and then increased reaching a plateau from 25 hr of culture. The Na⁺, K⁺-ATPase activity of isolated micromeres increased to a maximum at 20 hr of culture and thereafter decreased gradually. Allylisothiocyanate, an inhibitor of H⁺, K⁺-ATPase, caused a decrease in intracellular pH (pHi) accompanied by blockage of ⁴⁵Ca deposition in spicule rods in spicule-forming cells at 30 hr of culture. Ouabain and amiloride had scarcely any effect on the pHi or ⁴⁵, deposition. In cultured cells exposed to nifedipine, which blocked ⁴⁵Ca deposition in spicule rods, allylisothiocyanate did not cause any decrease in pHi. These results show that H⁺, which is generated in the overall reaction to produce CaCO₃ from Ca²⁺ and HCO₃⁻, is probably released from the cells mainly in the reaction catalyzed by H⁺, K⁺-ATPase to maintain successive production of CaCO₃.     

Effects of Chronic Nicotine Treatment on the Accumulation of [3H]Tetraphenylphosphonium by Cerebral Cortical Synaptosomes

Abstract: Chronic exposure of rats to nicotine increases the number of [³H]nicotine binding sites in the brain; however, it is not clear whether nicotinic cholinergic receptor function is altered as well. In this study, we have used [³H]tetraphenylphosphonium as a probe of synaptosomal membrane potential to investigate whether exposure to nicotine in vivo alters the ability of cerebral cortical synaptosomes to maintain a potential difference and to depolarize in response to in vitro nicotine. Treatment of rats for 14 days with 0.475 mg of nicotine base/day via subcutaneously implanted minipumps resulted in a decrease in the synaptosomal accumulation of [³H]tetraphenylphosphonium in physiological buffer, corresponding to a decrease in estimated membrane potential from –55 mV to –50 mV. The onset of the decrease in membrane potential occurred after 7 days of in vivo nicotine treatment and was significantly correlated with an increase in [³H]nicotine binding to cerebral cortical synaptosomal (P₂) membranes. Nicotine, at in vitro concentrations of 3–1,000 μ M , decreased [³H]tetraphenylphosphonium accumulation in cerebral cortical synaptosomes from control animals. When compared to accumulation in buffer alone, in vitro nicotine and other nicotinic agonists did not significantly decrease [³H]tetraphenylphosphonium accumulation in cerebral cortical synaptosomes prepared from rats treated with nicotine in vivo. These studies provide evidence that chronic treatment with nicotine results in an average lower membrane potential in cerebral cortical synaptosomes and in functional down-regulation of the depolarization response to nicotinic cholinergic receptor stimulation.     

Down-Regulation of Norepinephrine Transporters on PC12 Cells by Transporter Inhibitors

Abstract: To investigate the regulation of norepinephrine transporters (NETs) in vitro, we measured the binding of the NET-selective ligand [³H]nisoxetine in homogenates of PC12 cells after exposure of intact cells to the NET inhibitor desipramine (DMI). A 3-day exposure of PC12 cells to DMI robustly reduced the B _max, but not the K _D, of [³H]nisoxetine binding to NETs. Reduction of the binding of [³H]nisoxetine was dependent on both the concentration of DMI and the time of exposure to DMI. Reduction of [³H]nisoxetine binding to NETs produced by a 1-day exposure to DMI reverted to preexposure levels 48 h after cessation of DMI exposure. Similar down-regulation of NETs was found when PC12 cells were exposed to another NET-selective drug, nisoxetine, which is structurally unrelated to DMI. In contrast, exposure of cells to the serotonin transporter-selective drug citalopram, or the NET substrate norepinephrine, had no effects on the binding of [³H]nisoxetine to NETs. The down-regulation of NETs was paralleled by a DMI-induced reduction in the uptake of [³H]norepinephrine in intact PC12 cells. It can be inferred from these data that inhibitors of the NET can down-regulate NETs directly, and do so in the absence of changes in the synaptic concentration of norepinephrine.     

γ-Aminobutyric AcidA Receptor Function Is Desensitised in Rat Cultured Cerebellar Granule Cells Following Chronic Flunitrazepam Treatment

Abstract: This study examined γ-aminobutyric acid_A (GABA_A) receptor function in cultured rat cerebellar granule cells by using microphysiometry following chronic flunitrazepam exposure, and correlated the findings with the α1 and β2/3 subunit protein expression and [³H]muscimol binding after the same treatment paradigm. Flunitrazepam treatment reduced ( p < 0.05) the maximal GABA-stimulated increase in extracellular acidification rate ( E _max) (16.5 ± 1.2% and 11.3 ± 1.0%, 2-day control and treated cells, respectively; 17.4 ± 1.0% and 9.9 ± 0.7%, 7-day control and treated cells, respectively; best-fit E _max± SEM, n = 7), without affecting the GABA concentration required to elicit 50% of maximal response (EC₅₀) (1.2 ± 1.7 and 2.3 ± 1.8 µ M , 2-day control and treated cells, respectively; 1.7 ± 1.5 and 1.5 ± 1.5 µ M , 7-day control and treated cells, respectively; best-fit EC₅₀± SEM, n = 7). Flunitrazepam exposure also abolished the flunitrazepam potentiation of the GABA response, caused a transient reduction of the GABA_A receptor α1 and β2/3 subunit proteins over the initial 2 days, but did not alter [³H]muscimol binding compared with vehicle-treated cells. The results suggest that changes in GABA_A receptor subunit protein expression, rather than loss of [³H]muscimol binding sites, underlie the chronic flunitrazepam-mediated desensitisation of GABA_A receptor function.     

Opposite Changes in GABAA Receptor Function in the CA1-3 Area and Fascia Dentata of Kindled Rat Hippocampus

Abstract: Muscimol-stimulated radiotracer ³⁶Cl⁻ uptake in synaptoneurosomes was used to investigate the function of the GABA_A receptor complex in the CA1-3 area and fascia dentata (granular and molecular layers and hilus) of rats kindled by stimulation, twice a day, of the Schaffer collateral fibers. Two kindled groups were studied: (a) 24 h after the last generalized tonic-clonic seizure [fully kindled (FK) stage] and (b) 28 days after the last generalized seizure (long-term stage). Synaptoneurosomes were prepared in parallel from subslices of the CA1-3 area and fascia dentata. In FK animals, the muscimol-stimulated ³⁶Cl⁻ uptake was significantly reduced by 21% in the CA1-3 area in comparison with nonstimulated controls, whereas a significant increase of 29% was found in the fascia dentata. Significant changes were no longer present at 4 weeks after the last generalized seizure. The observed changes in muscimol-stimulated ³⁶Cl⁻ uptake at the FK stage closely parallel the recently observed changes in [³H]muscimol binding in the CA1 area and fascia dentata. These results indicate that kindling causes a transiently decreased GABA_A receptor-mediated function in the CA1-3, in contrast to an increased GABA_A receptor-mediated function in the fascia dentata.     

Autonomous transition into meiosis of mouse fetal germ cells in vitro and its inhibition by gp130-mediated signaling

Mouse primordial germ cells (PGCs) arrive at the urogenital ridge (UGR) at around 10.5 days postcoitum (dpc). They proliferate until around 13.5 dpc, then enter into meiosis in the female or become mitotically arrested in the male gonads. In this study, meiotic transition of mouse PGCs was examined in vitro. Female PGCs obtained from UGRs or genital ridges at 10.5-11.5 dpc began to express meiosis-specific genes, Scp3 and Dmc1, after dissociation and cultivation on feeder cells for several days. Meiotic transition into the leptotene stage was confirmed by the formation of axial cores. Male PGCs at 10.5-11.5 dpc and migratory PGCs obtained from mesenteries at 10.5 dpc also expressed Scp3 and formed axial cores after several days of culture, supporting the hypothesis that PGCs are capable of entering meiosis before arriving at the UGR. gp130-mediated signaling, known to promote survival/growth of PGCs and also to inhibit the differentiation of embryonic stem cells, suppressed the expression of Scp3 in PGCs and inhibited the following formation of axial cores in vitro. This novel activity of gp130-mediated signaling may provide some clues for the understanding of pluripotency of mammalian germ-line cells and/or the sex differentiation of fetal germ cells.     

LOCALIZATION AND SEGREGATION OF MATERNAL RNA'S DURING EARLY CLEAVAGE OF XENOPUS LAEVIS EMBRYOS

The localization and segregation of maternal RNA's during early cleavage of Xenopus laevis embryos were studied. Blastomeres and hemispheres of eggs and early embryos were separated manually and the amounts of ribosomal RNA and poly(A) ⁺RNA extracted from each blastomere and hemisphere were determined by optical density measurement and by ³H-poly(U) hybridization, respectively. It was found that both kinds of the maternal RNA's were more abundant (two-thirds of the total) in the animal hemisphere (cells), while they were evenly distributed between the dorsal and ventral halves. This pattern of localization remained unchanged from the egg to the blastula stage, indicating that these maternal RNA's were segregated into blastomeres quite simply by cell division. Gel electrophoresis showed that the size distributions of poly(A) ⁺RNA and poly(A) sequences obtained from different blastomeres of 8-cell embryos did not differ greatly. It was also found that cytoplasmic polyadenylation of maternal RNA, which occurs during early cleavage and blastulation, took place equally in all regions of the cleaving embryos, suggesting no regional difference in the localization of maternally inherited nonpolyadenylated RNA. These observations are discussed in relation to previous findings on differences along the animal-vegetal and dorsal-ventral axes of the early amphibian embryo.     

Accumulation of N-Arachidonoylethanolamine (Anandamide) into Cerebellar Granule Cells Occurs via Facilitated Diffusion

Abstract: N -Arachidonoylethanolamine (anandamide, AEA) is a putative endogenous ligand of the cannabinoid receptor. Intact cerebellar granule neurons in primary culture rapidly accumulate AEA. [³H]AEA accumulation by cerebellar granule cells is dependent on incubation time ( t _1/2 of 2.6 ± 0.8 min at 37°C) and temperature. The accumulation of AEA is saturable and has an apparent K _m of 41 ± 15 µ M and a V _max of 0.61 ± 0.04 nmol/min/10⁶ cells. [³H]AEA accumulation by cerebellar granule cells is significantly reduced by 200 µ M phloretin (57.4 ± 4% of control) in a noncompetitive manner. [³H]AEA accumulation is not inhibited by either ouabain or removal of extracellular sodium. [³H]AEA accumulation is fairly selective for AEA among other naturally occurring N -acylethanolamines; only N -oleoylethanolamine significantly inhibited [³H]AEA accumulation at a concentration of 10 µ M . The ethanolamides of palmitic acid and linolenic acid were inactive at 10 µ M . N -Arachidonoylbenzylamine and N -arachidonoylpropylamine, but not arachidonic acid, 15-hydroxy-AEA, or 12-hydroxy-AEA, compete for AEA accumulation. When cells are preloaded with [³H]AEA, temperature-dependent efflux occurs with a half-life of 1.9 ± 1.0 min. Phloretin does not inhibit [³H]AEA efflux from cells. These results suggest that AEA is accumulated by cerebellar granule cells by a protein-mediated transport process that has the characteristics of facilitated diffusion.     

Evidence for κ- and μ-Opioid Receptor Expression in C6 Glioma Cells

Abstract: The astrocytoma cell line rat C6 glioma has been used as a model system to study the mechanism of various opioid actions. Nevertheless, the type of opioid receptor(s) involved has not been established. Here we demonstrate the presence of high-affinity U69,593, endomorphin-1, morphine, and β-endorphin binding in desipramine (DMI)-treated C6 cell membranes by performing homologous and heterologous binding assays with [³H]U69,593, [³H]morphine, or ¹²⁵I-β-endorphin. Naive C6 cell membranes displayed U69,593 but neither endomorphin-1, morphine, nor β-endorphin binding. Cross-linking of ¹²⁵I-β-endorphin to C6 membranes gave labeled bands characteristic of opioid receptors. Moreover, RT-PCR analysis of opioid receptor expression in control and DMI-treated C6 cells indicate that both κ- and μ-opioid receptors are expressed. There does not appear to be a significant difference in the level of μ nor κ receptor expression in naive versus C6 cells treated with DMI over a 20-h period. Collectively, the data indicate that κ- and μ-opioid receptors are present in C6 glioma cells.     

Vegetalization of Sea Urchin Larvae Induced with Cycloheximide

The embryos, kept at 20°C for 3 hr–6 hr from the time of fertilization (at the morula stage), were cultured in sea water containing cycloheximide (10–16 mM) for successive 3 hr and then transferred to normal sea water. The embryos, thus treated, became vegetalized larvae. With the same treatment performed at a developmental stage prior to 3 hr of fertilization, most of embryos developed to small blastulae filled with mesenchyme-like cells. The treatment at a stage after 6 hr of fertilization yielded normal plutei. From the embryos exposed to both ¹⁴C-leucine and ³H-thymidine during the treatment, labelled chromatin was isolated. Only in the presumptive vegetalized embryos obtained by the cycloheximide treatment of morulae, ratio of ¹⁴C-radioactivity found in proteins of chromatin to ³H-radioactivity in DNA was markedly lower than that observed in chromatin from control embryos. The rate of ³H-radioactivity-decrease by DNase I treatment was higher in chromatin isolated from the presumptive regetalized embryos than that observed in chromatin isolated from control ones. Probable failure of chromatin structure formation, due to cycloheximide-inhibition of chromatin protein synthesis, seems to disturb the determination in the embryos at the morula stage, resulting in an induction of vegetalized embryos.     

Interrelationships of Ubiquinone and Sterol Syntheses in Cultured Cells of Neural Origin

Abstract: Ubiquinone synthesis has been studied in cultured C-6 glial and neuroblastoma cells by utilizing an inhibitor, 3-β-(2-diethylaminoethoxy) androst-5-en-17-one hydrochloride (U18666A), of cholesterol biosynthesis. Exposure of C-6 glial cells to nanomolar quantities of U18666A caused a marked inhibition of total sterol synthesis from [¹⁴C]acetate or [³H]mevalonate within minutes. A 95% inhibition was apparent after a 3-h exposure to 200 ng/ml of U18666A. These observations, together with studies of the incorporation of radioactivity from the two precursors into cholesterol, desmosterol, lanosterol, and squalene, indicated that although the most sensitive site to inhibition by U18666A is desmosterol reduction to cholesterol, a major site of inhibition is demonstrable at a more proximal site, perhaps squalene synthetase. As a consequence of the latter inhibition, exposure of C-6 glial cells to U18666A caused a marked stimulation of incorporation of [¹⁴C]acetate or [³H]mevalonate into ubiquinone. Over a wide range of U18666A concentrations, the increase in ubiquinone synthesis was accompanied by an approximately similar decrease in total sterol synthesis. Whereas in the absence of U18666A only approximately 7% of the radioactivity incorporated from [³H]mevalonate into isoprenoid compounds was found in ubiquinone, in the presence of the drug approximately 90% of incorporated radioactivity was found in ubiquinone. The reciprocal effects of U18666A on ubiquinone and sterol syntheses were apparent also in the neuronal cells. The data thus demonstrate a tight relationship between ubiquinone and sterol biosyntheses in cultured cells of neural origin. In such cells ubiquinone synthesis is exquisitely sensitive to the availability of isoprenoid precursors derived from the cholesterol biosynthetic pathway.