GABA-agonists induce the formation of low-affinity GABA-receptors on cultured cerebellar granule cells via preexisting high affinity GABA receptors

The kinetics of specific GABA-binding to membranes isolated from cerebellar granule cells, cultured for 12 days from dissociated cerebella of 7-day-old rats was studied using [³H]GABA as the ligand. The granule cells were cultured in the presence of the specific GABA receptor agonist 4, 5, 6, 7-tetrahydroisoxazolo[5,4-c]pyridin-3-ol (THIP, 150 M) or THIP plus the antagonist bicuculline methobromide (150 M of each) or in the absence of the agonist or antagonist. Membranes isolated from granule cells cultured in a medium without the GABA agonist revealed a single binding site for GABA with a binding constant (K _D) of 7.9±0.4 nM and aB _max of 3.42±0.08 pmol×mg^–1 protein. Membranes from cells cultured in the presence of THIP had two binding sites for GABA withK _D-values of 6.8±0.9 nM and 476±311 nM, respectively. The correspondingB _max values were 4.41±0.42 pmol×mg^–1 and 5.81±1.20 pmol×mg^–1. The effect of culturing the cells in THIP was antagonized by the simultaneous presence of bicuculline in the culture media, i.e. no significant low-affinity binding for GABA was found on the membranes from granule cells cultured in both THIP and bicuculline. TheK _D value (14.3±1.4 nM) for the high affinity binding site was, however, slightly increased compared to the non-treated cells. These findings suggest that the ability of THIP to induce formation of low-affinity GABA receptors is mediated by preexisting high-affinity GABA-receptors on the granule cells.     

Receptors for phorbol esters are primarily localized in neurons: Comparison of neuronal and glial cultures

Binding of [³H]PDB has been measured in the present study to determine the levels of protein kinase C in the neuronal and astrocytic glial cells in culture from rat brain. Binding of [³H]PDB to homogenates of cultured neuronal cells from the brains of normotensive and hypertensive rats was time-dependent and specific. The relative potency for competition by various phorbol esters to [³H]PDB binding was TPA > -PDD > POE > -PDD 4phorbol. Scatchard analysis showed that neuronal cultures from normotensive rat brains contained 2–3 fold more phorbol ester receptors compared with the glial cultures from the same brains. No differences in theK _d andB _max were observed between neuronal cultures from normotensive and spontaneously hypertensive rat brains. These studies suggest that the phorbol ester receptors are primarily localized in neuronal cells.     

Bovine generalised glycogenosis type II: Uptake of lysosomal α-glucosidase by cultured skeletal muscle and reversal of glycogen accumulation

Acid α-glucosidase (EC 3.2.1.20) was purified from fetal bovine muscle by affinity chromatography on concanavalin A and Sephadex G-100 and added to the culture medium of mature muscle cultures from animals affected by glycogenosis type II. The enzyme activity in homogenates of treated cultures was significantly increased within 4 h of the addition of enzyme, was maximal by 18 h and the internalised activity was stable for at least 48 h after the removal of the enzyme from the culture medium. The acid α-glucosidase activity was internalised with an uptake constant of 300 nM and a V_max of uptake of 133 per mg protein. The glycogen concentration in affected cultures treated with exogenous acid α-glucosidase for 24 h had decreased by 20% and after a further 24 h of culture was comparable to the concentration observed in cultures from non-affected animals.Glycogenosis type IIa-GlucosidaseEnzyme uptakePompe's diseaseCultured muscle     

Identification of nucleoside transport binding sites in the human myocardium

The role of nucleoside transport in ischemia-reperfusion injury and arrhythmias has been well documented in various animal models using selective blockers. However, clinical application of nucleoside transport inhibitors remains to be demonstrated in humans. It is not known whether human heart has nucleoside transport similar to that of animals. The aim of this study is to pharmacologically identify the presence of nucleoside transport binding sites in the human myocardium compared to animals.Myocardial tissue was obtained from guinea pig left and right ventricle, canine left ventricle, human intraoperative right atrium and human cadaveric right atrium and right and left ventricles. Myocardial preparations were obtained from tissue samples after homogenized and a differential centrifugation.Equilibrium binding assays were performed using [³H]-p-nitrobenzylthioinosine (NBMPR) at room temperature in the presence or absence of non-radioactive NBMPR or other nucleoside transport blockers such as p-nitrobenzylthioguanosine dipyridamole, lidoflazine, papaverin, adenosine and doxorubcine. From saturation curves and inhibition kinetics, we determined the relative maximal binding (B_max) and dissociation constant (K_d) of [³H]-NBMPR binding of human myocardial preparations.Results demonstrated that the fresh human myocardial preparations have a specific binding site for NBMPR with a B_max of 283 ± 32 fmol/mg protein and K_d of 0.56 ± 0.12 nM. These values are lower than those obtained from guinea pigs (B_max = 1440 ± 187 fmol/mg protein and K_d = 0.21 ± 0.03 nM) and canine atrium (B_max 594 ± 73 fmol/mg protein, and K_d = 1.12 ± 0.22 nM).Displacement kinetics studies revealed the relative potencies (of certain unrelated drugs as follow: p-nitrobenzylthioguanosine > dipyridamole > lidoflazine > pavaverine > Diltazam > adenosine > doxyrubicin. It is concluded that human myocardium contains an active nucleoside transport site which may play a crucial role in post-ischemic reperfusion-mediated injury in a wide spectrum of ischemic syndromes.     

Light and dark adaptation influences GABA receptor sites in the chick retina

The aim of the present study was to investigate the effect of environmental conditions such as light-and-dark-adaptation on the plasticity of GABA receptor sites in the chick retina. In chicks exposed to light for 5 hr (light-adapted), specific [³H]GABA binding was increased by 35% in comparison to the binding found in chicks maintained in darkness (dark-adapted). Conversely, in the retina of chicks exposed to darkness for 5 hr, specific [³H]GABA binding was decreased by 28% with respect to that found in chicks kept in the light. Scatchard analysis of the binding data revealed that the affinity of GABA for its receptor binding site was higher in the retinas of light-adapted chicks than in those of dark-adapted chicks (K _d values of 19.20±1.23 and 27.20±1.47 nM, respectively). On the contrary, the maximal number of binding sites (B_max) remained unchanged in light- and dark-adapted chicks (5.2±0.10 and 5.3±0.15 pmol/mg protein, respectively). These results suggest the involvement of GABA receptors in the regulation of visual function.Special Issue dedicated to Prof. Eduardo DeRobertis     

Binding of octopamine to membranes from the white-eyed and wild-type housefly heads

In attempting to develop an octopamine (OA) receptor preparation with ready access to large amounts of tissue, we examined the binding of OA to membranes from the heads of white and red houseflies (Musca domestica L.). Binding was dependent on the presence of L-ascorbic acid in the medium. However, equilibrium was reached only over 24–36 h at 4°C and reversal of binding was also slow and incomplete. Scatchard analysis revealed at least two binding sites in the white-eyed housefly. A high-affinity site (K_d = 13.9 nM and B_max = 3.9 pmol/mg protein) was present, but the majority of the binding had low affinity (K_d = 1130 nM and B_max = 165 pmol/mg protein). Scatchard analysis revealed a low affinity in the red-eyed housefly (K_d = 240 nM and B_max = 12 pmol/mg protein). Catecholamines were the best competitors for OA binding followed by phenolamines such as OA and synephrine. 5-Hydroxytryptamine was less effective. Phentolamine and mianserin, which are good antagonists of the ability of OA to stimulate adenylate cyclase in housefly head membranes, and formamidine and imidazolines, which are potent partial agonists of this adenylate cyclase, were poor competitors of OA binding. The slow kinetics, low affinity, large amount, and unconventional pharmacological profile of this binding is not congruent with it being a neuroreceptor. When the brain was dissected free from the head, less than 10% of the total specific binding of OA was found in the brain membrane fraction. This suggests that most of the binding of OA may be to cuticular sites that possibly are associated with the metabolism of catecholamines in cuticular synthesis. Thus, binding studies made with labeled catecholamines and phenolamines on insect tissues containing significant cuticular elements should be interpreted with caution.     

Uptake of ethanolamine in neuronal and glial cell cultures

The uptake of radioactive ethanolamine has been studied in exclusively neuronal and glial cell cultures from dissociated cerebral hemispheres of chick embryos. Both cell types show saturable kinetics; neurons have an apparentK _m of 6.7 M,V _max 41.4 pmol mg prot.^–1 min^–1 and glial cells aK _m of 119.6 M,V _max 3,917 pmol mg prot^–1 min^–1. The lower affinity of the transport and the 100 fold increase inV _max observed in glial cells correlated with a more important accumulation of free ethanolamine found in glial cells and with a higher degree of phosphorylation of ethanolamine. The uptake appeared to be temperature and Na⁺ ions dependent but was not affected by CN^– or ouabain. Monomethyl-, dimethylethanolamine and choline were effective in inhibiting the uptake. Little or no effect was observed with serine, methionine, carnitine, alanine or glutamate.     

MT2-like melatonin receptor modulates amplitude receptor potential in visual cells of crayfish during a 24-hour cycle

Retinular photoreceptors are structures involved in the expression and synchronization of the circadian rhythm of sensitivity to light in crayfish. To determine whether melatonin possesses a differential effect upon the receptor potential (RP) amplitude of retinular photoreceptors circadian time (CT)-dependent, we conducted experiments by means of applying melatonin every 2 h during a 24-hour cycle. Melatonin with 100 nM increased RP amplitude during subjective day to a greater degree than during subjective night. To determine whether MT₂ melatonin receptors regulate the melatonin-produced effect, we carried out two experiments, circadian times (CTs) 6 and 18, which included the following: (1) application of the MT₂ receptor selective agonist 8-M-PDOT and antagonist DH97, and (2) the specific binding of [¹²⁵I]-melatonin in eyestalk membranes. The amount of 10 nM of 8-M-PDOT increased RP amplitude in a similar manner to melatonin, and 1 nM DH97 abolished the increase produced by melatonin and 8-M-PDOT. Binding of [¹²⁵I]-melatonin was saturable and specific. Scatchard analysis revealed an affinity constant (K_d) of 1.1 nM and a total number of binding sites (B_max) of 6 fmol/mg protein at CT 6, and a K_d of 1.46 nM and B_max of 7 fmol/mg protein at CT 18. Our results indicate that melatonin increased RP amplitude of crayfish retinular photoreceptors through MT₂-like melatonin receptors. These data support the idea that melatonin is a signal of darkness for the circadian system in crayfish retinular cells.     

Decreased 5-HT2C receptor binding in the cerebral cortex and brain stem during pancreatic regeneration in rats

The purpose of this study was to investigate the role of central 5-HT_2C receptor binding in rat model of pancreatic regeneration using 60–70% pancreatectomy. The 5-HT and 5-HT_2C receptor kinetics were studied in cerebral cortex and brain stem of sham operated, 72 h pancreatectomised and 7 days pancreatectomised rats. Scatchard analysis with [³H] mesulergine in cerebral cortex showed a significant decrease (p < 0.05) in maximal binding (B_max) without any change in K_d in 72 h pancreatectomised rats compared with sham. The decreased B_max reversed to sham level by 7 days after pancreatectomy. In brain stem, Scatchard analysis showed a significant decrease (p < 0.01) in B_max with a significant increase (p < 0.01) in K_d. Competition analysis in brain stem showed a shift in affinity towards a low affinity. These parameters were reversed to sham level by 7 days after pancreatectomy. Thus the results suggest that 5-HT through the 5-HT_2C receptor in the brain has a functional regulatory role in the pancreatic regeneration.     

[3H]Serotonin binding sites in goldfish retinal membranes

Serotonin (5HT) binding sites were studied in goldfish retinal membranes by radioligand experiments. The binding site of [³H]5HT was sensitive to pre-treatment of the membranes at 40° or 60° C. 5HT and 5-methoxy-N,N-dimethyltryptamine were the best inhibitors of [³H]5HT binding to retinal membranes. The 5HT₂ agonist, 1-(-naphtyl)piperazine, was also a potent inhibitor, however, (+)-1-2,5-dimethoxy-4-iodopheny1-2-aminopropane was less efficient. The catecholaminergic agents haloperidol and clonidine did not display an important inhibition. Propranolol, also reported as 5HT_1B antagonist, was a relatively potent blocker. Monoamine uptake blockers did not show potent inhibition. The GTP analog, GppNHp, inhibited the binding. The iterative analysis of saturation curves revealed two classes of binding sites, a high affinity component (B_max 2.45 pmol/mg of protein, k_d 6.86 nM), and a low affinity component (B_max 53.46 pmol/mg of protein, K_d 232.07 nM). Analysis of the association and dissociation kinetics suggested a binding site (K_d 2 nM). The semilogarithmic plot of the dissociation kinetics gave curves concave to the upper side. The selectivity of the binding and the inhibition by GppNHp suggest the existance of 5HT₁ receptors in goldfish retina. The low affinity interaction probably represents the transporter of 5HT or a suptype of receptor expressed in glial cells.Abbreviations used B _max maximum binding capacity - CPP, 1 (3 chlorophenyl)piperazine - CLN clonidine - DMI desimipramine - DMT 5-methoxy-N,N-dimethyltryptamine - DOI (+)-1-(2,5-dimethoxy-4-iodophenyl-2-aminopropane - DPAT (+)-8-hydroxy-2-(D1-N-propylamino)tetralin - GppNHp 5-guanylylimidodiphosphate - HAL haloperidol - 5HT serotonin - IC₅₀ concentration of drug producing 50% inhibition of binding - IMI imioramine - K_d equilibrium dissociation constant - MIAN mianserin - NOM nomifensin - NP 1-(1-napthyl)piperazine - PRP propranolol In memory of Dr. Boris Druian who died on Dec. 24, 1991.     

Stereoselective uptake of the GABA-transaminase inhibitors gamma-vinyl gaba and gamma-acetylenic GABA into neurons and astrocytes

The cellular uptake of the GABA-transaminase inhibitors gamma-vinyl GABA (GVG) and gamma-acetylenic GABA (GAG) was studied in cultured neurons and astrocytes. By the use of the individual enantiomersR- andS-GVG andR- andS-GAG it could be shown that in both cell types only theS-enantiomers could be actively transported. Comparing neurons and astrocytes only neurons exhibited a high affinity uptake system forS-GVG (K _m 78.2±20.3 M;V _max 0.71±0.06 nmol · min^–1 · mg^–1 cell protein). In case ofS-GAG it could not be established with certainty whether the neuronal uptake was of the high affinity type. Both GVG and GAG were studied as inhibitors of GABA uptake into neurons and astrocytes.S-GVG andS-GAG were found to be weak inhibitors of GABA uptake suggesting thatS-GVG is not transported by the GABA carrier in neurons. The finding of a much more efficient uptake ofS-GVG into neurons than into astrocytes is in line with the previous observation that neuronal GABA-T is more sensitive than astrocytic GABA-T toS-GVG.     

The neuropeptide bradykinin stimulates phosphoinositide turnover in HSDM1C1 cells: B2-antagonist-sensitive responses and receptor binding studies

Bradykinin (BK) and its analogs (1 nM-100 M) stimulated phosphoinositide (PI) turnover in murine fibrosarcoma (HSDM1C1) cells in a concentration-dependent manner. The relative potencies (EC₅₀) were: BK=48±4 nM; Lys-BK=39±3 nM; Met-Lys-BK=158±33 nM; Des-Arg⁹-BK=2617±598 nM (means±SEM, n=3–14). All these analogs were full agonists and they produced up to 5.4±0.4-fold stimulation of PI turnover at the highest concentration (10–100 M) of the peptides. In contrast, the analogs [D-Arg⁰-HYP³-Thienyl^5,8-D-Phe⁷]-BK (HYP³-antagonist), [D-Arg⁰-HYP³-Thienyl,^5,8-D-Phe⁷]-BK (Thienyl antagonist) and Des-Arg⁹-Leu⁸-BK were inactive, as agonists, at 0.1 nM-1 M in this system. These data suggested that BK-induced PI turnover in these cells was mediated via B₂-type of BK receptors. This was confirmed further by the fact that both the B₂-selective Hyp³- and Thienyl-antagonists inhibited BK-induced PI turnover with K_BS of 369±51 nM and 368±118 nM respectively while the B₁-selective antagonist, Des-Arg⁹-Leu⁸-BK, was inactive at 1 M. [³H]BK receptor binding studies revealed two binding sites, one with high affinity (K_d=0.24±0.06 nM; B_max=1.4±0.4 pmol/g tissue) and the other with low affinity (K_d=18.5±0.95 nM; B_max=25.1±0.52 pmol/g tissue), on HSDM1C1 cell homogenates. The rank order of affinity of BK analogs at inhibiting specific [³H]BK binding was similar to that found for PI turnover. Taken together, these data have provided evidence for the presence of two B₂-type BK binding sites on the HSDM1C1 cells. Based on the affinity parameters, the low-affinity component of [³H]BK binding in HSDM1C1 cells appears to be coupled to the phospholipase C-induced PI turnover mechanism. The high-affinity component has been previously shown to mediate the production of prostaglandins by activation of phospholipase A₂.     

Differential effect of ethanol on muscarinic cholinergic binding to rat and locust neural membranes

We have compared the effect of ethanol, a membrane perturbant, on the muscarinic binding sites in neural membranes from a vertebrate (rat) and an insect (locust). The binding of the muscarinic antagonist [³H]quinuclidinyl benzilate ([³H]QNB) to both rat and locust neural membranes was inhibited by ethanol at 10–500 mM concentrations; but this inhibition was greater in the locust. Ethanol (500 mM) increased the apparent dissociation constant (K d) of [³H]QNB binding to rat membranes from 0.13±0.01 nM in control to 0.20±0.02 nM; there was also an small but significant reduction in the number of binding sitesB _max. In locust, 500 mM ethanol reduced theB _max of [³H]QNB binding from 590±30 in control to 320±40 pmol/g protein; no significant alteration in theK _D was detected. The dissociation rate constant (k _off) of [³H]QNB increased from 0.020±0.003 in controls to 0.031±0.004 (min^–1) in the presence of 500mM ethanol, the association rate constant (k _on) did not change significantly. In locust, 500 mM ethanol did not affect eitherk _on ork _off. Competition experiments revealed that the binding affinities of both the agonist carbamylcholine and the antagonist atropine to the rat membranes were reduced in the presence of ethanol. In contrast, ethanol caused no alteration in the binding affinities of these ligands to the locust membranes. This differential effect of ethanol on rat and locust muscarinic binding suggests a difference in the hydrophobic domains and/or the membrane interactions of the muscarinic receptors in the two species.     

Steroid hormone specifically binds to rat kidney plasma membrane

A high-affinity and low-capacity corticosterone specific binding was detected in the purified plasma membrane preparation from rat kidney using anin vitro steroid hormone binding assay. The specific-bound hormone was efficiently distinguished from the irreversible-bound hormone with 10 µM corticosterone. Under standardized conditions of pH 7.4 at 2°C and 30 min incubation time, the binding was saturable and showedK _d=13±3 nM andB _max=616±34 fmol/mg of protein. Competitive binding studies with analogue steroids indicated that corticosterone binding to kidney plasma membrane is hormone-specific. Results indicated that the possible nongenomic effects of steroids could be mediated by their interaction with plasma membrane.     

Regulation of the neuronal norepinephrine transporter by endothelin-1 and -3 in the rat anterior and posterior hypothalamus

We previously reported that endothelin-1 and endothelin-3 modulate norepinephrine neuronal release and tyrosine hydroxylase activity and expression in the hypothalamus. In the present study we sought to establish the role of endothelin-1 and -3 in the regulation of norepinephrine uptake in the anterior and posterior hypothalamus. Results showed that in the anterior hypothalamus endothelin-3 increased neuronal norepinephrine uptake whereas endothelin-1 decreased it. Conversely, in the posterior hypothalamic region both endothelins diminished the neuronal uptake of the amine. Endothelins response was concentration dependent and maintained at all studied times. Endothelins also modified the kinetic and internalization of the NE neuronal transporter. In the anterior hypothalamic region endothelin-3 increased the V_max and the B_max whereas endothelin-1 decreased them. However, in the posterior hypothalamic region both endothelins diminished the V_max as well as B_max. Neither endothelin-1 nor endothelin-3 modified neuronal norepinephrine transporter K_d in the studied hypothalamic regions. These findings support that in the posterior hypothalamic region both endothelins diminished neuronal norepinephrine transporter activity by reducing the amine transporter expression on the plasmatic membrane. Conversely, in the anterior hypothalamic region endothelin-3 enhanced neuronal norepinephrine transporter activity by increasing the expression of the transporter on the presynaptic membrane, whereas endothelin-1 induced the opposite effect. Present results permit us to conclude that both endothelins play an important role in the regulation of norepinephrine neurotransmission at the presynaptic nerve endings in the hypothalamus.     

Effect of external high potassium and pH on the uptake of choline in glial and neuronal cells in culture

TheV _max of the uptake of choline was increased in nerve cell cultures by lowering (from 7.4 to 6.5) or increasing (from 7.4 to 8.1) the pH. In neurons no effect was observed on the value of theK _m's of the uptake of either the apparent high or low affinity components. In glial cells only a low affinity component was measured at pH 6.5 and diffusion was observed at pH 8.1. An excess of K⁺ ions in the incubation medium reproduced the increase inV _max observed with changes in pH suggesting a possible dependence of the uptake of choline upon the H⁺ and OH^– gradients. Taking into account the characteristics already known of the transport of choline into nerve cells, such a dependence adds new insight in the mechanisms underlying the transport and indicates another possible regulation of choline entry, eventually directed towards the synthesis of acetylcholine.     

Binding of β1-adrenoreceptor antagonist [3H]CGP 26505 in rat cerebral cortex and sinus atrial nodeantagonist [3H]CGP 26505 in rat cerebral cortex and sinus atrial node

Specific β₁-adrenoreceptors antagonist [³H]CGP 26505 binding was characterized in rat cerebral cortex and heart sinus atrial node. In both tissues [³H]CGP 26505 binding was maximal at 25°C, it was specific, saturable and protein concentration dependent. Scatchard analysis of saturation isotherms of specific [³H]CGP 26505 binding in cerebral cortex showed that [³H]CGP 26505 binds a single class of high affinity sites with a dissociation constant (K_D) of 1±0.3 nM and a maximal number of binding sites (B_max) of 40±2 fmol/mg of protein. In sinus atrial node, [³H]-CGP 26505 binds a single class of high affinity sites (K_D=1.9±0.4 nM, B_max=28±2 fmol/mg of protein).     

Allosteric effects of atropine and carbachol on the activity of α<Subscript>2</Subscript>-adrenoceptors in rat brain cortex membranes

Activation and inhibition of muscarinic cholinoceptors by atropine and carbachol are shown to exert allosteric effects on the binding of specific nonselective α₂-adrenoceptor antagonist [³H]RX821002 in rat brain cortex membranes. The ligand-receptor interaction for α₂-adrenoceptors corresponded to the model suggesting the presence of one homogeneous pool of receptors with two specific binding sites. The parameters of the [³H]RX821002 binding were as follows: [³H]RX821002 -K _d = 1.94 ± 0.08 nM, B _max = 13.4 ± 1.8 fmol/mg protein, n = 2. The inhibition of muscarinic cholinoceptors by atropine induced an increase of affinity (K _d = 1.36 ± 0.12 nM) and a decrease of the α2-adrenoceptor density (B _max = 10.18 ± 0.48 fmol/mg protein). The muscarinic cholinoceptor agonist carbachol induced an increase of the affinity (K _d = 1.56 ± 0.05 nM) and quantity of binding sites (B _max = 16.61 ± 0.29 fmol/mg protein). As a result, under the influence of atropine and carbachol, the efficiency of binding (E = B _max/2K _d) increased from 3.50 ± 0.40 to 5.60 ± 0.79 and 6.86 ± 0.20 fmol/mg protein/nM, respectively. The data suggest that α₂-adrenoceptors exist in rat brain cortex as homodimers.     

Insulin: Its binding to specific receptors and its stimulation of DNA synthesis and 2′,3′-cyclic nucleotide phosphohydrolase activity in cerebral cells cultured from embryonic mouse brain

The presence and specificity of insulin receptors was investigated in cultured cells obtained from 15–16 days old embryonic mouse cerebra. Developmental studies suggested that the maximum insulin binding occurred at about 11 days in vitro (DIV). Scatchard analysis of binding data revealed two types of binding sites. One type of receptor was the high affinity type (K _d=7.77×10^–9 M; number of receptor sites,B _max=350 fmol/mg protein) while the other type was of low affinity type (K _d=5.75×10^–8 M;B _max=1150 fmol/mg protein). The specificity of receptors for insulin was also confirmed by showing that [¹²⁵I]insulin was displaced by non-radioactive insulin but not by glucagon or growth hormone. Insulin displayed a clear dose-dependent stimulation of thymidine incorporation. It also stimulated the activity of the enzyme 2,3-cyclic nucleotide phosphohydrolase (CNPase), which is specifically associated with myelin produced from oligodendroglia. Thus insulin has a positive influence on the proliferation and differentiation of brain cells.     

Phosphorylation of the Protein Encoded by the First Open Reading Frame of the MDG4 Transposable Element (gypsy) by Homologous and Heterologous Casein Kinases Type 2

Homogeneous casein kinase type 2 (CK2) was obtained from oocytes of Rana temporaria and cells of Drosophila melanogaster by chromatography on heparin-Sepharose, phosphocellulose, and Mono Q columns using a Pharmacia FPLC system. The procedure was first successfully used for the purification of CK2 from the Drosophila melanogaster cell culture. It has been shown that the protein encoded by the first open reading frame (ORF) of the gypsy transposable element (MDG4) is an effective protein substrate both for homologous and heterologous CK2 from the oocytes of Rana temporaria in vitro. Both enzymes catalyze the incorporation of two moles of phosphate per mole of protein. The K_m and V_max values for the reaction catalyzed by CK2 from the Drosophila cell culture were 32.5 ± 2.1 nM and 70.97 ± 1.89 nmol/min per µg, respectively, and for CK2 from oocytes, these values were 37.6 ± 2.8 nM and 66.02 ± 2.15 nmol/min per µg, respectively.