Adenosine Release and Uptake in Cerebellar Granule Neurons Both Occur via an Equilibrative Nucleoside Carrier that Is Modulated by G Proteins

Abstract: There is debate about the mechanisms mediating adenosine release from neurons. In this study, the release of adenosine evoked by depolarizing cultured cerebellar granule neurons with 50 mM K⁺ was inhibited by 49 ± 7% in Ca²⁺-free medium. The remaining release was blocked by dipyridamole (IC₅₀ = 6.4 × 10^?8M) and nitrobenzylthioinosine (IC₅₀ = 3.6 × 10^?8M), inhibitors of adenosine uptake. Ca²⁺-dependent release was reduced by 78 ± 9% following a 21-h pretreatment of the cells with pertussis toxin, which ADP-ribosylates G_i/G_o G proteins, thereby preventing their dissociation. The nucleoside transporter-mediated component of K⁺-induced adenosine release also was inhibited by 62 ± 8% by pertussis toxin and was potentiated by 78 ± 11% following cholera toxin treatment, which permanently activates G_s. Uptake of [³H]adenosine into cultured cerebellar granule neurons over a 10-min period was not dependent on extracellular Na⁺ but was reduced by dipyridamole (IC₅₀ = 3.2 × 10^?8M) and nitrobenzylthioinosine (IC₅₀ = 2.6 × 10^?8M). Thus, adenosine uptake likely occurs via the same transporter mediating Ca²⁺-independent adenosine release. Adenosine uptake was potentiated by cholera toxin pretreatment (152 ± 15% of control), but pertussis toxin had no statistically significant effect. It is possible that G_s, G_i/G_o, or free Gβγ dimer modulate the equilibrative, inhibitor-sensitive nucleoside carrier to enhance adenosine transport.     

Mivazerol, a Novel α2-Agonist and Potential Anti-Ischemic Drug, Inhibits KCl-Stimulated Neurotransmitter Release in Rat Nervous Tissue Preparations

Abstract: In this study, we have investigated the effect of mivazerol, [3-(1H-imidazol-4-yl)methyl-1]-2-hydroxy-benzamide hydrochloride, a new α₂-agonist lacking hypotensive properties and a potential anti-ischemic drug, on the evoked release of norepinephrine, aspartate, and glutamate in tissue preparations from hippocampus, spinal cord T1–T5 section, rostrolateral ventricular medulla, and nucleus tractus solitarii of the brainstem of rat. A simple and efficient in vitro procedure to study pharmacologically the release of norepinephrine and glutamate is described. Tissues were chopped into (0.3 × 0.2 × 0.2 mm³) sections and the resulting minces were used for this study. Exposure to KCl (10–75 mM) for 5 min served as a stimulus for the release response. One, S (for aspartate and for glutamate release), or two such stimuli, S₁ and S₂ (for norepinephrine release) were conducted. The release of norepinephrine (+150% above baseline) was inhibited in a dose-dependent manner by mivazerol in hippocampus (IC₅₀ = 1.5 × 10^?8M), spinal cord (IC₅₀ = 5 × 10^?8M), rostrolateral ventricular medulla (IC₅₀ = 10^?7M), and nucleus tractus solitarii (IC₅₀ = 7.5 × 10^?8M), and by clonidine in hippocampus (IC₅₀ = 5 × 10^?8M), spinal cord (IC₅₀ = 4.5 × 10^?8M), rostrolateral ventricular medulla (IC₅₀ = 2.5 × 10^?7M), and nucleus tractus solitarii (IC₅₀ = 10^?7M). This effect was counteracted by the selective α₂-antagonists yohimbine and rauwolscine. A significant glutamate and aspartate release response was also induced by KCl (35 mmol/L) in hippocampus (+250 and +135%, respectively) and spinal cord (+120 and +55%, respectively), in vitro. However, neither mivazerol nor clonidine, at doses up to 10 µM, had any significant effect on KCl-induced glutamate release in spinal cord, whereas mivazerol blocked completely the release of both amino acids in hippocampus and only the release of aspartate in spinal cord. On the other hand, clonidine (1 µM) was only effective in reducing by 40% the release of aspartate in hippocampus. These data indicate that (1) inhibition of KCl-induced norepinephrine release by mivazerol is mediated by its action on α₂-adrenergic receptors; (2) at concentrations selective for α₂-adrenergic receptors, only mivazerol was effective in blocking the KCl-induced glutamate release in hippocampal tissue; and (3) at the same concentrations, both mivazerol and clonidine were unable to inhibit glutamate release in the spinal cord. These data suggest that prevention of hyperadrenergic activity by mivazerol in perioperative patients may be mediated through its effect on the release of norepinephrine and/or the release of glutamate and aspartate in regions of the CNS that are involved in the control of cardiovascular homeostasis.     

SR 140333, a Novel, Selective, and Potent Nonpeptide Antagonist of the NK1 Tachykinin Receptor: Characterization on the U373MG Cell Line

The effects of a novel nonpeptide NK1 tachy-kinin receptor antagonist, SR 140333, on the functional consequences of NK1 receptor activation in a human astrocytoma cell line, U373MG, were investigated. Radioligand binding conducted with ¹²⁵l-Bolton-Hunter substance P revealed a competitive inhibition by SR 140333 and its R enantiomer SR 140603 with K_i values of 0.74 and 7.40 nM, respectively. The NK1-selective agonist, [Sar⁹,Met(O₂)¹¹]-substance P, stimulated the formation of inositol phosphates with an EC₅₀ of 3.8 × 10^?9M. SR 140333 blocked the stimulatory effect of this agonist (10^?7M) with an IC₅₀ of 1.6 × 10^?9M,whereas the effect of another NK1 agonist, septide (EC₅₀= 1.5 × 10^?8M)was antagonized with an IC₅₀ of 2.1 × 10^?10M.Enhancement of [³H]taurine release by [Sar⁹,Met(O₂)¹¹]-substance P (EC₅₀= 7.4 × 10^?9M) was also inhibited by SR 140333 with an IC₅₀ of 1.8 × 10^?9 M. SR 140603 was 10-fold less potent than SR 140333 in inhibiting inositol monophosphate formation and [³H]taurine release. The calcium mobilization induced by [Sar⁹,Met(O₂)¹¹]-substance P (10^?8M) was totally prevented by 10^?8MSR 140333. Patchclamp experiments showed that SR 140333 depressed the outward current evoked by 5 × 10^?8M [Sar⁹, Met(O₂)¹¹]-substance P with an IC₅₀ of 1.3 × 10^?9M. The expression of c-fos was stimulated by [Sar⁹,Met(O₂)¹¹]-substance P with an EC₅₀ of 2.5 × 10^?10M, an effect that was also inhibited by SR 140333 with an IC₅₀ of 1.1 × 10^?9M. The present results illustrate the sequential events of the response elicited by NK1 agonists, which were antagonized by SR 140333, demonstrating its powerful NK1 antagonist activity on a functional basis.     

Proliferation of a highly androgen-sensitive ductus deferens cell line (DDT1MF-2) is regulated by glucocorticoids and modulated by growth on collagen

Summary Proliferation of the hamster ductus deferens cloned tumor cell line (DDT₁MF-2) in monolayer culture is markedly stimulated by androgens in a dose dependent fashion. Furthermore, growth on collagen confers upon these cells a greater dependence on this class of hormones, such that testosterone (10 nM) induces a 15-fold elevation in cell number compared to controls. Addition of either dexamethasone (10 nM) or triamcinolone acetonide (TA; 10 nM) dramatically blocks this stimulation by reversibly arresting the cells in the G1 phase of the cell cycle as assessed by flow cell cytometry. Associated with the decreased growth rate is a change from a rounded to a more flattened morphology that may also implicate cell shape in the regulation of proliferation. These steroid effects presumably are mediated through specific receptor proteins for which dihydrotestosterone (DHT) and TA bind with equilibrium dissociation constants (Kd) of 0.3 and 1.0 nM, respectively. Moreover, not only do androgens increase growth rate but treatment with 1 nM [³H]DHT also results in an elevation in androgen receptor concentration from 1.6 to 3.6 f mol/μg DNA in 7 h. Simultaneous treatment with 10 nM TA, however, reduces this increase by 53%. Inasmuch as neither progesterone nor estradiol-17β display similar inhibitory activity, this effect also seems to be glucocorticoid specific. These observations may be important in elucidating the mechanism of androgen action and should provide some insight into the role of glucocorticoids in regulating the growth of androgen dependent tissues. This research was supported by Grant R01 CA 36264 from the National Institutes of Health, Bethesda, MD.     

Endogenous prostaglandin E2 enhances polyclonal immunoglobulin production by tonically inhibiting T suppressor cell activity

The immunoregulatory effect of endogenous prostaglandin E₂ (PGE₂) on immunoglobulin production was studied in an in vitro culture system of human peripheral blood mononuclear cells, stimulated with pokeweed mitogen (PWM). Three different cyclooxygenase inhibitors (indomethacin, carprofen, and piroxicam) suppressed Ig synthesis by ~50%. This inhibitory effect could be reversed by adding low doses of exogenous PGE₂ (3 × 10^?9 to 3 × 10^?8M). These doses are endogenously produced in PWM-stimulated cultures, and a concentration of 2 × 10^?8M is reached after 48 hr of culture. When B cells were directly stimulated with helper factor, PGE₂ did not enhance Ig production and doses of 3 × 10^?7M to 3 × 10^?6M were inhibitory. The effects of indomethacin and PGE₂ were eliminated when T cells were irradiated or treated with mitomycin prior to culture. The enhancing effects of PGE₂ were substantially reduced after OKT8(+) T cells were removed from the system. PWM-stimulated cultures of lymphocytes from healthy subjects over age 70 were more sensitive to inhibition by indomethacin and to stimulation by PGE₂ than were cultures of lymphocytes from young controls. Thus the major role of endogenous PGE in polyclonal Ig production in vitro is to tonically inhibit a radiosensitive, OKT8(+) suppressor T cell. This tonic inhibition is increased in subjects over 70, which provides one explanation for decreased suppressor cell function in elderly subjects.     

The effect of thymosin on glucocorticoid receptors in lymphoid cells

The present study investigates the effect of a partially purified thymus factor, thymosin Fraction 5, and an homogeneous polypeptide component of Fraction 5, thymosin α₁, on glucocorticoid resistance and glucocorticoid receptors in mouse thymocytes. Treatment of thymocytes in vitro with thymosin Fraction 5 or α₁, results in an increase in the percentage of glucocorticoid-resistant cells. Studies on the specific whole-cell binding of [³H]dexamethasone and steroid competition experiments demonstrate the existence of high-affinity (K_d = 1.0 × 10^?8M) specific glucocorticoid receptors in mouse thymocytes. Preincubation with thymosin Fraction 5 or α₁ appears to cause a reduction in the specific [³H]dexamethasone binding to intact thymocytes.     

The expression of URGCP gene in prostate cancer cell lines: correlation with rapamycin

Molecular targets in prostate cancer are continually being explored, for which there are currently few therapeutic options. Rapamycin (RPM) is an antifungal macrolide antibiotic isolated from Streptomyces hygroscopicus which can inhibit the G1 to S transition. URGCP (upregulator of cell proliferation) is a novel gene located on chromosome 7p13. We aimed to investigate the role of URGCP gene expression changes in PC3, DU145, and LNCAP cell lines with/out RPM. Average cell viability and cytotoxic effect of rapamycin were investigated at 24?h intervals for three days by using Trypan blue dye exclusion test and XTT assay. Cytotoxic effects of rapamycin in DU145, PC3 and LNCAP cells were detected in time and dose dependent manner with the IC₅₀ doses within the range of 1–100?nM. As the results were evaluated, IC₅₀ doses in the DU145, PC3, and LNCaP cells were detected as 10, 25, and 50?nM, respectively. The mean relative ratios of URGCP gene expression in DU145, LNCAP and PC3 cells were found as ?1.48, 6.59 and ?13.00, respectively, when compared to rapamycin-free cells. The False Discovery Rate adjusted p value in DU145, LNCAP and PC3 were 1.25?×?10^?5, 2.20?×?10^?8 and 6.20?×?10^?9, respectively. When the URGCP gene expression level is compared between the dose and control group, we found that URGCP gene expression was significantly decreased in dose groups of DU145 and PC3 cells.     

Excitatory neuromuscular transmission in crayfish: Calcium dependence is unaffected by picrotoxin

Picrotoxin, 1 × 10^?5M to 1.6 × 10^?3M, had little or no effect on the amplitude of intracellularly recorded excitatory junctional potentials (EJPs) at extracellular calcium concentrations [Ca²⁺]₀ ranging from 0.5 to 15 mM. The slope of the log EJP vs. log[Ca²⁺]₀ relationship was approximately 1 with or without picrotoxin. The reduction of EJP amplitude resulting from the addition of 5 × 10^?5M GABA was largely reversed by 10^?5M picrotoxin.     

Stimulatory role of smoke–water and karrikinolide on the photosynthetic pigment and phenolic contents of micropropagated ‘Williams’ bananas

At low concentrations, smoke–water (SW) and smoke-derived karrikinolide (KAR₁) are compounds with potential cytokinin and auxin-like activity. Their roles on the growth, photosynthetic pigment and phenolic contents of micropropagated ‘Williams’ bananas were investigated in comparison with meta-topolin (mT). Explants were cultured on modified Murashige and Skoog basal media supplemented with either SW (1:125; 1:250; 1:500; 1:1,000; 1:2,000 dilutions) or KAR₁ at four concentrations ranging from 4.8?×?10^?22 to 3.3?×?10^?12?M. After 42?days, growth parameters were measured while the photosynthetic pigments and phenolic contents were quantified using spectrophotometric methods. Chlorophyll a, b and total carotenoid contents were significantly enhanced by KAR₁ (4.8?×?10^?22?M) and SW (1:125 and 1:1,000 dilutions). The pigments in KAR₁-treated plantlets were approximately two-fold to three-fold higher than those in the control and mT-treated plants, respectively. Total phenolic content was highest with KAR₁ at 1.0?×?10^?19?M in the leaves and 7.8?×?10^?17?M in the roots. Furthermore, KAR₁-treated plants at 1.0?×?10^?19?M yielded the highest level of total phenolics (leaves) and proanthocyanidins (roots). At 1:500 dilutions, SW stimulated the highest total flavonoid content in the leaves across all the treatments. Combining mT with either SW (1:500) or KAR₁ (4.8?×?10^?22?M) significantly increased the quantity of secondary metabolites. However, the growth parameters and pigment contents were not improved. Based on the significant role of photosynthetic pigments and phenolic compounds on the defense and survival strategies of plants, current findings will have practical significance for important processes such as acclimatization and survival of micropropagated plants. These results are also demonstrating the potential of SW and KAR₁ as an eliciting agent for secondary metabolite production.     

Macrophage-like suppressor cells in rats. II. Evidence for a quantitative rather than a qualitative change in tumour-bearer animals

In order to investigate the mechanisms of steroid-induced inhibition of concanavalin A stimulation, we have compared, in mouse lymphoid cells, the ability of various steroids to block transformation with their affinity for glucocorticoid receptors. Our results suggest several possible explanations for the inhibitory effects of the various steroids tested. The action of glucocorticoids, which are inhibitors at concentrations within the physiological range (10^?8–10^?7M) is likely to be mediated through an interaction with specific cytosolic binding sites leading to an overall inhibition of cell metabolism. In contrast, sex steroids only inhibit at pharmacological concentrations, equal to or higher than 10^?5M. These compounds, which do not bind to glucocorticoid receptors, probably act in a “nonspecific” manner at the level of the cell membrane. The effect of 25-OH-cholesterol, a selective inhibitor of cholesterol synthesis, suggests that the level of sterol formation controls in part the proliferative activity of the cells.     

Enhanced Expression of an Endothelin ETA Receptor in Capillaries from Human Glioblastoma: A Quantitative Receptor Autoradiographic Analysis Using a Radioluminographic Imaging Plate System

Abstract: We identified and characterized ¹²⁵I-endothelin-1 (¹²⁵I-ET-1) binding sites in tumor capillaries isolated from human glioblastomas, using the quantitative receptor autoradiographic technique with pellet sections. Quantification was done using the computerized radioluminographic imaging plate system. High-affinity ET receptors were localized in capillaries from glioblastomas and the surrounding brain tissues (K_D = 4.7 ± 1.0 × 10^?10 and 1.6 ± 0.3 × 10^?10M, respectively; B_max = 161 ± 38 and 140 ± 37 fmol/mg, respectively; mean ± SEM, n = 5). BQ-123, a selective antagonist for the ET_A receptor, potently competed for ¹²⁵I-ET-1 binding to sections of the microvessels with IC₅₀ values of 5.1 ± 0.3 and 5.1 ± 1.5 nM, and 10^?6M BQ-123 displaced 84 and 58% of ET binding to capillaries from tumors and brains, respectively. In addition, competition curves obtained in the presence of increasing concentrations of ET-3 showed two components (IC₅₀ = 5.7 ± 2.5 × 10^?10 and 1.4 ± 0.2 × 10^?6M for tumor microvessels, 1.8 ± 0.6 × 10^?10 and 1.1 ± 0.3 × 10^?6M for brain microvessels, respectively). Our results indicate that (a) the method we used is simple and highly sensitive for detecting and characterizing various receptors in tumor capillaries, especially in the case of a sparse specimen, and (b) capillaries in glioblastomas express specific high-affinity ET binding sites, candidates for biologically active ET receptors, which predominantly belong to the ET_A subtype.     

Inhibition of protein tyrosine phosphatase 1B (PTP1B) and α-glucosidase by xanthones from Cratoxylum cochinchinense, and their kinetic characterization

Cratoxylum cochinchinense displayed significant inhibition against protein tyrosine phosphatase 1B (PTP1B) and α-glucosidase, both of which are key target enzymes to attenuate diabetes and obesity. The compounds responsible for both enzymes inhibition were identified as twelve xanthones (1–12) among which compounds 1 and 2 were found to be new ones. All of them simultaneously inhibited PTP1B with IC₅₀s of (2.4–52.5?µM), and α-glucosidase with IC₅₀ values of (1.7–72.7?µM), respectively. Cratoxanthone A (3) and γ-mangostin (7) were estimated to be most active inhibitors against both PTP1B (IC₅₀?=?2.4?µM for 3, 2.8?µM for 7) and α-glucosidase (IC₅₀?=?4.8?µM for 3, 1.7?µM for 7). In kinetic studies, all isolated xanthones emerged to be mixed inhibitors of α-glucosidase, whereas they behaved as competitive inhibitors of PTP1B. In time dependent experiments, compound 3 showed isomerization inhibitory behavior with following kinetic parameters: K_i^app?=?2.4?µM; k₅?=?0.05001?µM^?1?S^?1 and k₆?=?0.02076?µM^?1?S^?1.     

Characterization and Regulatory Properties of Glucose-6-Phosphate Dehydrogenase from Black Gram (Phaseolus mungo)

Glucose-6-phosphate dehydrogenase (E.C. 1.1.1.49) was partially purified by fractionation with ammonium sulfate and phosphocellulose chromatography. The K_m value for glucose-6-phosphate is 1.6 × 10^?4 and 6.3 × 10^?4M at low (1.0–6.0 × 10^?4M) and high (6.0–30.0 × 10^?4M) concentrations of the substrate, respectively. The K_m value for NADP⁺ is 1.4 × 10^?5M. The enzyme is inhibited by NADPH, 5-phosphoribosyl-1-pyrophosphate, and ATP, and it is activated by Mg²⁺, and Mn²⁺. In the presence of NADPH, the plot of activity vs. NADP⁺ concentration gave a sigmoidal curve. Inhibition of 5-phosphoribosyl-1-pyrophosphate and ATP is reversed by Mg²⁺ or a high pH. It is suggested that black gram glucose-6-phosphate dehydrogenase is a regulatory enzyme of the pentose phosphate pathway.     

Uptake and binding of β-ecdysone in imaginal discs of Drosophila melanogaster

The kinetics of uptake and retention of β-ecdysone by imaginal discs from late third instar larvae of Drosophila melanogaster correspond well with those of the first synthetic response of discs to hormone, an increase in RNA synthesis.Competition studies indicate the presence of two types of hormone binding sites, specific and non-specific. The specific sites are saturated at hormone concentrations which fully induce morphogenesis. Results are consistent with the hypothesis that analogs which induce morphogenesis at differing concentrations bind to the same sites. Experiments with the inhibitors N-ethylmaleimide, actinomycin d, and cycloheximide suggest that the binding sites are pre-existing in the cell and require functional sulfhydryl groups for binding.Specific binding, binding that is competed by excess unlabeled β-ecdysone, is saturable (70–80 nM). Kinetic rate constants for this specific binding were estimated to be k_a = 1.5 × 10⁵M^?1 min^?1, k_d = 3 × 10^?2 min^?1. The equilibrium dissociation constant calculated from the kinetic rate constants was K_eq = 2 × 10^?7M compared to 1.7 × 10^?7M β-ecdysone required to induce morphogenesis in vitro and 2.5 × 10^?7M determined to be the in vivo concentration at the time of induction of morphogenesis.     

Neutralizing single-chain antibodies against the tick-borne encephalitis virus

A recombinant pSC13D6 plasmid DNA was constructed based on cDNA fragments of genes encoding variable domains of heavy and light chains of the MKA13D6 monoclonal antibody against glycoprotein of the tick-borne encephalitis (TBE) virus. This plasmid provided expression in Escherichia coli cells of the scl3D6 single-chain antibody against the TBE virus. The produced antibodies could bind to the TBE virus, strain 205, and the TBE virus recombinant E protein. The affinity constant of purified scl3D6 was (3.0 ± 0.2) × 10⁷ M^?1 for the equilibrium state and (2.8 ± 0.3) × 10⁷ M^?1 in the case of antigen-antibody formation on the surface. The obtained single-chain antibody could inhibit the infection potency of the TBE virus on a monolayer of eukaryotic cells. The calculated IC₅₀ value for scl3D6 was 16.7 μg/ml.     

Self-exchange rates and electron transfer kinetics of horse heart ferricytochrome C with amino acid-pentacyanoferrate(II) complexes

The electron transfer reactions of horse heart cytochrome c with a series of amino acid-pentacyanoferrate(II) complexes have been studied by the stopped-flow technique, at 25°C, μ = 0.100, pH 7 (phosphate buffer). A second-order behavior was observed in the case of the Fe(CN)₅ (histidine)^3? complex, with k = 2.8 x 10⁵ M^?1 sec^?1. For the Fe(CN)₅ (alanine)^4? and Fe(CN)₅(L-glutamate)^5? complexes, only a minor deviation of the second-order behavior, close to the experimental error (k = 3.2 × 10⁵ and 1.6 x 10⁵ M^?1 sec^?1, respectively) was noted at high concentrations of the reactants (e.g., 6 × 10^?4 M). The results are in accord with recent work on the Fe(CN)₆^4?/cytochrome c system demonstrating weak association of the reactants. The calculated self-exchange rate constants including electrostatic interactions for the imidazole,L -histidine, 4-aminopyridine, glycinate, β-alaninate, andL-glutamate pentacyanoferrate(II) complexes were 3.3 × 105, 3.3 × 10⁵, 2.8 × 10⁶,4.1 × 10²,5.5 × 10², and 6.0 M^?1 sec^?1, respectively. Marcus theory calculations for the cytochrome c reactions were interpreted in terms of two nonequivalent binding sites for the complexes, with the metalloprotein self-exchange rate constants varying from 10⁴ M^?1 sec^?1 (histidine, imidazole, and 4-aminopyridine complexes) to 10⁶ M^?1 sec ^?1 (glycinate, β-alaninate, and L-glutamate complexes).     

PURIFICATION AND CHARACTERIZATION OF PHOSPHODIESTERASE I FROM Walterinnesia aegyptia VENOM

A phosphodiesterase I (EC 3.1.4.1; PDE-I) was purified from Walterinnesia aegyptia venom by preparative native polyacrylamide gel electrophoresis (PAGE). A single protein band was observed in analytical native PAGE and sodium dodecyl sulfate (SDS)-PAGE. PDE-I was a single-chain glycoprotein with an estimated molecular mass of 158 kD (SDS-PAGE). The enzyme was free of 5′-nucleotidase and alkaline phosphatase activities. The optimum pH and temperature were 9.0 and 60°C, respectively. The energy of activation (Ea) was 96.4, the V_max and K_m were 1.14 µM/min/mg and 1.9 × 10^?3 M, respectively, and the K_cat and K_sp were 7 s^?1 and 60 M ^?1 min^?1 respectively. Cysteine was a noncompetitive inhibitor, with K_i = 6.2 × 10^?3 M and an IC₅₀ of 2.6 mM, whereas adenosine diphosphate was a competitive inhibitor, with K_i = 0.8 × 10^?3 M and an IC₅₀ of 8.3 mM. Glutathione, o-phenanthroline, zinc, and ethylenediamine tetraacetic acid (EDTA) inhibited PDE-I activity whereas Mg²⁺ slightly potentiated the activity. PDE-I hydrolyzed thymidine-5′-monophosphate p-nitrophenyl ester most readily, whereas cyclic 3′-5′-AMP was least susceptible to hydrolysis. PDE-I was not lethal to mice at a dose of 4.0 mg/kg, ip, but had an anticoagulant effect on human plasma. These findings indicate that W. aegyptia PDE-I shares various characteristics with this enzyme from other snake venoms.     

Regulation of high- and low-affinity epidermal growth factor receptors by glucocorticoids

It is reported that receptors for epidermal growth factor (EGF) in HeLa S₃ cells exist in two forms, which differ in both affinity and capacity. Both the number of receptors and their distribution into low- and high-affinity forms are modulated by glucocorticoids. Scatchard analysis of saturation binding assays performed at 0 °C indicates that there is a low-affinity class of receptors ($\text{K}{}_{\mathrm{d}}\text{? 1.5}\text{nm}$), which contains approximately 6 × 10⁴ binding sites per cell, and a second, high-affinity class of receptors ($\text{K}{}_{\mathrm{d}}\text{? 0.16}\text{nm}$) containing approximately 5 × 10³ binding sites per cell. Exposure of HeLa S₃ cells to 10^?7m dexamethasone for 24 h increased EGF binding to whole cells by increasing the numbers of low- and high-affinity receptors by 20 and 114%, respectively. The increase in EGF binding depends upon the dose of dexamethasone, being raised from 10^?11 to 10^?6m. EGF binding is half-maximal near 2–4 × 10^?9m, a concentration equal to the K_d of dexamethasone for the glucocorticoid receptor in these cells. The increase in EGF binding is specific for glucocorticoids, occurring when the HeLa S₃ cells are exposed to 10^?7m cortisol or dexamethasone for 24 h, but not when the cells are similarly treated with testosterone, 5α-dihydroxytestosterone, 17β-estradiol, or progesterone. The effect on EGF binding appears to be biphasic; the initial rapid increase occurs between 8 and 12 h, is blocked by both 10^?6m cyclohexamide and 0.1 μg/ml actinomycin D, and is followed by a more gradual increase thereafter. These data indicate that glucocorticoids are able to regulate both the number of EGF receptors and their distribution into high- and low-affinity components. Press, Inc.     

Activation of a Na+-dependent amino acid transport system in preimplantation mouse embryos

The uptake of l-methionine-methyl-³H and l-leucine-³H from completely defined medium into acid-soluble fractions of preimplantation mouse embryos has been studied. Late four-cell embryos and early blastocysts raised in vitro can concentrate both amino acids by processes which exhibit saturable, Michaelis-Menten type kinetics, characteristic of carrier-mediated active transport systems. This uptake is temperature-sensitive and inhibited by certain amino acids which compete for the same uptake sites. Methionine uptake seems to be mediated by a single transport system (K_m = 6.25 × 10^?5M) at the four-cell stage. Complex kinetics suggest that two distinct transport systems exist at the early blastocyst stage (K_m = 6.25 × 10^?5M; 8.9 × 10^?4M). V_max values (mg/embryo/15 min) for methionine and leucine transport increase significantly from the late four-cell stage to the blastocyst stage, suggesting that additional carriers are produced or activated during development.Most importantly, leucine and methionine transport is Na⁺-independent at the four-cell stage, methionine transport is partially dependent at the morula stage, and both amino acids are completely Na⁺-dependent at the blastocyst stage. The cumulative results suggest that preimplantation embryos accumulate leucine and methionine by specific, chemically mediated, active transport systems. The qualitative and quantitative developmental changes in cell membrane function may represent preparatory steps for subsequent growth of embryonic and/or trophoblastic cells.     

High-Affinity Uptake of [3H]Norepinephrine by Primary Astrocyte Cultures and Its Inhibition by Tricyclic Antidepressants

Abstract: Primary astrocyte cultures from neonatal rat brains show uptake of [³H]norepinephrine ([³H]NE). This uptake has a high-affinity component with an apparent K_m of approximately 3 × 10^?7 M. At 10^?7 M [³H]NE both the initial rate of uptake and steady-state content of [³H]NE is inhibited by up to 95% by omission of external Na⁺. The Na⁺-dependent component of this uptake is totally inhibited by the tricyclic antidepressants desipramine (DMI) and amitryptyline with IC₅₀ values of 2 × 10^?9 and 4 × 10^?8 M, respectively. Inhibition of [³H]NE uptake by DMI shows competitive kinetics. These characteristics are essentially identical to those found for high-affinity uptake of NE in total membrane or synaptosome fractions from rodent brains and suggests that such uptake in neural tissue is not exclusively neuronal.