Control of ribosomal protein synthesis during wheat embryo imbibition

Dry wheat embryos contain large quantities of ribosomes, synthesized and assembled during embryogenesis. When messenger RNA isolated from dry embryos is translated, in vitro, a significant proportion of the total translation products (approx. 10%) is identifiable as ribosomal proteins, by electrophoresis in two distinct two-dimensional polyacrylamide gel electrophoretic systems. When germinating embryos are labelled with [³⁵S]methionine, during the first 24 h of imbibition, the appearance of newly synthesized ribosomal proteins in the cytosolic fraction is barely detectable. However, this low level (< 1% of total cytosolic protein synthesis) of observed ribosomal protein synthesis is not correlated with a correspondingly low level of ribosomal protein mRNA. Ribosomal proteins constitute at least 10% of the products of translation, in vitro, of mRNA isolated from germinating wheat embryos. Ribosomal proteins are also conspicuous products of translation when polyribosomes isolated from imbibing embryos are used to direct protein synthesis in a cell-free ‘run-off’ system, and newly synthesized ribosomal proteins can be detected in the nuclei isolated from germinating embryos. It is proposed that their absence from the cytosolic fraction is a consequence of post-translational regulatory events.     

Modulation of phospholipid transfer protein activity. Inhibition by local anesthetics

The transfer of phospholipid molecules between biological and synthetic membranes is facilitated by the presence of soluble catalytic proteins, such as those isolated from bovine brain which interacts with phosphatidylinositol and phosphatidylcholine and from bovine liver which is specific for phosphatidylcholine. A series of tertiary amine local anesthetics decreases the rates of protein-catalyzed phospholipid transfer. The potency of inhibition is dibucaine>tetracaine>lidocaine>procaine, an order which is compared with and identical to those for a wide variety of anesthetic-dependent membrane phenomena. Half-maximal inhibition of phosphatidylinositol transfer by dibucaine occurs at a concentration of 0.18 mM, significantly lower than the concentration of 1.9 mM required for half-maximal inhibition of phosphatidylcholine transfer activity of the brain protein. Comparable inhibition of liver protein phosphatidylcholine transfer activity is observed at 1.6 mM dibucaine. For activity measurements performed at different pH, dibucaine is more potent at the lower pH values which favor the equilibrium toward the charged molecular species. With membranes containing increasing molar proportions of phosphatidate, dibucaine is increasingly more potent. No effect of Ca²⁺ on the control transfer activity or the inhibitory action of dibucaine is noted. These results are discussed in terms of the formation of specific phosphatidylinositol or phosphatidylcholine complexes with the amphiphilic anesthetics in the membrane bilayer.     

Stimulation of protein synthesis by lysine analogues in lysine-deprived Ehrlich ascites tumour cells

This paper describes experiments in which we have investigated the mechanism by which amino acid starvation regulates the initiation of protein synthesis in mammalian cells. We have examined the ability of a range of lysine analogues to stimulate protein synthesis in lysine-deprived mouse Ehrlich ascites tumour cells in culture. Of those analogues tested, only those which are cleaved to lysine intracellularly are capable of restoring protein synthesis to the level seen in fully fed cells. Lysine which is covalently linked to agarose does not stimulate translation. After 5 min incubation of lysine-deprived cells with the analogue lysine p-nitroanilide, the lysine concentration in cell extracts is restored to that found in extracts from fed cells, and protein synthesis is maximally stimulated within 5–10 min. During this period of time there is no increase in the concentration of lysine in the medium. These data indicate that it is the size of the intracellular rather than the extracellular amino acid pool which regulates the rate of protein synthesis during amino acid deprivation.     

Melanoprotein Absence of a direct melanin-protein relationship in chick embryp melanocytes

Short-term synthesis of radioactivity labeled melanin (using dl-[2-¹⁴C]tyrosine or 2-[2-¹⁴C]thiouracil) by chick retinal pigment tissues in vitro was not influenced by inhibitors of protein synthesis, puromycin and cyloheximide. Co-ordinate synthesis of protein is, therefore, unnecessary for melanin synthesis, and melanoproteins must represent secondary interactions between melanin and protein. Melanin was isolated from chick embryo feather germs by extracting the proteins with hot dodecyl sulfate/mercaptoethanol. Melanin isolated from tissues incubated previously in l-[U-¹⁴C]valine medium had no associated radioactivity compared to the radioactivity of melanin prepared from tissues incubated in dl-[2-¹⁴C]tyrosine or 2-[2-¹⁴C]thiouracil. If melanoproteins exist at all, they are non-covalently bonded associations of melanin and melanosomal proteins.     

Electrogenic proton ejection coupled to electron transport through the energy-conserving site 2 and K+/H+ exchange in yeast mitochondria

The proton ejection coupled to electron flow from succinate and/or endogenous substrate(s) to cytochrome c using the impermeable electron acceptor ferricyanide is studied in tightly coupled mitochondria isolated from two strains of the yeast Saccharomyces cerevisiae. (1) The observed H⁺ ejection/2e^? ratio approaches an average value of 3 when K⁺ (in the presence of valinomycin) is used as charge-compensating cation. (2) In the presence of the proton-conducting agent carbonyl cyanide m-chlorophenylhydrazone, an H⁺ ejection/2e^? ratio of 2 is observed. (3) The low stoichiometry of 3H⁺ ejected (instead of 4) per 2e^? and the high rate of H⁺ back-decay (0.1615 $\text{ln}\text{δ-}\text{(}\text{ngatom}\text{)}\text{H}{}^{\mathrm{+}}\text{s}$ and a half-time of 4.6 s for 10 mg protein) into the mitochondrial matrix are related to the presence of an electroneutral K⁺/H⁺ antiporter which is demonstrated by passive swelling experiments in isotonic potassium acetate medium.     

Characteristics of insulin receptors in the heart muscle Binding of insulin to isolated muscle cells from adult rat heart

Adult rat heart muscle cells obtained by perfusion of the heart with collagenase have been used to characterize the insulin receptors by equilibrium binding and kinetic measurements. Binding of ¹²⁵I-labelled insulin to heart cells exhibited a high degree of specificity; it was dependent on pH and temperature, binding at steady increased with decreasing temperatures. About 70% of the radioactivity bound at equilibrium at 25°C could be dissociated by addition of an excess of unlabelled insulin. 54 and 40% of ¹²⁵I-labelled insulin was degraded by isolated heart cells after 2 h at 37°C and 4 h at 25°C, respectively. This degrading activity was effectively inhibited by high concentration of albumin.Equilibrium binding studies were conducted at 25°C using insulin concentrations ranging from 2.5 · 10^?11 mol/l to 10^?6 mol/l. Scatchard analysis of the binding data resulted in a curvilinear plot (concave upward), which was further analyzed using the average affinity profile. The empty site affinity constant was calculated to be 9.5 · 10⁷ l/mol with a total receptor concentration of 3.4 · 10⁶ sites per cell.The presence of site-site interactions of the negative cooperative type among the insulin receptors has been confirmed by kinetic experiments. The rate of dilution induced dissociation was enhanced in the presence of native insulin (5 · 10^?9 mol/l), both, under conditions of low and high fractional saturation of receptors.     

Assay of interferon-mediated protein kinase activity from plasma and tissue extracts

Interferon-treated mouse and human cells show enhanced levels of a protein kinase activity which is manifested by the phosphorylation of endogenous 67,000 and 72,000 Mr proteins, respectively. Enhanced levels of such kinase activity are also detectable in the plasma of patients treated with interferon and in the plasma and tissues of interferon-treated mice. A rapid and efficient method of assay for these protein kinase activities is described. The samples are first incubated with heparin (100 units/ml), which results in the inhibition of different protein kinase activities, but not the one mediated by interferon. The latter one is then assayed after partial purification on poly(rI):(rC)-Sepharose or poly(rG)-Sepharose. The protein kinase from human and mouse cells in culture and from the different tissues of mice binds specifically to poly(rI):(rC)-Sepharose. On the other hand, the protein kinase activity from both mouse and human plasma shows a higher affinity toward poly(rG)-Sepharose. These methods are successfully applied for the determination of the interferon-mediated protein kinase activity from tissue extracts and plasma.     

Na+-Ca2+ exchange in the axolemma-rich membrane vesicle preparations from the walking-leg nerves of the american lobster

An axolemma-rich membrane vesicle fraction was prepared from the leg nerve of the lobster, Homerus americanus. In this preparation Ca²⁺ transport across the membrane was shown to require a Na⁺ gradient (Na⁺-Ca²⁺ exchange), and external K⁺ was found to facilitate this Na⁺-Ca²⁺ exchange activity. In addition, at high Ca²⁺ concentrations (20 mM) a Ca²⁺-Ca²⁺ exchange system was shown to operate, which is stimulated by Li⁺. The Na⁺-Ca²⁺ exchange system is capable of operating in the reverse direction, with Ca²⁺ uptake coupled with Na⁺ efflux. Such a vesicular preparation has the potential for providing useful experimental approaches to study the mechanism of this important Ca²⁺ extrusion system in the nervous system.     

Further characterization of L-β-hydroxyacid dehydrogenase from Drosophila

L-β-Hydroxyacid dehydrogenase (L-β-hydroxyacid--NAD-oxidoreductase, EC 1.1.1.45) of Drosophila is composed of two, identical subunits with a molecular weight of approx. 33 300. The enzyme was purified 938-fold from Drosophila melanogaster. An isoelectric point of 8.6 was determined for L-β-hydroxyacid dehydrogenase. An amino acid analysis was conducted of the purified enzyme. A single subunit was obtained by SDS-gel electrophoresis of the purified enzyme. Translation of larval and adult mRNA in a mRNA-dependent reticulocyte lysate, followed by immune precipitation using anti-L-β-hydroxyacid dehydrogenase IgG revealed a single L-β-hydroxyacid dehydrogenase subunit of 33 300. Larval and adult proteins were the same size. The enzyme does not appear to be subjected to substantial post-translational modifications.     

Inhibitors of animal cell-free protein synthesis from grains

We described earlier the purification and properties of a protein (tritin) from wheat that enzymatically inhibits translation in cell-free systems from animals but not plants. In this report, we have examined 11 additional grains (Family Gramineae) and three other seeds for the presence of tritin-like proteins. In addition to wheat species, barley, oats, rye, triticale and corn were found to be sources of inhibitor; no inhibitor could be detected in rice, millet, sesame, alfalfa, mung bean or common bean seeds. The inhibitors from barley and rye were purified and found to differ from tritin with respect to heat inactivation, although they are similar to tritin with respect to molecular weight, behavior during purification and specific activity. The inhibitor from corn was purified and found to differ from tritin with respect to heat inactivation and molecular weight, although it is similar to tritin in behavior during purification and specific activity. These inhibitors constitute 2–17% of the total extractable protein in these grain s. Thus, wheat, barley, rye and corn can serve as convenient sources of a family of closely related inhibitors of protein synthesis which, when conjugated with lectins, antibodies, or hormones, could prove useful as chimeric toxins.     

Inhibition of surfactant release from isolated type II cells by compound 4880

Release of [³H]phosphatidylcholine from pulmonary Type II epithelial cells was stimulated by terbutaline, forskolin and cytochalasin D. Compound $\text{48}\text{80}$ inhibited both basal and agonist-stimulated release of [³H]PC. The IC₅₀ for inhibition by compound $\text{48}\text{80}$ was 1–2 μg/ml, and was similar for inhibition of both basal and stimulated release of [³H]phosphatidylcholine. Inhibitory effects of $\text{48}\text{80}$ were noted following a 1 h exposure to compound $\text{48}\text{80}$ and persisted up to 3 h. The inhibitory effect of compound $\text{48}\text{80}$ was entirely reversed by removing compound $\text{48}\text{80}$ from the external milieu. Compound $\text{48}\text{80}$ had no effect on cytosolic cyclic AMP levels or lactate dehydrogenase release. Inhibition of surfactant release produced by compound $\text{48}\text{80}$ was unaffected by changes in extracellular calcium concentrations. Compound $\text{48}\text{80}$ is a non-toxic inhibitor of phosphatidylcholine release from Type II epithelial cells.     

Protein phosphatases in developing Dictyostelium discoideum cells

Protein phosphatase activities in developing Dictyostelium discoideum cells were investigated. Substrates were prepared by phosphorylation of histone H2b and kemptide (Leu-Arg-Arg-Ala-Ser-Leu-Gly) using cAMP-dependent protein kinase. Two histone phosphatase activities (M_r 170 000 and 520 000) and one kemptide phosphatase activity (M_r 230 000) were found in the cytosolic cell fraction. Histone phosphatase was also present in the particulate fraction, kemptide phosphatase was not. All phosphatase activities were present throughout development. No differences in protein phosphatase activities were found in prespore and prestalk cells. A heat-stable factor which inhibits the particulate and both soluble histone phosphatase activities was isolated.     

Binding and degradation of 125I-labeled insulin by a clonal line of rat pituitary tumor cells

Receptor sites for insulin on GH₃ cells were characterized. Uptake of ¹²⁵I-labeled insulin by the cells was dependent upon time and temperature, with apparent steady-states reached by 120, 20 and 10 min at 4, 23 and 37°C, respectively. The binding sites were sensitive to trypsin, suggesting that the receptors contain protein. Insulin competed with ¹²⁵I-labeled insulin for binding sites, with half-maximal competition observed at 5 nM insulin. Neither adrenocorticotropic hormone nor growth hormone competed for ¹²⁵I-labeled insulin binding sites. ¹²⁵I-labeled insulin binding was reversible, and saturable with respect to hormone concentration. ¹²⁵I-labeled insulin was degraded at both 4 and 37°C by GH₃ cells, but not by medium conditioned by these cells. After a 5 min incubation at 37°C, products of ¹²⁵I-labeled insulin degradation could be recovered from the cells but were not detected extracellularly. Extending the time of incubation resulted in the recovery of fragments of ¹²⁵I-labeled insulin from both cells and the medium. Native insulin inhibited most of the degradation of ¹²⁵I-labeled insulin suggesting that degradation resulted, in part, from a saturable process. At steady-state, degradation products of ¹²⁵I-labeled insulin, as well as intact hormone, were recovered from GH₃ cells. After 30 min incubation at 37°C, 80% of the cell-bound radioactivity was not extractable from GH₃ cells with acetic acid.     

Changes in the sequence content of albumin mRNA and in its translational activity in the rat liver with age

To investigate the regulation of age-related changes in albumin synthesis in the rat liver, total postnuclear RNA and polyribosomes, both membrane-bound and free, were prepared from livers of rats of different ages. By the use of a specific complementary DNA probe, the albumin mRNA sequence content was quantitated in these RNA fractions. These studies showed a specific increase in albumin mRNA sequence content in total postnuclear RNA and membrane-bound polyribosomes at between 12 and 24 months of age. Between 24 and 36 months of age, the increase in the amount of albumin mRNA in these two fractions was due only to an increase in liver weight. The increase in albumin mRNA sequence content was not found in the poly(A)⁺ fraction but in the RNA extracted from the void of oligo(dT)-cellulose column chromatography. The isolated polyribosomes were translated in a cell-free system to assess age-related changes in total protein and albumin synthesis due to translational control. No changes with age were found in the translational capacity of membrane-bound and free polyribosomes per RNA unit. Immunoprecipitation of the synthesized albumin in the translation products revealed that albumin synthesis in the cell-free system is not increased proportionally with the elevated albumin mRNA level between 12 and 24 months of age. This indicates that albumin mRNAs present in the livers of old rats are biologically less active than those found in younger animals.     

Identification of products of protein phosphorylation in T37-transformed cells and comparison with normal cells

Proteins from crown gall tissue labelled in vivo with [³²P]orthophosphate were analysed by SDS-polyacrylamide gel electrophoresis. The major phosphorylated proteins were of 50.6 and 48.3 kDa, with minor bands at 80.1, 73.9, 68, 40.4, 30, 21.5, 20.2 and 15.2 kDa. Partial hydrolysates of total ³²P-labelled proteins were analysed in a number of ways. A two-dimensional separation on paper by electrophoresis in pyridine/acetic acid at pH 3.5 followed by chromatography in isobutyric acid/0.5 M ammonia revealed radioactive spots coincident with phosphoserine and phosphothreonine markers and only partially coincident with the phosphotyrosine marker. Two-dimensional electrophoresis at pH 1.9 followed by pH 3.5, however, unequivocally showed the presence of phosphotyrosine after elution of the phosphotyrosine marker. Phosphoserine, phosphothreonine and phosphotyrosine were present in the ratio 89.4:8.5:2.1. This is a much higher level of phosphotyrosine than normally found in animal cells. The three phosphoamino acids were confirmed by chromatography with authentic samples in four solvent systems on cellulose or silica TLC, and by dansylation followed by silica TLC. The radioactive compound running almost coincident with phosphotyrosine on two-way electrophoresis, pH 3.5, followed by chromatography in isobutyric acid/0.5 M ammonia was identified tentatively as uridine 5′-monophosphate on the basis of electrophoretic and chromatographic behaviour. Further experiments to compare normal (growing and non-growing) tobacco callus and T37-transformed cells did not give markedly different ratios of the three phosphoamino acids, although the rapidly-growing normal tobacco (i.e., plus cytokinin) appeared to have a greater abundance of the two minor phosphoamino acids (approx. 2-times). The lack of effect of transformation is in contrast to animal cells where transformation results in a 10-fold increase in the virally affected cells.     

Evidence that the cytosolic activity of 3-hydroxybutyrate dehydrogenase in chicken liver isL-3-hydroxyacid dehydrogenase

Classical fractionation studies showed that chicken liver contains two enzymes which can oxidize DL-3-hydroxybutyrate. The cytosolic enzyme is specific for the L-(+) isomer and accounts for 60% of the total activity. The mitochondrial activity is specific for the D-(?) isomer and accounts for 40% of the total activity. Kinetic studies showed that L-gulonic acid is a competitive inhibitor of the enzyme. We conclude that the cytosolic enzyme is the previously described L-3-hydroxyacid dehydrogenase.     

Uptake and degradation of insulin and α2-macroglobulin-trypsin complex in rat adipocytes. Evidence for different pathways

The cell association and degradation of insulin and α₂-macroglobulin-trypsin complex were measured in rat adipocytes with or without various inhibitors in the attempt to clarify whether the two ligands were taken up by the same or by different pathways. Several inhibitors, and particularly those of membrane traffic, lysosomal function and transglutaminase activity, affected the two ligands differently. Thus, chloroquine (100 μM) reduced both the uptake of α₂-macroglobulin · trypsin and its receptor-mediated degradation by about 70%. In contrast, the uptake of insulin was increased 2–3-times and the receptor-mediated degradation was only slightly reduced. Methylamine (10 mM) and ammonium chloride (10 mM) reduced degradation of α₂-macroglobulin · trypsin markedly without affecting that of insulin. Leupeptin (100 μM) increased uptake and reduced degradation of α₂-macroglobulin · trypsin without affecting insulin. Dansylcadaverine (500 μM) almost abolished uptake and degradation of α₂-macroglobulin · trypsin but had little effect on insulin. Moreover, uptake and degradation of α₂-macroglobulin · trypsin was much more sensitive than insulin to the action of metabolic inhibitors such as dinitrophenol and cyanide. The results show that the two ligands are taken up by functionally different systems. In addition, they support the hypothesis that lysosomes play a relatively minor role in the receptor-mediated degradation of insulin.     

Structural state of the Na+ /d-glucose cotransporter in calf kidney brush-border membranes Target size analysis of Na+-dependent phlorizin binding and Na+-dependent d-glucose transport

Target sizes of the renal sodium-d-glucose cotransport system in brush-border membranes of calf kidney cortex were estimated by radiation inactivation. In brush-border vesicles irradiated at ?50°C with 1.5 MeV electron beams, sodium-dependent phlorizin binding, and Na⁺-dependent d-glucose tracer exchange decreased exponentially with increasing doses of radiation (0.4–4.4 Mrad). Inactivation of phlorizin binding was due to a reduction in the number of high-affinity phlorizin binding sites but not in their affinity. The molecular weight of the Na⁺-dependent phlorizin binding unit was estimated to be 230 000 ± 38 000. From the tracer exchange experiments a molecular weight of 345 000 ± 24 500 was calculated for the d-glucose transport unit. The validity of these target size measurements was established by concomitant measurements of two brush-border enzymes, alkaline phosphatase and γ-glutamyltransferase, whose target sizes were found to be 68 570 ± 2670 and 73 500 ± 2270, respectively. These findings provide further evidence for the assumption that the sodium-d-glucose cotransport system is a multimeric structure, in which distinct complexes are responsible for phlorizin binding and d-glucose translocation.     

Glucose inhibits 45Ca efflux from pancreatic β-cells also in the absence of Na+-Ca2+ countertransport

During perifusion with medium deprived of Ca²⁺, addition of glucose or omission of Na⁺ resulted in prompt and quantitatively similar inhibitions of ⁴⁵Ca efflux from β-cell rich pancreatic islets microdissected from ob / ob mice. Glucose had no additional inhibitory effect when Na⁺ was isoosmotically replaced by sucrose or choline⁺. When K⁺ was used as a substitute for Na⁺, the inhibitory effect of Na⁺ removal on ⁴⁵Ca efflux became additive to that of glucose. The observation that glucose can be equally effective in inhibiting ⁴⁵Ca efflux in the presence or absence of Na⁺ is difficult to reconcile with the postulate that the Na⁺-Ca²⁺ countertransport mechanism is a primary site of action for glucose.