Simultaneously entry of palmitic acid into proteolipid protein in different myelin subfractions of rat brain

Rats of 20-days of age were injected intracranially with radioactive palmitic acid to study its incorporation into proteolipid protein (PLP) of myelin and myelin subfractions. At short times (120 min), the radioactivity present in PLP was shown to be due to palmitic acid bound to the protein by ester linkages. The specific radioactivity of palmitic acid labeled PLP was identical in all the myelin subfractions except the myelin-like fraction, in which it was lower, suggesting that the entry of the fatty acid into PLP of the different subfractions occurs simultaneously.Experiments using time staggered injections of ¹⁴C- and ³H-labeled palmitic acid also showed that entry of the fatty acid into PLP of the various subfractions was simultaneous. These results seem to indicate that the acylation of PLP occurs in the myelin membrane and that synthesis and transport of this protein are events unrelated to the acylation process.     

Progenitors of oligodendrocytes: Limiting dilution analysis in fetal rat brain culture

In this paper, we describe the use of a combination of cell culture techniques and limiting dilution analysis to determine the number of oligodendrocyte progenitor cells and the oligodendrocyte clone size in primary dispersed cultures of 20- to 21-day-old fetal rat brain. Single-cell suspensions (1,2,3 × 10⁶ cells/ml) were plated in either microwell or 100 mm dishes. After 22 days in culture the number of differentiated oligodendrocytes was ascertained by determining the amount of myelin basic protein by radioimmunoassay. The total amount of myelin basic protein was the same in the two types of dish, indicating that proliferation and differentiation were unaffected when oligodendrocytes were grown in microwells. The fraction (F₀) of microwells containing no oligodendrocytes was determined at each cell dilution. F₀ decreased exponentially with increasing total cell concentration. The linearity of the plot of ln F₀ versus cell number indicates that the number of oligodendrocyte progenitor cells is limiting. From the equation describing the Poisson distribution of progenitor cells in microwells we calculated that, at the time of plating, primary cultures of fetal rat brain contain one oligodendrocyte progenitor cell per 1.3 × 10⁵ brain cells, or a total population of 300–500 progenitor cells per brain. The mean oligodendrocyte clone size was determined to be approximately 825 at 22 days and close to 2000 by 35 days in culture. Therefore, each progenitor cell must undergo approximately 11 divisions, on the average, during postnatal development.     

Differential inhibition of globin chain synthesis by tosyl-L-lysyl chloromethyl ketone

Tosyl-L-lysyl chloromethyl ketone (TLCK), added to an incubation of rabbit reticulocytes, inhibits the synthesis of α globin chain more than that of β chain. TLCK has been previously shown to inhibit initiation of translation in a variety of cells. Thus this drug could be used to test for such a differential effect at the level of peptide initiation on the various mRNAs in these cells.     

The induction of acetylcholine synthesis in primary cultures of dissociated rat sympathetic neurons : II. Developmental aspects

Dissociated sympathetic neurons from the neonatal rat, grown in cell culture in the virtual absence of other cell types, can develop many of the properties expected of differentiated adrenergic neurons including the ability to synthesize and accumulate catecholamines (CA)². However, in the presence of high concentrations of appropriately conditioned medium (CM), the cultures develop the ability to synthesize and accumulate acetylcholine (ACh); correspondingly, their ability to synthesize CA decreases. In this paper several developmental aspects of the CM effect are described. The time course of development of cultures grown with or without CM was followed using synthesis and accumulation of [³H]CA from [³H]tyrosine and production of [³H]ACh from [³H]choline as assays for adrenergic and cholinergic differentiation. The ability to produce CA or ACh developed along parallel time courses in the two sets of cultures, rising primarily during the second week in vitro and reaching a plateau during the fourth week. When CM was used as a cholinergic developmental signal, the sympathetic neurons showed a decreasing response to addition of CM as they matured adrenergically; addition of CM during the third or fourth 10 days in vitro was not as effective in inducing ACh production as addition during the first or second 10 days. Similarly, removal of CM at various times from cultures previously grown in CM showed that the cholinergic induction caused by CM was not easily reversible in older cultures. Thus, as with the adrenergic decision, the cholinergic decision becomes less reversible as the phenotype becomes fully expressed.     

Inhibition of plasma prolactin in the rat by amantadine

A single iv injection of 15 or 30 but not 7.5 mg/kg BW of an antiviral drug, amantadine, significantly (P less than 0.05) decreased plasma prolactin (PRL) concentrations in male rats. This effect was dose-dependent, with the highest dose producing a longer-lasting decrease in plasma PRL. The amantadine-induced decrease was unaffected by a simultaneous injection of 5-hydroxytryptophan (30 mg/kg BW) but was completely blocked by a simultaneous injection of haloperidol (0.05 mg/kg BW). It is concluded that this novel effect of amantadine on PRL is produced by an interaction with the dopaminergic system.     

Tissue fractionation in rat brain, kidney and liver. I. Intracellular localization of a 5-methyltetrahydrofolic acid requiring enzyme.

The intracellular distribution of N-methyl-transferase requiring 5-methyl-tetrahydrofolic acid (5 MT-NMT) was studied in brain, kidney and liver of rats. Among these different tissues, the kidney displayed the highest enzyme activity, more than 20 times the activity detected in the brain. As the striatum and, to a lesser extent the hypothalamus, were found to contain slightly higher 5 MT-NMT than other cerebral regions, they were also selected for the study of the subcellular localization. Tissue fractionation was performed by differential centrifugation yielding five different fractions which were analyzed for their enzymatic content not only of 5 MT-NMT but also of marker enzymes, such as cytochrome oxidase, acid phosphatase and inosine diphosphatase. In all the tissues studied, 5 MT-NMT was recovered in the supernatant fraction. Therefore one may consider this enzyme to belong to the cytosol. Although a neuronal localization cannot be excluded, it is beyond doubt that the enzyme is contained in other cellular types. In the brain fractionation, the five fraction procedure seems to be very useful especially when the subcellular distribution of a given enzyme is compared to that obtained in other tissues like liver or kidney. Finally 5 MT-NMT may be considered a good marker enzyme for the supernatant fraction.     

Synthesis of basement membrane proteins by rat mammary epithelial cells

A mammary epithelial cell line, Rama 25, growing on plastic, deposits fibronectin, type IV collagen, and laminin in punctate structures located beneath the basal surface of the cells. When grown on the surface of collagen gels, Rama 25 cells deposit these basement membrane proteins in a continuous layer between the basal surface of the cells and the surface of the collagen matrix. Rama 25 cells also penetrate the collagen matrix forming rudimentary duct-like structures. These structures are surrounded by a discontinuous layer of basement membrane proteins. The ducts of fetal and neonatal rat mammary glands contain few mature myoepithelial cells and our results suggest that some mammary epithelial cells, in contact with a collagenous stroma, are capable of synthesizing a basal lamina-like structure.     

Processing of synthetic somatostatin-28 and a related endogenous rat hypothalamic somatostatin-like molecule by hypothalamic enzymes

Synthetic somatostatin-28 (S-28) as well as a related endogenous rat hypothalamic somatostatin-like compound (3K SLI) were incubated with hypothalamic extracts from which endogenous somatostatin-like immunoreactivity (SLI) had been removed by immunoabsorption. The reaction products were analyzed by gel chromatography, HPLC as well as two different radioimmunoassays for tetradecapeptide somatostatin (S-14) in which S-28 crossreacted either 100% (RIA R149) or < 0.001% (RIA S39). The results indicate that incubation of S-28 with SLI free hypothalamic extracts results in a rapid decrease of total immunoreactivity measured with RIA R149 ($\text{t}{}_{\mathrm{<mtext>1</mtext><mtext>2</mtext>}}\text{= 14}\text{min}$). By contrast, with RIA S39 a rise from zero to a peak value at 8 min was measured suggesting the formation of S-14. This was confirmed by subsequent analysis by gel chromatography and HPLC. Using endogenous 3K SLI a decrease of total R149-immunoreactivity with a similar time course ($\text{t}{}_{\mathrm{<mtext>1</mtext><mtext>2</mtext>}}\text{= 17}\text{min}$) was observed simultaneously with the emergence of material that corresponded to S-14. This converting activity seems to be specific for SLI-containing tissues since similar rates of conversion were observed with extracts from cerebral cortex and cerebellum but not with lung and liver extracts.It is concluded that (1) S-28 is converted to S-14 by hypothalamic enzymes; (2) the processing of 3K SLI is similar, suggesting the two molecules are closely related, if not identical, and (3) the regulation of S-28 to S-14 conversion could represent an important mechanism for controlling the functional activity of somatostatinergic cells.     

Isolation and identification of 24-hydroxyvitamin D2 and 24,25-dihydroxyvitamin D2

The isolation and identification of two metabolites of vitamin D₂ found in mammalian and avian species are reported. They are 24-hydroxyvitamin D₂ and 24,25-dihydroxyvitamin D₂. Their existence suggests that 24-hydroxylation occurs in a sterospecific manner in the 24R position and adds further support to the theory that vitamin D₂ metabolism qualitatively parallels that of vitamin D₃.     

Stress induced differential intake of various diets and water by rat: the role of the opiate system

The purpose of this study was to explore the effect of acute mild stress (12–48 hour food and water deprivation) and acute severe stress (12 hour food and water deprivation followed by 10 min swim in water at 4°) on the intake of different isocaloric dietary regimes. Each group of experimental animals was given only one particular diet. Rats subjected to mild stress showed very little preference of dietary regimes. When the food intake was measured during 3 hour period, following 48 hours of fasting, animals showed 2 to 3 fold increase in the food and water intake but no particular dietary preference. However, when rats were subjected to severe stress, there was an increase in the food intake of 154% (control diet); 174% (high-carbohydrate diet); 310% (high protein diet) and 423% (high fat diet) compared to animals subjected to mild stress. In terms of the absolute quantity of food, the animals subjected to severe stress ate more high-fat diet than any other diet; the consumption of high fat diet was 142% more than high-protein diet, 180% more than control diet and 258% more than high carbohydrate diet. Animals subjected to severe stress and given high-carbohydrate and high fat diet also showed 80% increase in the water intake. Prior administration of naloxone (1 mg/kg body weight, i.p.) reduced the stress induced increase in the intake of food and water. Naloxone inhibited the intake of high-fat diet more than any other diet. The ability of naloxone to block the increase in the intake of high-fat diet, and the reported increase in the concentration of β-endorphin in the different regions of brain of the animals subjected to the cold swim, suggest that endogenous opioid system in body is activated during stress. An activation of the endogenous opioid system leads to a preferential increase in the intake of palatable foods.     

Hysteretic behavior of rat liver fructose 1,6-bisphosphatase induced by zinc ions

The measurement of the time dependency of the activity of rat liver fructose 1,6-bisphosphatase shows that the enzyme under certain conditions exhibits kinetic hysteretics. After addition of the substrate, the enzyme is initially in a state characterized by a “high” K_m of about 2 μm. During the reaction the enzyme is converted in a slow process to a low K_m form (K_m is about 0.5 μm). The transition is accompanied by a decrease in V. It is concluded that the hysteretic behavior is caused by binding of the Zn²⁺ substrate complex to the enzyme. The earlier reported effect of glucagon treatment on the activity of fructose 1,6-bisphosphate (O. D. Taunton, F. B. Stifel, H. L. Greene, and R. H. Herman (1974) J. Biol. Chem.249, 7228–7239) was reinvestigated, taking into account the hysteretic behavior. Under conditions where the pyruvate kinase activity is decreased by glucagon injection, no activity change of fructose 1,6-bisphosphatase is observed. It can be suggested that for studies concerning the effects of incubation or hormone treatment on fructose 1,6-bisphosphatase, the complex kinetics of the rat liver enzyme has to be taken into account.     

gamma-Glutamyl transpeptidase: relation to immunoglobulin A and free secretory component.

The experiments reported show that bovine γ-glutamyl transpeptidase can be separated from free secretory component. An ion-exchange Chromatographic procedure was developed to analyze the incubation mixtures of the enzyme with glutathione or S-(2-acetamido)-glutathione and glycylglycine. Using this system or the γ-glutamyl p-nitroanilide assay, no significant transpeptidase activity could be detected in the free secretory component-containing fractions of DEAE-cellulose chromatography. Gel filtration on Biogel A-5M showed that the bovine whey transpeptidase chromatographed in the void volume suggesting an aggregate of a minimum molecular weight of about 5 × 10⁶. The transpeptidase could be separated from all immunoglobulins in bovine whey and human colostrum by a combination of agarose gel filtration and immunoadsorption. Concentrated samples of human and sheep saliva showed normal amounts of secretory component, but no detectable γ-glutamyl transpeptidase activity. These experiments show that (1) the transpeptidase and secretory component are two different proteins, and (2) the transpeptidase is present in bovine and human milk as a high molecular weight aggregate which does not include any of the immunoglobulins.     

Purification and some properties of free and cell-associated dextransucrase from Streptococcus sanguis.

Dextransucrase of Streptococcus sanguis occurred in cell-free and cell-associated forms. Cell-free dextransucrase was purified by four successive chromatographies on Bio-Gel P 60, DEAE-cellulose, and Bio-Gel P 200 from the culture supernatant. The purification of cell-associated dextransucrase was made from the pellet of Streptococcus sanguis culture. Bacterial pellet was extracted with 1 M phosphate buffer (pH 6.0) and chromatographied by using an immunosorbent column. The two enzymes gave single bands in polyacrylamide gel electrophoresis. The molecular weight determined by sodium dodecyl sulfate polyacrylamide gel was about 100 000 daltons for the two forms of dextransucrases. The optimum pH of the cell-free and cell-associated enzymes was around 6 and the temperature optimum was broad for the two enzymes. The KM values for sucrose were respectively 2 mM and 3 mM for cell-free and cell-associated enzymes. When primer dextran was added, the reaction velocity increased but the KM for sucrose remained the same, and the KA for dextran was 200 muM for the two dextransucrases. Trehalose and maltose acted also as glucosyl residue acceptors. Purified enzymes had dextran synthesising activity and invertase-like activity. The same properties of the two forms of enzymes and the positive cross reaction against anti free and anti cell-associated globulins stongly suggest the identity of the two enzymes.     

Studies on the binding of nucleotides by rat brain hexokinase

Various nucleoside di- and triphosphates have been compared with respect to their ability to protect rat brain hexokinase (ATP: d-hexose 6-phosphotransferase, EC 2.7.1.1) activity against inactivation by chymotrypsin, glutaraldehyde, heat, and 5,5′-dithiobis(2-nitrobenzoic) acid. ATP could be distinguished from other nucleoside triphosphates in these comparisons, which may be related to the specificity with which ATP is utilized as a substrate. All nucleoside derivatives examined provided substantial protection against two or more of the above inactivating agents, indicating relatively nonspecific binding of nucleotides by brain hexokinase, consistent with a similar lack of specificity in the inhibition of this enzyme by nucleoside derivatives. The fluorescence of 2-p-toluidinylnaphthalene-6-sulfonate (TNS) and of tetraiodofluorescein (TIF) was enhanced by binding to brain hexokinase. TNS binding was not affected by the presence of various relevant metabolites (Glc, glucose 6-phosphate, ATP), nor did TNS inhibit the enzyme. In contrast, substantial (approximately 70%) decreases in the fluorescence of bound TIF resulted from the addition of various nucleoside derivatives, and TIF served as a competitive inhibitor of brain hexokinase. These observations are consistent with the view that TIF binds to a nucleotide binding site of the enzyme. The inability of nucleotides to totally displace TIF was taken to indicate the existence of an additional TIF binding site (or sites) discrete from the catalytic site, and probably identical to the site(s) at which TNS binds with no effect on catalytic activity. The effects of saturating levels of ATP and ADP were not additive indicating that both compounds were displacing TIF from the same site i.e., a common nucleotide binding site. Glc, mannose, and 2-deoxyglucose greatly enhanced the ability of nucleotides to displace TIF, while fructose, galactose, and N-acetylglucosamine did not, indicating the existence of interactions between hexose and nucleotide binding sites; the hexoses themselves were not effective at displacing TIF. The enhanced binding of nucleotides in the presence of the first three hexoses but not the latter three can be directly correlated with the relative ability of these hexoses to induce specific conformational changes in the enzyme. The hexoses themselves were not effective at displacing TIF. Glucose 6-phosphate and 1,5-anhydroglucitol 6-phosphate could also displace TIF, and as with the nucleotides, a maximum of approximately 70% decrease in fluorescence was observed and the effectiveness of glucose 6-phosphate was enhanced in the presence of Glc. Other hexose 6-phosphates tested were not effective at displacing TIF. The specificity with which hexose 6-phosphates displaced TIF could be correlated with their ability to induce specific conformational change in the enzyme. The results are discussed as they relate to the kinetic mechanism and allosteric regulation by nucleotides that have been proposed for this enzyme.