Long-term pharmacologic doses of vitamin E only moderately affect the erythrocytes of patients with type 1 diabetes mellitus.

In erythrocytes from diabetic patients, increased membrane lipid peroxidation might lead to abnormalities in composition and function. To study this relationship, we investigated the effects of a moderate pharmacologic dose of vitamin E for 1 y on erythrocyte membrane peroxidation in vitro and on its fatty acid composition, antioxidant capacity and rheological function. In a random and double-blind manner, type 1 diabetic patients (n = 44) were assigned to the following two groups: Group S received 250 IU (168 mg) d-alpha tocopherol 3 times daily for 1 y. Group P received placebo for 6 mo followed by d-alpha-tocopherol for an additional 6 mo. Variables were monitored every 3 mo. After 3 mo of supplementation, serum vitamin E doubled (P < 0.0005), thiobarbituric acid reactive substances in erythrocyte membranes incubated with tert-butyl hydroperoxide decreased by 25% (P = 0.006) and the lagtime of fluorescence increased from 28 +/- 16 to 41 +/- 28 min (P = 0.028). Patients who did not respond to supplementation (13 of 44) had lower serum lipids (P = 0.017) and body mass index (P = 0.024). We did not detect any significant effects of vitamin E supplementation on membrane lipid composition, antioxidant capacity or blood viscosity. Continuing supplementation for up to 1 y did not further affect serum vitamin E or membrane peroxidation. Stopping supplementation was followed by a return to inclusion values. These results show that the decrease in erythrocyte membrane peroxidation after vitamin E supplementation is moderate, saturable, reversible, restricted to some individuals and has no detectable effect on erythrocyte composition and function.

On the occurrence of multiple isoprenylated cysteine methyl ester hydrolase activities in bovine adrenal medulla.

Rab proteins intervene in the controlled exocytosis of catecholamines by chromaffin cells from the adrenal medulla. These proteins are posttranslationally modified by digeranylgeranylation and carboxymethylation. Reversible carboxymethylation terminating the isoprenylation pathway may play an important role in both the functioning and the subcellular housing of small G-proteins. Controlled methylation infers a rational interplay between the two enzymes involved i.e., the protein-S-prenylcysteine methyltransferase and the opposing esterase. Previously we have identified a methyltransferase type III in chromaffin cells. In this paper we focus on the corresponding demethylase. The methyl ester hydrolase activity was monitored using AFCM and AGGCM as artificial substrates while p-nitrophenylacetate was adopted as a pseudosubstrate for nonspecific esterase action. Based on subcellular fractionation experiments, kinetic studies and screening a battery of potential effectors, including a series of metallic ions and metal chelators, multiple sulphydryl reagents and host of specific protease/esterase inhibitors, it is suggested that at least two prenylcysteine carboxymethyl esterase isoenzymes are operational in bovine adrenal medulla. These isoenzymes are distinctly different from the nonspecific esterase.

Identification of prenylcysteine carboxymethyltransferase in bovine adrenal chromaffin cells.

Chromaffin cells from bovine adrenal medulla were examined for the presence of a specific prenylcysteine carboxymethyltransferase by using N-acetyl-S-farnesyl-L-cysteine and N-acetyl-S-geranylgeranyl-L-cysteine as artificial substrates and a crude cell homogenate as the enzyme source. From Michaelis-Menten kinetics the following constants were calculated: K(m) 90 microM and V(max) 3 pmol/min per mg proteins for N-acetyl-S-farnesyl-L-cysteine; K(m) 52 microM and V(max) 3 pmol/min per mg proteins for N-acetyl-S-geranylgeranyl-L-cysteine. Both substrates were methylated to an optimal extent at the pH range 7. 4-8.0. Methylation activity increased linearly up to 20 min incubation time and was dose dependent up to at least 160 microg of protein. Sinefungin and S-adenosylhomocysteine both caused pronounced inhibition, as also to a lesser extent did farnesylthioacetic acid, deoxymethylthioadenosine and 3-deaza-adenosine. Effector studies showed that the methyltransferase activity varied depending on the concentration and chemical nature of the cations present. Monovalent cations were slightly stimulatory, while divalent metallic ions displayed diverging inhibitory effects. The inhibition by cations was validated by the stimulatory effect of the chelators EDTA and EGTA. Sulphydryl reagents inhibited methylation but to different degrees: Hg(2+)-ions: 100%, N-ethylmaleimide: 30%, dithiothreitol: 0% and mono-iodoacetate: 20%. Due to the hydrophobicity of the substrates dimethyl sulfoxide had to be included in the incubation mixture (<4%; still moderate inhibition at more elevated concentrations). The detergents tested affected the methyltransferase activity to a varying degree. The membrane bound character of the methyltransferase was confirmed.

Internalisation of short-chain isoprenyl diphosphates by chromaffin cells from bovine adrenal medulla.

The uptake of FPP and GGPP was studied using primary cultures of chromaffin cells as an experimental model. The translocation of the isoprenyl diphosphates was shown to be both dose- and time-dependent. After incubation and a series of thorough washing cycles the residual radioactivity could only be released by either detergent or alkali treatment endorsing true internalisation rather than sorption onto the external cell surface. Preliminary experiments suggest that the isoprenyl diphosphates are internalised-at least for the greater part-without a preceeding dephosphorylation step. The translocation process does not seem to follow regular Michaelis-Menten kinetics. Upon varying pH (pH-range 6-8) or temperature (0 degree-40 degrees C) of the incubation medium only moderate changes in internalisation rate were observed. The metabolic poisons (CN-, F-, chloroquine) administered were without any significant effect, suggesting the transport phenomenon not to be energy dependent nor to proceed via receptor-mediated endocytosis. Upon inclusion of metallic ions in the test medium a pronounced increase in uptake was registered for Zn(2+)-ions, while most other cations did not cause any significant alterations. From the amino acid modifying agents screened sulphydryl reagents (NEM, PCMB, IA) resulted into a moderate unexpected elevation of uptake. An interesting feature was the activatory effect on the uptake of the diphosphorylated derivatives elicited by the corresponding free alcohols farnesol and geranylgeraniol; shorter and longer chain alcohols were without effect. In order to assess the specificity of the transport system a number of (pyro)phosphorylated compounds were included in the incubation medium indicating dolichylmonophosphate and isopentenylpyrophosphate to promote the uptake.

Intracellular trafficking of dolichol: on the presence of dolichol transfer activity in bovine liver supernatant.

A protein catalyzing dolichol transfer between membranes has been purified from bovine liver up to 600-fold by acid precipitation, ammonium sulfate precipitation, ion-exchange chromatography and hydrophobic interaction chromatography. The protein displays a relative molecular mass of 15000 on SDS-gel electrophoresis. Kinetics as well as the influence of a series of effectors were studied. The transfer activity is inhibited by sphingomyelin, sulfhydryl groups and cationic amphiphilic amines with a bulky heterocyclic aromatic function. High salt concentration decreases the transfer efficiency. Transfer of dolichol between vesicles and mitochondria is not affected by the presence of moderate amounts of cholesterol in the donor vesicles. The overall characteristics of dolichol transfer activity are discussed in comparison to these of other lipid transfer proteins.

Characterization of the in vitro conversion of dolichol to dolichoate in bovine thyroid.

The enzymic conversion of dolichol into dolichoic acid has been studied in bovine thyroid subcellular fractions using [1-3H]dolichol as a substrate. The presence of conversion activity could be demonstrated in both the mitochondrial- and supernatant fractions. Investigation of cofactor requirements revealed that NAD+ was essential for reaching optimal activity. From kinetic studies Km-values of 3.5-4 microM and 0.29 mM could be calculated for, respectively, dolichol and NAD+ using the mitochondrial fraction as an enzyme source. No inhibitory effects from ethanol or pyrazole were detected suggesting that alcohol dehydrogenase is not involved in the dolichol-->dolichoate conversion as observed in a bovine thyroid mitochondrial fraction. From inhibitor studies the conversion system behaves distinctly differently from the NADP(+)-depending microsomal oxidoreductase as well as from catalase. The conversion activity in the supernatant on the other hand must be ascribed, at least partially, to a side activity of alcohol dehydrogenase.

The shuttling of dolichol between VLDL and HDL: involvement of a protein factor from lipoprotein-deficient human serum.

The occurrence of a dolichol transfer factor in LPDS has been demonstrated using three different transfer assays. Applying a three step purification procedure, the transfer factor could be enriched 4000-5000-fold with a recovery of 1-2%. SDS-gel electrophoresis revealed a molecular weight of 64 kDa. Kinetics as well as the influence of a series of effectors were studied. Transfer was not accompanied by a concurrent esterification and the HDL3 subpopulation showed the highest acceptor capacity. The transfer factor also affected liposomal stability based on calcein fluorescence dequenching upon release. The characteristics of this dol-TP are discussed in view of these other plasma LTPs. Dol-TP might play a role in dolichol transfer from VLDL to HDL, observed in vivo.

Uptake of dolichol by Vero cells.

Characterization and kinetics of dolichol uptake by a Vero cell line are reported. Vero cells incorporate dolichol in a time- and dose-dependent manner. Optimal uptake is found at 37 degrees C and at a pH of 7.4. In contrast to cholesterol, an inhibitory effect on the dolichol incorporation is found for farnesol, geraniol, and retinol. Long chain polyprenols were slightly stimulatory. The translocation seems not to be highly energy dependent. The lack of substantial inhibition by chloroquine does not plead for a receptor-mediated endocytosis. Incorporated dolichol was distributed over both membranes and supernatant fractions, paralleling the distribution of the lysosomal marker beta-N-acetylhexosaminidase. The incorporated dolichol is subject to a fast efflux process, which is potentiated by the presence of lipid acceptors in the extracellular medium.

Dolichyl-pyrophosphoryloligosaccharide protein oligosaccharide transferase in neuronal ceroid-lipofuscinosis.

The kinetics of the oligosaccharide transfer from oligosaccharyl pyrophosphoryldolichol to endogenous protein acceptors in human fibroblasts were studied. No alterations in the transferase activity and enzyme characteristics could be observed in fibroblasts from neuronal ceroid-lipofuscinosis (NCL) patients. Analysis of urinary dolichol of two NCL patients also did not reveal substantial differences with respect to controls.

The presence of phospholipase A2 in bovine adrenal medulla: arguments for more than one type of phospholipase A2.

Since phospholipase A2 (PLA2) is expected to play a role in the mechanism of exocytosis, the presence and subcellular localization of PLA2 in bovine adrenal medulla have been studied. The results of this study reveal that, although a large part of the PLA2 activity in chromaffin cells is due to a lysosomal PLA2, a cytoplasmic PLA2 is also present. This finding is supported by experiments in which the influence of pH, CaCl2 and NaCl on cytoplasmic PLA2 as well as the binding capacity to concanavalin A are investigated. According to these results the properties of a cytoplasmic PLA2 are clearly different from those reported by other authors for the lysosomal PLA2. For this reason, in chromaffin cells a PLA2 could be present which remains in the cytosol when the cell is in rest. Future experiments will have to prove whether this PLA2 becomes associated with the plasma membrane upon stimulation of the cell, thus mediating exocytosis.

Multiple differences between wild-type B16 melanoma cells and a wheat germ agglutinin resistant clone.

A low-metastatic, glycosylation-defective variant of the B16 murine melanoma was obtained by Tao and Burger (1977) through selection with wheat germ agglutinin. We found that variant and parental (wild-type) cell lines were equally invasive when confronted with precultured embryonic chick heart fragments in vitro. Also, a short-term in vivo arrest assay showed no significant differences. After intravenous injection, wild-type cells killed the recipient mice faster than did the variant cells. We were able to confirm the changes in glycosylation at the enzyme level. In addition, we showed that the pattern of endogenous lectins was strikingly different, at least at the quantitative level. We also looked at another set of receptor proteins, namely receptors for neurotransmitters coupled to adenylate cyclase. The response to the vasoactive intestinal peptide and prostaglandins was lower in the variant cells, which also had a delayed response to cholera toxin. Although most of the data can be explained by altered glycosylation in the variant cells, the large number of differences between variant and parent cells makes it difficult to identify the biochemical basis of altered metastatic behaviour. This might also be the case with other pairs of cells differing in metastatic activity.

Modification of the adenylate cyclase activity of bovine thyroid plasma membranes by manipulating the ganglioside composition with a nonspecific lipid transfer protein.

Gangliosides (GM1, GT1b, GD3) were incorporated in bovine thyroid plasma membranes using the nonspecific lipid transfer protein from beef liver. The transfer of GT1b or GD3 in the presence of 16 units of transfer protein was twice as high as that of GM1. However, taking into account the spontaneous exchange (approximately 8% for GT1b or GD3 and 1% for GM1) the transfer protein seemed to be more effective for GM1. Incorporation of these gangliosides in bovine thyroid plasma membranes caused a concentration dependent inhibition of the TSH-stimulated adenylate cyclase activity. The forskolin-stimulated adenylate cyclase activity was not significantly affected by ganglioside modification of the plasma membranes, indicating that the gangliosides do not act at the level of the catalyst of adenylate cyclase. Binding experiments on the other hand revealed that TSH binding to bovine thyroid plasma membranes was inhibited with the same order of efficacy (GT1b greater than GD3 greater than GM1) and to the same extent as their inhibitory effect on TSH stimulation. Therefore, this indicates that the ganglioside induced drop in TSH binding might be an important factor in the decrease in TSH-stimulated adenylate cyclase activity. Incorporation of GT1b or GD3 (approximately 11 nmol) in bovine thyroid plasma membranes, however, also induced a substantial decrease in cholera toxin-stimulated adenylate cyclase activity (approximately 30%) and to a lesser degree a decrease in NaF-stimulated activity (approximately 17%), whereas GM1 incorporation did not significantly affect these stimulated activities. These latter inhibitory effects were paralleled by changes in fluorescence steady-state anisotropy: GT1b modification of the plasma membranes provoked a slight increase in TMA-DPH anisotropy, whereas the anisotropy of DPH was substantially enhanced after incorporation of GD3 or GT1b. These results suggest that gangliosides might also interfere with the coupling between the alpha-subunit of the stimulatory GTP-binding regulatory protein and the catalyst of the adenylate cyclase system by affecting the membrane fluidity.

Identification of essential amino acids in the active center of thyroidal NAD+ glycohydrolase.

1. Purified thyroidal NAD+ glycohydrolase has been subjected to the action of a number of group specific reagents in order to gain information concerning its mode of action. 2. Modification of histidyl residues with diethylpyrocarbonate strongly suppresses the NAD+ glycohydrolase activity. Inactivation with this reagent can be reversed to some extent by subsequent treatment with hydroxylamine. 3. NAD+ and ADP-ribose partially protect against inactivation with similar efficiencies. 4. The incomplete reactivation with hydroxylamine after diethylpyrocarbonate treatment and the selective inactivation by 2,4-pentanedione indicates that apart from one or more essential histidyl residue(s) also lysyl residues are important for activity. NAD+ and to a smaller extent ADP-ribose again protect against inactivation by 2,4-pentanedione. 5. The sensitivity of the enzyme towards N-ethyl-5-phenyl-isooxazolium-3'-sulfonate further points to the importance of carboxylate containing side chains. 6. The mechanistic implications of these results are discussed.

Modification of TSH-stimulated adenylate cyclase activity of bovine thyroid by manipulation of membrane phospholipid composition with a nonspecific lipid transfer protein.

The lipid composition of bovine thyroid plasma membranes was modified using the nonspecific lipid transfer protein from bovine liver. Incubation of plasma membranes with transfer protein and phosphatidylinositol-containing liposomes caused a strong, concentration dependent, inhibition of TSH-stimulated adenylate cyclase activity. Other phospholipids such as phosphatidylcholine, phosphatidylethanolamine, phosphatidylserine and phosphatidic acid were two to four times less effective as inhibitors of TSH-stimulation. The phosphatidylinositol-induced inhibition was not reversed when more than 80% of phosphatidylinositol incorporated was removed using phosphatidylinositol-specific phospholipase C. Incorporation of phosphatidylinositol in plasma membranes provoked no significant change in the fluorescence anisotropies of the fluorophores 1,6-diphenyl-1,3,5-hexatriene (DPH) and 1-(14-trimethylammoniumphenyl)-6-phenyl-1,3,5-hexatriene (TMA-DPH), indicating that the inhibition was not due to changes in membrane fluidity. At phosphatidylinositol concentrations causing a 66% reduction in TSH-stimulated adenylate cyclase activity cholera toxin- and forskolin-stimulated activity as well as basal activity were decreased by maximally 10%. Since TSH binding to bovine thyroid plasma membranes was not affected it is suggested that phosphatidylinositol can act as a negative modulator of the TSH activation of adenylate cyclase and this probably by interfering with the coupling between the occupied TSH receptor and the stimulatory GTP-binding regulatory protein of the adenylate cyclase complex.

Topography, purification and characterization of thyroidal 5'-nucleotidase.

1. Subcellular studies of bovine thyroid indicate that 5'-nucleotidase is predominantly associated with plasma membranes, although a considerable part of this ectoenzyme is also found internalized. 2. The enzyme displaying the features of a glycoprotein has been purified 1400 times by detergent solubilization and two subsequent affinity chromatographic steps. 3. Thyroidal 5'-nucleotidase can be classified as an unspecific metallo-dependent 5'-ribonucleotide phosphohydrolase. The native enzyme exists as a dimer (MW 150 kDalton), composed of two similar or identical subunits.

pH-induced transitions in cholera toxin conformation: a fluorescence study.

Determination of the ratio of intrinsic fluorescence with dibrominated Bry 96 (F) relative to that with unbrominated Bry 96 (F0), at neutral pH and in the presence of 0.2 M NaCl, reveals that the A subunit of cholera toxin (CT A) has a somewhat higher affinity for this mild detergent than intact cholera toxin (CT) and its B subunit (CT B). Receptor (GM1 or oligo-GM1) binding has no influence on the very low detergent binding of CT and CT B. Activation of CT A by treatment with dithiothreitol (20 mM) also does not affect detergent binding. The weak hydrophobic nature of CT A is also reflected by the negative modulatory action of anionic phospholipids and deoxycholate on its mono-ADP-ribosyltransferase activity and the ability of the former to decrease its intrinsic fluorescence intensity in a salt-resistant way. Detergent binding of CT A is only slightly pH dependent whereas, upon lowering the pH, detergent binding to CT or CT B becomes significant. In the pH range 6.5-4.2 a gradual increase in detergent binding to CT and CT B occurs. In the narrow pH range 4.2-4.0 a sharp and time-dependent enhancement of brominated Bry 96 quenching is observed. The increase in detergent binding upon lowering the pH is fully reversible, salt dependent, and complete within 10 min (t1/2 = 2 min at 25 degrees C). Solute quenching experiments with the neutral polar quencher acrylamide reveal that upon lowering the pH to 5.0 a marked increase in the exposure of the lone Trp-88 residue in each beta-polypeptide chain of CT B occurs.(ABSTRACT TRUNCATED AT 250 WORDS)

Characterization of dolichol kinase from bovine thyroid microsomes.

Bovine thyroid microsomes are able to phosphorylate exogenous [1-3H]dolichol as well as endogenous dolichol. The properties and specificity of the dolichol kinase activity have been studied by following the phosphorylation of [1-3H]dolichol to [1-3H]DMP as well as the formation of [32P]DMP from endogenous dolichol and [gamma-32P]CTP. The dolichol kinase activity was not linear with respect to time and exhibited a neutral pH-optimum. Product formation was directly proportional to microsomal protein concentration up to 2.5 mg protein/incubation. The enzyme was found to depend on divalent cations for activity: Mg2+-ions being much more effective than Ca2+- and Mn2+-ions. In accordance, EDTA was strongly inhibitory. The enzyme exhibited specificity for CTP as phosphoryl donor and was found to be inhibited by the reaction product CDP. The apparent Km-value for exogenous dolichol amounted to 4 microM. Those for CTP were estimated to be 3.88 and 10.75 mM with exogenous [1-3H]dolichol depending on the source of CTP. With endogenous dolichol Km-values for CTP of 27.8 and 6.1 microM were calculated in respectively the absence and presence of 5 mM VO4(3-). Triton X-100 (0.15%) was necessary in the [1-3H]dolichol kinase assay (only 3% of enzymatic activity in the absence of detergent), while with [gamma-32P]CTP dolichol kinase detergent was only of minor influence (30% stimulation at 0.02% Triton X-100). The levels of the enzymatic activity could be doubled by the inclusion of 18-21 mM NaF [( 1-3H]dolichol kinase) as phosphatase inhibitor: VO4(3-) had practically no effect. In contrast with [gamma-32P]CTP dolichol kinase, the enzymatic activity could be enhanced 4-fold by addition of 5 mM VO4(3-) while F- resulted into no appreciable effect.(ABSTRACT TRUNCATED AT 250 WORDS)