Intracellular transport of a newly synthesized asialoglycoprotein receptor in rat liver

Intracellular transport of a newly synthesized asialoglycoprotein receptor was studied biochemically using a monospecific antibody for the receptor. Pulse-labeling by intravenous injection of [3H]leucine and pulse-chasing after 10 min by cycloheximide injection resulted in the maximal labeling of the receptor in the rough microsomes at 15 min, in the smooth microsomes and the heavy Golgi subfraction (GF3) at 25 min and in the intermediate plus light Golgi subfraction (GF1+2) at 30 min. By 60 min, the labeling in GF1+2 had decreased and leveled off. In the plasma membrane fraction, the labeled receptor first appeared at 20 min, increased rapidly and also reached a constant level at 40-60 min. Intracellular movement of the newly synthesized receptor in the GF1+2 and plasma membrane fractions was also investigated by purifying the receptor protein from the GF1+2 and plasma membrane fractions by affinity chromatography. It was revealed that the specific radioactivities of the receptor in the two fractions become equilibrated after 60-120 min. The receptor of the various membrane fractions was also pulse-labeled in vivo for 20 min simultaneously with [3H]glucosamine and [14C]leucine, and pulse-chased for the following 40 min. After pulse-labeling for 20 min, the ratio of the radioactivity of [3H]glucosamine or [3H]sialic acid to [14C]leucine of the receptor from the rough and smooth microsomes, and GF3, GF2, and GF1 increased in that order. That of the receptor from the plasma membrane fraction was infinitely higher, because, while a significant amount of 3H-radioactivity was incorporated into the receptor in the Golgi apparatus, only a negligible amount of 14C-radioactivity was incorporated into the same receptor in the plasma membrane due to the delay in the arrival of [14C]leucine labeled receptor to the plasma membrane. After chasing for 40 min, however, the same radioactivity ratios of the GF1 and plasma membrane fractions approached each other. All these results strongly suggest that the distribution of the newly synthesized receptor becomes rapidly equilibrated between the trans-Golgi components and plasma membranes probably by repeated recycling of the receptor protein between the two membranes.     

Interaction of rat liver glucocorticoid receptor with a newly synthesized antisteroid ZK98299

Steroid receptor antagonists are important biochemical probes for understanding the mode of steroid hormone action. We have studied the interaction between rat liver glucocorticoid receptor and a newly synthesized antisteroid ZK98299 (13-antigestagen; [11-beta-(4-dimethylaminophenyl)-17a-hydroxy-17 beta-(3- hydroxypropyl)-13 alpha-methyl-4,9-gonadien-3-one]). Glucocorticoid receptor from freshly prepared hepatic cytosol bound [3H]ZK98299 with affinity approximately equal to that of [3H]triamcinolone acetonide. The binding of both steroids reached a maximum at 4 h at 0 degrees C. Both ligands were able to compete for the steroid binding site but progesterone, estradiol and dihydrotestosterone (DHT) failed to compete for the [3H]ZK98299 and [3H]triamcinolone acetonide binding. While [3H]ZK98299 binding to glucocorticoid receptor could occur in the presence of iodoacetamide and N-ethylmaleimide (NEM), [3H]triamcinolone acetonide binding capacity was completely abolished following such treatments. The [3H]ZK98299-receptor complexes sedimented as 9 S and 4 S molecules under control (4 degrees C) and receptor transforming (23 degrees C) conditions, and exhibited a faster rate of dissociation at 23 degrees C when compared with [3H]triamcinolone acetonide-receptor complexes. These results indicate that ZK98299 interacts with hepatic glucocorticoid receptor. The differential effects of iodoacetamide and NEM on the interaction of glucocorticoid receptor with ZK98299 and triamcinolone acetonide, and the faster rate of dissociation of [3H]ZK98299-receptor complexes suggest that treatment with these agents (NEM and iodoacetamide) results in distinct conformational changes in glucocorticoid receptor structure with respect to triamcinolone acetonide and ZK98299 binding. Alternatively, ZK98299 may be interacting with a site which is distinct from one which accepts triamcinolone acetonide.     

Distribution of newly synthesized lysosomal enzymes in the endocytic pathway of normal rat kidney cells

We have investigated the distribution of newly synthesized lysosomal enzymes in endocytic compartments of normal rat kidney (NRK) cells. The mannose-6-phosphate (Man6-P) containing lysosomal enzymes could be iodinated in situ after internalization of lactoperoxidase (LPO) by fluid phase endocytosis and isolated on CI-MPR affinity columns. For EM studies, the ectodomain of the CI-MPR conjugated to colloidal gold was used as a probe specific for the phosphomannosyl marker of the newly synthesized hydrolases. In NRK cells, approximately 20-40% of the phosphorylated hydrolases present in the entire pathway were found in early endocytic structures proximal to the 18 degrees C temperature block including early endosomes. These structures were characterized by a low content of endogenous CI-MPR and were accessible to fluid phase markers internalized for 5-15 min at 37 degrees C. The bulk of the phosphorylated lysosomal enzymes was found in late endocytic structures distal to the 18 degrees C block, rich in endogenous CI-MPR and accessible to endocytic markers internalized for 30-60 min at 37 degrees C. The CI-MPR negative lysosomes were devoid of phosphorylated hydrolases. This distribution was unchanged in cells treated with Man6-P to block recapture of secreted lysosomal enzymes. However, lysosomal enzymes were no longer detected in the early endosomal elements of cells treated with cycloheximide. Immunoprecipitation of cathepsin D from early endosomes of pulse-labeled cells showed that this hydrolase is a transient component of this compartment. These data indicate that in NRK cells, the earliest point of convergence of the lysosomal biosynthetic and the endocytic pathways is the early endosome.     

Compartmentation of newly synthesized phosphatidylethanolamine in rat brain microsomes

Summary The compartmentation of the phosphatidylethanolamine newly synthesized in brain microsomesin vitro either by base exchange or net synthesis has been studied, using difluorodinitrobenzene as a chemical probe. The experimental results demonstrate that in rat brain microsomes the phosphatidylethanolamine molecules synthesized by base exchange and the bulk membrane lipid belong to different pools. Ca²⁺ bound to microsomes seems to be involved in the maintenance of the compartmentation of phosphatidylethanolamine. In the presence of Ca²⁺ the newly synthesized phosphatidylethanolamine molecules react with difluorodinitrobenzene as though they are organized in clusters. After biosynthesisin vivo orin vitro through the cytidine pathway, the compartmentation of the newly formed phosphatidylethanolamine appears less marked than after the synthesis through base exchange.     

Separation and characterization of isoforms of DT-diaphorase from rat liver cytosol.

Rats were treated with 3-methylcholanthrene (MC) and DT-diaphorase from liver was partially purified on an azodicoumarol-Sepharose 6B column and applied to an FPLC-chromatofocusing column in order to resolve isoforms. Six peaks showing significant DT-diaphorase activity were eluted from this column with a pH gradient between 7.30 to 4.80. The amino acid compositions of the two major peaks (II and VIb) were found to be nearly identical, suggesting existence of isoforms rather than isozymes of DT-diaphorase. The isoforms of DT-diaphorase showed broad substrate specificities towards four different quinones (menadione, vitamin K-1, benzo(a)pyrene 3,6-quinone and cyclized-dopamine ortho-quinone), although quantitative differences in the specific activities were also found. All isoforms are glycoproteins but contain different carbohydrates. Thus isoform II reacts with biotinylated lectins which are specific for N-acetylgalactosamine, mannose, fucose and galactosyl(beta-1,3)N-acetylgalactosamine, while isoform VIb reacts only with biotinylated lectins specific for mannose and N-acetylgalactosamine. Separation of DT-diaphorase isoforms from control rat liver cytosol using FPLC-chromatofocusing revealed that the induction of the isoforms is not uniform, since isform II was not found and the major isoform was composed of three peaks, whereas the major isoform of DT-diaphorase from liver cytosol of rats treated with 3-methylcholanthrene was composed of only two peaks.     

Preferential degradation of newly synthesized ribosomal proteins in rat liver treated with a low dose of actinomycin D

The administration of a low dose of actinomycin D to partially hepatectomized rats, which selectively inhibited rRNA synthesis, caused the preferential degradation of newly synthesized ribosomal proteins in regenerating rat liver with an apparent half-life of about 20 to 40 min.     

Distribution of newly synthesized amylase in microsomal subfractions of guinea pigs pancreas

Amylase distribution was studied in guinea pig pancreas microsomes fractionated by centrifuging, for 2 hr at 57,000 g in a linear 10 to 30% sucrose gradient, a resuspended high speed pellet obtained after treating microsomes with 0.04% deoxycholate (DOC).¹ Amylase appeared in the following positions in the gradient: (a) a light region which contained ∼35% of total enzymic activity and which coincided with a monomeric ribosome peak; (b) a heavy region which contained ∼10% of enzymic activity in a sharp peak but which had very little accompanying OD₂₆₀ absorption; (c) a pellet at the bottom of the centrifuge tube which contained ∼20% of the enzymic activity. After 5 to 20 min'' in vivo labeling with leucine-1-C¹⁴, radioactive amylase was solubilized from these three fractions by a combined DOC-spermine treatment and purified by precipitation with glycogen, according to Loyter and Schramm. In all cases, the amylase found in the pellet had five to ten times the specific activity (CPM/enzymic activity) of the amylase found in the light or heavy regions of the gradient. The specific radioactivity (CPM/mg protein) of the proteins or peptides not extracted by DOC-spermine was similar for all three fractions. Hypotonic treatment of the fractions solubilized ∼80% of the total amylase in the fraction from the heavy region of the gradient, but only ∼20% of the amylase in the monomer or pellet fraction. Electron microscope observation indicates that the monomer region of the gradient contained only ribosomes, that the heavy region of the gradient contained small vesicles with relatively few attached ribosomes, and that the pellet was composed mostly of intact or ruptured microsomes with ribosomes still attached to their membranes. It is concluded from the above, and from other evidence, that most of the amylase activity in the monomer region is due to old, adsorbed enzyme; in the heavy region mostly to enzyme already inside microsomal vesicles; and in the pellet to a mixture of newly synthesized and old amylase still attached to ribosomes. Furthermore, the ribosomes with nascent, finished protein still bound to them are more firmly attached to the membranes than are ribosomes devoid of nascent protein.     

Distribution of newly formed fatty acids among glycerolipids of isolated perfused rat liver.

Livers of chow fed rats were perfused 1-3 h with buffer, glucose, albumin, and red blood cells, made up in 100 percent D(2)O. Glycerolipids were isolated and the deuterated fatty acids determined by gas chromatography with mass spectrometry on Silar 5 CP. Percentage of replacement by deuterated acids ranged from 1 to 14, of which palmitate was 87 percent. Differences were found in total lipid class and in subcellular distribution of the newly synthesized acids. Microsomes had 37 percent more deuterated acids than the total or floating fat. At 3 h the highest replacement was found in diacylglycerols (17 percent) and free fatty acids (11 percent). Of the palmitate in hepatic choline and ethanolamine phosphatides, 6.9 percent and 4.7 percent, respectively, contained dueterium. The serine and inositol phosphatides had a higher proportion of deuterated palmitate (7.7 percent) than other phosphatides. The data support the hypothesis that palmitate is incorporated into glycerolipids largely via de novo synthesis while stearate enters them by deacylation-acyl transfer replacement.     

Methylation of newly synthesized ribonucleic acid by isolated rat liver nuclei. Characterization of the ribonucleic acid synthesized by nuclei from starved animals

1. Nuclei from rat liver incubated with S-adenosyl[methyl-(14)C]methionine incorporated radioactivity into RNA and into lipid and protein. 2. All of the labelled RNA was extracted from the nuclei with trichloroacetic acid at 90 degrees C. 3. The [(14)C]methyl-group incorporation into the hot-trichloroacetic acid extract was 30% inhibited by the addition of actinomycin D (100mug/mg of DNA) or by the omission of CTP, GTP and UTP. 4. Assuming that the main substrate for this triphosphate-dependent methylation was newly synthesized precursor rRNA containing one methyl group/30 uridylate residues, it was calculated that approx. 60% of the [(14)C]UMP incorporated under similar conditions represented precursor rRNA synthesis. 5. In agreement with this, low concentrations of actinomycin D (approx. 1mug/mg of DNA) sufficient to abolish the triphosphate-dependent incorporation of [(14)C]methyl group inhibited 68% of the [(14)C]UMP incorporation. 6. The incorporation of [(14)C]UMP by nuclei from starved animals decreased progressively with increasing periods of starvation, whereas the triphosphate-dependent [(14)C]methyl-group incorporation was not further decreased after 1 day of starvation. 7. This suggests that precursor rRNA synthesis decreased within 1 day whereas other species of RNA were affected only after longer periods of starvation.     

Secretion of the newly synthesized cholesterol by rat hepatocytes in primary culture

We used monolayer cultured rat hepatocytes as an experimental model to study the secretion of the newly synthesized cholesterol by the liver. Cellular cholesterol was labeled by exposing cultured hepatocytes to [14C]acetate prior to the study of secretion. Secretion of the newly synthesized cholesterol was measured by extracting cholesterol in the culture medium and assaying for the radioactivity of [14C]cholesterol. We found that: (a) cultured hepatocytes could secrete newly synthesized cholesterol in serum-free medium; (b) secreted [14C]cholesterol was bound to macromolecule(s) and the secretion rate was not affected by cycloheximide for up to 5 h; (c) serum added to the culture medium greatly enhanced hepatic cholesterol secretion; (d) serum high-density lipoproteins were most effective, lipoprotein-deficient serum (d greater than 1.21) less effective in stimulating cholesterol secretion, whereas low-density and very-low-density lipoproteins had little effect; (e) when the serum-free culture medium was fractionated by ultracentrifugation, a major portion of the secreted [14C]cholesterol was found in the high-density lipoprotein fraction; (f) part of the medium [14C]cholesterol also turned up in the high-density lipoprotein fraction when lipoprotein-deficient serum was added as the acceptor; (g) secreted [14C]cholesterol was found only in free form, although some of the cellular [14C]cholesterol was found as esters.     

Localization and characterization of newly synthesized nuclear RNA in isolated rat hepatocytes

The ultrastructural localization of extranucleolar RNA transcribed during short periods of labeling with [³H]UdR in isolated rat hepatocytes is studied using high resolution autoradiography combined with a preferential staining for ribonucleoproteins. The labeled RNA is characterized in parallel experiments by electrophoresis on exponential polyacrylamide gels under denaturing conditions. It is demonstrated, using ultrathin sections of Epon embedded cells, that after 2 or 5 min of labeling the radioactivity is predominantly associated with perichromatin fibrils localized frequently in proximity to condensed chromatin regions. Autoradiographs of ultrathin frozen sections confirm the perichromatin localization of the rapidly labeled RNA. The great majority of this label is represented by growing chains of pre-mRNA. After 2 or 4 h of non-radioactive chase following the radioactive incubation, the major part of silver grains is still associated with perichromatin fibrils but is found distributed rather homogeneously throughout the nucleoplasm. This would suggest a migration of a part of the labeled perichromatin fibrils towards the interchromatin regions. At this time the label is characterized as pre-mRNA of intermediate size. These findings are discussed in the context of other recent investigations of the localization of newly transcribed nuclear RNA.     

Phasic release of newly synthesized secretory proteins in the unstimulated rat exocrine pancreas

Pancreatic lobules from fasted rats secrete pulse-labeled proteins in two phases comprising 15 and 85% of basal output, respectively. The first (0-6.5 h) is initially (less than or equal to 0.5 h) unstimulated by secretagogues, probably represents vesicular traffic of Golgi and post-Golgi origin (including condensing vaculoles/immature granules), and notably contains two groups of polypeptides with distinct release rates: zymogens (t1/2 approximately 2.4 h) and minor nonzymogens plus one unique zymogen (t1/2 approximately 1 h). The second phase (peak at 9-10 h) is stimulable, probably represents basal granule exocytosis (t1/2 approximately 5 h), and contains zymogens exclusively. Newly synthesized proteins released in both phases appear asynchronously, reiterating their asynchronous transport through intracellular compartments. Zymogens in both phases are secreted apically. The sorting of first from second phase zymogen release does not appear to be carrier-mediated, although the sorting of zymogens from other secretory proteins may use this process. Finally, data are presented that suggest that both secretory phases are subject to physiologic regulation.     

Subcellular distribution of newly synthesized glycerolipids in intact and homogenized rat adipocytes.

1. Homogenization of rat adipocytes was found to inhibit the transfer of newly synthesized phospholipids and glycerides from the membranes to the storage lipids. 2. In intact adipocytes, only 23 +/- 3.4% of the phospholipids and 0.44 +/- 0.12% of the glycerides remained bound to the membranes, while for the homogenate, the comparable values obtained were 74 +/- 5.2% and 90 +/- 0.3% respectively. 3. Various factors that might be involved in the liberation of the glycerolipids from the adipocyte esterification sites are discussed.     

Acute effects of heroin and morphine on newly synthesized serotonin in rat brain.

Heroin and morphine, in acute intraperitoneal doses of 2 and 10 mg/kg respectively, produced significant increments in the formation of newly formed brain serotonin from tritiated (³H)-L-tryptophan to ³H-serotonin. Opiate analgesia, Straub tail sign and catatonia, were observed during the increase in the synthesis of serotonin. The transport of radio-labelled tryptophan into the rat brain was not increased by the acute injection of the opiates, but brain levels of ³H-serotonin and of its main metabolite, 5-hydroxyindoleacetic acid, were significantly elevated. These opiates do not interfere with the accumulation of serotonin or with the transport of its metabolite in serotonergic neurons after inhibition of monoamine oxidases with Pargyline. An increase in the activity of tryptophan hydroxylases was more pronounced in the forebrain than in the brain stem. Stimulation of newly synthesized serotonin is probably mediated by an increase in tryptophan hydroxylase activity and not by an increase in the transport of tryptophan into the brain.