Alterations in the developmental patterns of enzymes in chicken embryos infected with West Nile virus.

Infection of chicken embryos with West Nile (WN) virus, a group B togavirus containing structural lipids, caused a rapidly developing hypertriglyceridemia. Changes in the activity of several hepatic regulatory enzymes in glycolytic and lipogenic pathways occurred during infection. Compared to control values in embryos of the same age (16 days), an 8.8-fold increase in the specific activity of ATP-citrate lyase and a 5.6-fold increase in that of hexokinase were observed on the third day of WN virus infection. Hexose monophosphate shunt dehydrogenase specific activities were elevated twofold in virus-infected livers. Activities of malic enzyme and phosphofructokinase were also elevated in WN virus-infected livers. Malate dehydrogenase and NADP-linked isocitrate dehydrogenase levels showed little or no change during infection. The levels of pyruvate kinase and lactate dehydrogenase were decreased in virus-infected livers. Hepatic acetyl-CoA carboxylase activity was at least twofold higher in virus-infected embryos; however, following removal of low-molecular-weight compounds, the specific activities of this enzyme from infected and control embryos were virtually identical. The results of mixing experiments suggest that the low levels of carboxylase activity in control embryos may be due to the presence of enzyme inhibitor(s) which can be removed by gel filtration.The incorporation of radiolabeled precursors into cellular lipids by liver minces from virus-infected and uninfected embryos was measured. There was a twofold increase in carbohydrate incorporation in virus-infected liver as compared to uninfected liver; [¹⁴C]pyruvic acid was incorporated into lipids to the greatest extent. [1-¹⁴C]acetic acid, [U-¹⁴C]alanine, and [U-¹⁴C]leucine were incorporated very poorly in both infected and control livers. Twice as much [1-¹⁴C]oleic acid or [1-¹⁴C oleic]triolein was incorporated in WN-infected livers as in control. The relative distribution of neutral and polar lipids formed from each precursor was generally similar in infected and uninfected livers as determined by thin-layer chromatography of radiolabeled lipids. Except for a threefold increase in oxidation of [¹⁴C]glucose by virus-infected livers, the oxidations of carbohydrates and fatty acids were similar in infected and uninfected livers. The pentose phosphate pathway appears to be the major pathway utilized in glucose oxidation for both control and virus-infected livers. The results indicate that enhanced flux of metabolites into lipids reflects a virus-induced alteration in embryonic development: The enzyme patterns of infected embryos are more characteristic of older embryos or even newly hatched chicks.     

The effect of nucleopolyhedrovirus infection and/or parasitism by Microplitis pallidipes on hemolymph proteins, sugars, and lipids in Spodoptera exigua larvae

We determined the physiological effects of joint and separate nucleopolyhedrovirus (NPV) infection and parasitism by the endoparasitoid Microplitis pallidipes Szepligeti on biochemical events in the noctuid Spodoptera exigua (Hübner). The results indicated that in parasitized larvae, compared to healthy larvae, total protein concentration in host hemolymph began to decline and total sugar concentration significantly increased by the first day, while lipid content in the host body significantly increased by the second day after parasitization. Meanwhile, in jointly infected and parasitized hosts, compared to parasitized larvae, total protein concentration was consistently higher, total sugar concentration was consistently lower, and lipid content became higher by the second day after treatment. In virus-infected larvae, compared to healthy larvae, total protein concentration sharply declined during the first two days but increased by the third, while total sugar concentration increased on the second and third days after virus infection but decreased at other observation times, and lipid content began to increase by the second day after virus infection. Finally, in larvae that were both parasitized and virus-infected, compared to just virus-infected larvae, total protein concentration increased during the first two days but decreased by the third, total sugar concentration increased only on the first and fourth days, and lipid content decreased significantly on the first day but began to increase by the second day after treatment. These findings led us to conclude that parasitization inhibited protein mobilization but stimulated sugar mobilization in host hemolymph, and promoted lipid mobilization in the host body, while Spodoptera exigua NPV infection stimulated protein mobilization induced by parasitization but inhibited sugar mobilization induced by parasitization.     

Uptake of (14C) leucine and protein synthesis in potato tuber buds and effect of abscisic acid on these processes]

The uptake of [14C] leucine and its incorporation into proteins of dormant and growing potato tuber buds were studied. It was found that the label uptake was increased at the beginning of the growth period, whereas the dynamics of this process were not changed in comparison with the dormant buds samples. The rate of [14C] leucine incorporation into proteins was increased in the growing buds; this increase was not, however, due to the increase in the uptake of the labelled precursor and was probably caused by activation of the protein synthesis. In contrast, the activation of protein synthesis was accompanied by changses is the dynamic incorporation of [14C] leucine into the protein at the end of dormancy. The effect of abscisic acid (10(-7) M) on the protein synthesis was not connected with its action of the uptake of labelled precursor and depended on the physiological state of buds and incubation time. A possible mechanism of regulatory effect of abscisic acid on protein synthesis in potato tuber buds is discussed.     

Effects of hormones on protein and amino acid metabolism in mammary-gland explants of mice.

The effects of insulin, cortisol and prolactin on amino acid uptake and protein biosynthesis were determined in mammary-gland explants from mid-pregnant mice. Insulin stimulated [3H]leucine incorporation into protein within 15 min of adding insulin to the incubation medium. Insulin also had a rapid stimulatory effect on the rate of aminoiso[14C]butyric acid uptake, but it had no effect on the intracellular accumulation of [3H]leucine. Cortisol inhibited the rate of [3H]leucine incorporation into protein during the initial 4h of incubation, but it had no effect at subsequent times. [3H]Leucine uptake was unaffected by cortisol, but amino[14C]isobutyric acid uptake was inhibited after a 4h exposure period to this hormone. Prolactin stimulated the rate of [3H]leucine incorporation into protein when tissues were exposed to this hormone for 4h or more; up to 4h, however, no effect of prolactin was detected. At all times tested, prolactin had no effect on the uptake of either amino[14C]isobutyric acid or [3H]leucine. Incubation with actinomycin D abolished the prolactin stimulation of protein biosynthesis, but this antibiotic did not affect the insulin response. A distinct difference in the mechanism of action of these hormones on protein biosynthesis in the mammary gland is thus apparent.     

Further studies of the transport of protein to nerve endings

Mice were injected intracerebrally with [l-¹⁴C]leucine, and the specific activities of subcellular fractions of brain and effractions of isolated nerve endings were determined. There was a progressive increase in the specific activity of protein associated with isolated nerve endings after incorporation of [l-¹⁴C]leucine into whole brain protein had terminated. Although, the incorporation of [¹⁴C]leucine into soluble protein of whole brain did not differ significantly in mice which were 3 months or 1-year old, the subsequent increase in specific activity of soluble protein isolated from nerve endings was significantly greater in the younger animals; 6-month-old mice were intermediate. Therefore, changes in some aspect of the transport of protein to nerve endings is altered even after sexual maturity. Anaesthetization with pentobarbitone during incorporation of [¹⁴C]leucine into protein, and inhibition of protein synthesis with acetoxycycloheximide after incorporation of [¹⁴C]leucine was complete, did not interfere with the subsequent appearance of radioactive protein at the nerve ending. Evidence is presented for the transport, from a proximal site of synthesis, of protein associated with particulate components of the nerve ending, including synaptic vesicles.     

Influence of autonomic agonists on the in vitro incorporation of [3H]leucine and N-acetyl[14C]mannosamine into submandibular action of the mouse

The influence of isoproterenol and pilocarpine on the in vitro incorporation of [3H]leucine and N-acetyl[14C]mannosamine into the proteins of the submandibular glands of the mouse has been investigated during a 10 h period. The total uptake of both labelled precursors into the glands was hardly affected by isoproterenol and pilocarpine during the first 2 h of incubation, thereafter both agonists decreased the uptake slightly. The incorporation of [3H]leucine into secreted proteins was largely similar for the control, isoproterenol and pilocarpine during an incubation of 10 h. [14C]ManNAc incorporation showed a lag period of about 2 h and could be observed in the secreted proteins after 2 h. Particularly after 6 h a strong increase was observed for the control and isoproterenol, whereas pilocarpine showed a much lower increase. The secreted protein components were separated by electrophoresis to study the incorporation of the labelled precursors in separate secretory proteins such as submandibular mucin. Apparently, both agonists increased the incorporation of [14C]ManNAc relative to [3H]leucine into submandibular mucin of the mouse. During a period of 10 h the [14C]ManNAc incorporation into the mucin was enhanced 2-3-fold by isoproterenol and 3-4-fold by pilocarpine. A non-radioactive experiment in vitro showed that the molar ratio of the sugar residues did not change. However, the total amount of sugars relative to the amino acids increased by 50%, pointing to an increase in the degree of glycosylation. This suggests that both adrenergic and cholinergic agonists regulate the total number of carbohydrate chains attached to one and the same polypeptide core of the submandibular mucin of the mouse.     

Induction of cyst coat protein synthesis by starvation in the ciliate Colpoda steinii

1. At 28 degrees C, synthesis of protein cyst coat in ciliates of Colpoda steinii is induced by washing with water and, as judged by glutamic acid assays and incorporation studies with l-[U-(14)C]leucine, starts about 30min after the cells have stopped swimming and is largely complete 90min later. During this time up to 70% of the protein synthesized by the cell is coat protein. 2. When cells were placed in l-[U-(14)C]leucine at low concentrations (0.25-0.76mm) during the period of coat synthesis there was no lag in uptake. Only a small proportion of the leucine incorporated into the coat was from the external substrate, implying that the rate of radioactive isotope incorporation measured the rate of transport of amino acid into the cell. Transport of l-[U-(14)C]leucine into the cell was markedly stimulated by l-glutamic acid and l-lysine. 3. When cells were placed in l-[U-(14)C]leucine at high concentrations (38mm) the rate of incorporation was considered to measure the rate of protein synthesis, but because the latter may have been affected by substrate it is concluded that such measurements are of doubtful value.     

VITAMIN B12 AND THE MACROMOLECULAR COMPOSITION OF EUGLENA : III. Effect of Cycloheximide on the Recovery from B12-Induced Unbalanced Growth

When cycloheximide is added to (B12)-deficient cultures before or after replenishment of the cells with B₁₂, reversion of these cells is inhibited. This inhibition is not caused by interference of the inhibitor in the uptake of B₁₂ as measured by division kinetics. Cycloheximide does not inhibit the initial increase in the rate of DNA synthesis caused by B₁₂ replenishment, but within 30–45 min the rate decreases and DNA synthesis ceases. Cycloheximide added to replenished deficient cells after completion of DNA duplication inhibits cell division. The total cellular protein and RNA in replenished cells treated with cycloheximide does not change. B₁₂ added to deficient cells does not stimulate the incorporation of [¹⁴C]leucine into protein during resumption and completion of DNA duplication. However, there is a large increase in [¹⁴C]leucine incorporation into the protein of these cells soon after completion of DNA duplication and before resumption of cell division. The addition of cycloheximide to B₁₂-replenished or to nonreplenished deficient cells rapidly inhibits the incorporation. We suggest that the addition of B₁₂ accelerates the rate of DNA synthesis in the deficient cells and that possibly no new protein synthesis is required except for mitosis. However, protein synthesis is needed for continuous DNA synthesis.     

Amino acid uptake and protein synthesis in preimplanatation mouse embryos

Amino acid uptake and cycloheximide inhibitable incorporation into protein are demonstrable in follicular ova, unfertilized eggs, and in mouse embryos ranging from the 1-cell to the late blastocyst stages. The rates of uptake and incorporation are low and relatively constant until the early blastocyst (day 3) stage of development when they increase 3- to 9-fold. The rate of uptake continues to increase during the fourth day (late blastocyst stage) of development, but, despite embryonic growth, incorporation into protein remains constant. By exposing embryos to leucine and lysine at different concentrations, it is possible to dissociate the processes of uptake and incorporation into protein from one another and to use the latter as a measure of protein synthesis. Taking the number of embryonic cells into account, it is postulated that the period between 8- to 16-cell stage (day 2) and the early blastocyst stage is the only one in which the synthesis of major amounts of protein based on new messenger RNA synthesis is occurring.Leucine and lysine uptake take place by a facilitated process, although lysine transport is not readily saturated. Inhibitors of energy metabolism do not significantly affect amino acid uptake, but they do inhibit protein synthesis. However, since the rate of transport is highly temperature sensitive (Q₁₀ ? 3) and leucine is accumulated against a concentration gradient, active amino acid transport appears to be present.     

Virus DNA replication and protein synthesis in Amsacta moorei entomopoxvirus-infected Estigmene acrea cells

Amsacta moorei entomopoxvirus DNA synthesis was detected in Estigmene acrea cells by [³H]thymidine incorporation 12 hr after virus inoculation. Hybridization of ³²P-labeled Amsacta entomopoxvirus DNA to the DNA from virus-infected cells indicated that viral-specific DNA synthesis was initiated between 6 and 12 hr after virus inoculation. A rapid increase in the rate of virus DNA synthesis was detected from 12 to 24 hr after virus inoculation. Amsacta entomopoxvirus protein biosynthesis in E. acrea cells was studied by [su35S]methionine incorporation and sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Extracellular virus and virus-containing occlusion bodies were first detected in virus-infected cell cultures 18 hr after virus inoculation. Thirty-seven virus structural proteins, ranging in molecular weight from 13,000 to 208,000 were detected in both occluded and nonoccluded forms of the virus. The biosynthesis of virus structural proteins increased rapidly from 18 to 34 hr after infection. A major viral-induced protein corresponding in molecular weight to viral occlusion body protein (110,000) was detected approximately 24 hr after virus inoculation.     

Regulation of enzyme turnover during tissue differentiation. Interactions of insulin, prolactin and cortisol in controlling the turnover of fatty acid synthetase in rabbit mammary gland in organ culture

1. Explants of mammary gland from mid-pregnant rabbits were cultured in Medium 199 containing combinations of insulin, prolactin and cortisol. With hormone combinations which included prolactin, a sustained increase in the apparent rate of synthesis and in the amount of fatty acid synthetase was measurable immunologically. Maximum increase was produced with insulin, prolactin and cortisol present together. 2. With prolactin present alone, synthetase activity in the explants decreased to undetectable values after 1 day in culture, whereas the incorporation of l-[U-(14)C]leucine into immunodetectable material increased. Prolactin may therefore direct the synthesis of immunologically cross-reactive precursors of fatty acid synthetase which are enzymically inactive. 3. Culture with dibutyryl cyclic AMP plus theophylline in the presence of insulin, prolactin and cortisol delayed the increase in the rate of synthesis and accumulation of the synthetase. These compounds may also prevent the apparent decrease in the rate of degradation of the synthetase which occurs on day 2 of culture. 4. A large decrease in the apparent rate of degradation of the synthetase on day 2 of culture occurs during culture with hormone combinations which include prolactin. The protein obtained by centrifugation of explant homogenates for 6min at 14000g(av.) is degraded continuously throughout the culture period. 5. This decrease in the apparent rate of degradation of the synthetase was measured by radio-immunological precipitation. It is probably part of a regulated programme of enzyme degradation and not a reflexion of the reutilization of radioactive amino acids for the following reasons. (a) The calculated increase in the amount of the synthetase in explants on day 2 of culture with insulin, prolactin and cortisol was approximately equal to the measured increase of the enzyme complex which accumulates in the explants. This suggests little or no enzyme degradation has occurred. (b) Explants were cultured for 24h with insulin, prolactin and cortisol. They were then incubated with l-[U-(14)C]leucine, washed and incubated again for up to 4(1/2)h. l-[U-(14)C]Leucine rapidly equilibrated with the intracellular amino acid pool. Within 10min of incubation after washing explants to remove endogenous l-[U-(14)C]leucine the previously linear incorporation of l-[U-(14)C]-leucine into total explant protein ceased. This suggests that protein is synthesized from an amino acid pool which rapidly equilibrates with amino acids in the culture medium. (c) Explants were cultured for 24h as described in (b) but after washing they were cultured with insulin, prolactin and cortisol for 24h. Approx. 90% of the radioactivity lost from the ;free' intracellular amino acid pool and from amino acids derived from the degradation of explant protein in this period was detected in the culture medium. This suggests that the ;free' intracellular amino acids and amino acids derived from protein degradation can equilibrate with amino acids in the medium. A residual ;free' radioactive amino acid pool was present in the tissue. (d) Casein represents approx. 20% of the protein synthesized after 1 day in culture with insulin, prolactin and cortisol. Histological evidence suggests that on day 2 of culture, casein is unlikely to be degraded in the tissue. No increase in the radioactivity incorporated into casein can be measured in the 23h after incubation of explants with l-[U-(14)C]leucine as described in (b). This suggests that the incorporation of radioactivity into proteins during culture after incubation with l-[U-(14)C]leucine is minimal. (e) Inhibition of protein synthesis in explants by cycloheximide after incubation with l-[U-(14)C]leucine does not reveal a latent continuous degradation of fatty acid synthetase on day 2 of culture which might have been masked by the high rates of protein synthesis and therefore the accumulation of the enzyme. 6. The conclusion is discussed that there is a real decrease (or even cessation) in the rate of degradation of fatty acid synthetase during the period when the enzyme accumulates in explants cultured with hormone combinations which contain prolactin.     

Effect of experimental diabetes on the incorporation of amino acids into protein in rat aorta.

The incorporation of 14C-labelled leucine or phenylalanine into alkali-soluble protein was determined under in vitro conditions in aortic intima-media of normal and streptozotocin-diabetic rats. Two weeks after the induction of diabetes the incorporation of the amino acids into aortic protein was reduced. When determined after diabetes of one week's duration the leucine-14C incorporation was not significantly reduced, while after 5 weeks of diabetes it was severely impaired. After administration of insulin to diabetic rats in vivo for 2 weeks there was no difference in leucine-14C incorporation between normal and diabetic rats. Addition of insulin (0.1 U/ml) in vitro had no effect on the leucine-14C incorporation in either normal or diabetic aorta during incubation times of 3 or 6 h. Elevation of the glucose concentration in vitro from 5.6 to 22.2 mmol/l did not influence the leucine incorporation in diabetic aorta. Both the aortic wet weight and the aortic content of alkali-soluble protein were decreased after 5 weeks of diabetes. The decrease in the protein content of aorta of diabetic animals suggest that the protein synthesis is impaired in vivo.     

Alterations in the Structure of the Oligosaccharide of Vesicular Stomatitis Virus G Protein by Swainsonine

Swainsonine, an inhibitor of glycoprotein processing, inhibits the formation of the normal oligosaccharide chain of the G protein of vesicular stomatitis virus. Thus, when vesicular stomatitis virus was grown in baby hamster kidney cells in the presence of swainsonine (15 to 500 ng/ml) and labeled with [2-(3)H]mannose, the oligosaccharide portion of the G protein was completely susceptible to the action of endoglucosaminidase H. However, the normal viral glycoprotein is not susceptible to this enzyme. Various enzymatic treatments and methylation studies of the mannose-labeled oligosaccharides suggest that swainsonine causes the formation of a hybrid-type oligosaccharide having an oligomannosyl core (Man(5)GlcNAc(2)-Asn) characteristic of neutral oligosaccharides plus the branch structure (NeuNAc-Gal-GlcNAc) characteristic of the complex oligosaccharides. A structure for this hybrid oligosaccharide is proposed. Swainsonine had no effect on the incorporation of [(14)C]leucine into viral proteins, nor did it change the number of PFU produced in these cultures. It did, however, slightly decrease the incorporation of [(3)H]glucosamine and increase the incorporation of [(3)H]mannose. Vesicular stomatitis virus raised in the presence of swainsonine bound much more tightly to columns of concanavalin A-Sepharose than did control virus. Swainsonine had to be added within the first 4 or 5 h of virus infection to be effective. Thus, when 100 ng of the alkaloid per ml was added at any time within the first 3 h of infection, essentially all of the glycoprotein was susceptible to digestion by endoglucosaminidase H. However, when swainsonine was added 4 h after the start of infection, 30% of the glycopeptides became resistant to endoglucosaminidase H; at 5 h, 70% were resistant. The effect of swainsonine was reversible since removal of the alkaloid allowed the cells to form the normal complex glycoproteins. However, the time of removal was critical in terms of oligosaccharide structure.     

Leucine incorporation and its potential as a measure of protein synthesis by bacteria in natural aquatic systems

Leucine incorporation was examined as a method for estimating rates of protein synthesis by bacterial assemblages in natural aquatic systems. The proportion of the total bacterial population that took up leucine in three marine environments was high (greater than 50%). Most of the leucine (greater than 90%) taken up was incorporated into protein, and little (less than 20%) was degraded to other amino acids, except in two oligotrophic marine environments. In samples from these two environments, ca. 50% of the leucine incorporated had been degraded to other amino acids, which were subsequently incorporated into protein. The degree of leucine degradation appears to depend on the organic carbon supply, as the proportion of 3H-radioactivity incorporated into protein that was recovered as [3H]leucine after acid hydrolysis increased with the addition of pyruvate to oligotrophic water samples. The addition of extracellular leucine inhibited total incorporation of [14C]pyruvate (a precursor for leucine biosynthesis) into protein. Furthermore, the proportion of [14C]pyruvate incorporation into protein that was recovered as [14C]leucine decreased with the addition of extracellular leucine. These results show that the addition of extracellular leucine inhibits leucine biosynthesis by marine bacterial assemblages. The molar fraction of leucine in a wide variety of proteins is constant, indicating that changes in leucine incorporation rates reflect changes in rates of protein synthesis rather than changes in the leucine content of proteins. The results demonstrate that the incorporation rate of [3H]leucine into a hot trichloroacetic acid-insoluble cell fraction can serve as an index of protein synthesis by bacterial assemblages in aquatic systems.     

Leucine incorporation and its potential as a measure of protein synthesis by bacteria in natural aquatic systems.

Leucine incorporation was examined as a method for estimating rates of protein synthesis by bacterial assemblages in natural aquatic systems. The proportion of the total bacterial population that took up leucine in three marine environments was high (greater than 50%). Most of the leucine (greater than 90%) taken up was incorporated into protein, and little (less than 20%) was degraded to other amino acids, except in two oligotrophic marine environments. In samples from these two environments, ca. 50% of the leucine incorporated had been degraded to other amino acids, which were subsequently incorporated into protein. The degree of leucine degradation appears to depend on the organic carbon supply, as the proportion of 3H-radioactivity incorporated into protein that was recovered as [3H]leucine after acid hydrolysis increased with the addition of pyruvate to oligotrophic water samples. The addition of extracellular leucine inhibited total incorporation of [14C]pyruvate (a precursor for leucine biosynthesis) into protein. Furthermore, the proportion of [14C]pyruvate incorporation into protein that was recovered as [14C]leucine decreased with the addition of extracellular leucine. These results show that the addition of extracellular leucine inhibits leucine biosynthesis by marine bacterial assemblages. The molar fraction of leucine in a wide variety of proteins is constant, indicating that changes in leucine incorporation rates reflect changes in rates of protein synthesis rather than changes in the leucine content of proteins. The results demonstrate that the incorporation rate of [3H]leucine into a hot trichloroacetic acid-insoluble cell fraction can serve as an index of protein synthesis by bacterial assemblages in aquatic systems.     

Use of the [(14)C]leucine incorporation technique to measure bacterial production in river sediments and the epiphyton.

Bacterial production is a key parameter for the understanding of carbon cycling in aquatic ecosystems, yet it remains difficult to measure in many aquatic habitats. We therefore tested the applicability of the [(14)C]leucine incorporation technique for the measurement of bulk bacterial production in various habitats of a lowland river ecosystem. To evaluate the method, we determined (i) extraction efficiencies of bacterial protein from the sediments, (ii) substrate saturation of leucine in sediments, the biofilms on aquatic plants (epiphyton), and the pelagic zone, (iii) bacterial activities at different leucine concentrations, (iv) specificity of leucine uptake by bacteria, and (v) the effect of the incubation technique (perfused-core incubation versus slurry incubation) on leucine incorporation into protein. Bacterial protein was best extracted from sediments and precipitated by hot trichloroacetic acid treatment following ultrasonication. For epiphyton, an alkaline-extraction procedure was most efficient. Leucine incorporation saturation occurred at 1 microM in epiphyton and 100 nM in the pelagic zone. Saturation curves in sediments were difficult to model but showed the first level of leucine saturation at 50 microM. Increased uptake at higher leucine concentrations could be partly attributed to eukaryotes. Addition of micromolar concentrations of leucine did not enhance bacterial electron transport activity or DNA replication activity. Similar rates of leucine incorporation into protein calculated for whole sediment cores were observed after slurry and perfused-core incubations, but the rates exhibited strong vertical gradients after the core incubation. We conclude that the leucine incorporation method can measure bacterial production in a wide range of aquatic habitats, including fluvial sediments, if substrate saturation and isotope dilution are determined.     

Biosynthesis of mouse erythrocyte membrane proteins by friend erythroleukemia cells

The synthesis of mouse erythrocyte membrane proteins by Friend erythroleukemia cells during dimethyl sulfoxide-induced differentiation was studied. Untreated and dimethyl sulfoxide-treated cells were incubated with l-[³H] leucine and the incorporation of radioactivity into total trichloroacetic acid-insoluble proteins and into proteins immunoprecipitated with a multivalent rabbit antibody to mouse erythrocyte membranes was determined. The immunoprecipitated membrane proteins were separated by sodium dodecyl sulfate polyacrylamide gel electrophoresis and radioactivity was detected by fluorography. The incorporation of l-[³H]leucine into total cell proteins was linear for 20 min in both untreated and treated cells. Exposure of the cells to dimethyl sulfoxide had an inhibitory effect on protein synthesis, with a significant decrease noted on the fourth day of treatment and a continued decline occurring until the seventh day when protein synthesis was 42% that of untreated cells. The synthesis of erythrocyte membrane proteins was 0.49% that of total cell proteins in untreated cells, was increased to 1.27% by the third day of treatment and remained at about 1% of total protein synthesis from the fourth to the seventh day. Untreated cells synthesized low levels of spectrin, bands 5 and 6 proteins. Treatment with dimethyl sulfoxide caused a staggered increase in synthesis of a number of erythrocyte membrane proteins. Spectrin synthesis increased 4-fold by the third day of treatment and declined thereafter. The synthesis of membrane proteins with electrophoretic mobilities similar to bands 3 and 4 was increased 2–3-fold by the fourth day, while bands 6 and 5 proteins attained maximal synthesis (4-fold) on the fifth and sixth days of treatment.     

Cellular cholesterol metabolism in mitogen-stimulated lymphocytes--requirement for de novo synthesis

The relationship between cholesterol synthesis and uptake in proliferating lymphocytes has been examined. [14C]Acetate incorporation into lymphocytes cultured under lipoprotein-deficient conditions increased initially in response to mitogen, decreased after 24 h, and increased rapidly between 72 and 96 h. Addition of LDL (10 micrograms/ml) to the culture during the 'trough' period caused [14C]acetate incorporation to return rapidly to baseline, while at peak periods LDL suppression of cholesterol synthesis was minimal. Lymphocytes cultured in the presence of the HMG-CoA reductase inhibitor, mevinolin, exhibited a time-dependent increase in their capacity to incorporate [14C]acetate into cholesterol, evident when mevinolin was removed by washing prior to assay. PHA enhanced 125I-labelled LDL receptor-mediated binding by lymphocytes cultured in lipoprotein-deficient medium over a 4 day period and mevinolin augmented the effect. [3H]Thymidine incorporation into mitogen-stimulated lipoprotein-deficient cultures was inhibited up to 75% by mevinolin (1 mumol/l). LDL (2.5-10 micrograms/ml) substantially reversed this inhibition in 72 h cultures, but only partially overcame inhibition in cells cultured for 96 h. Results suggest that endogenous cholesterol synthesis may be obligatory for lymphocyte proliferation after the initial round of cell division.     

Protein synthesis during hyperthermia in ground squirrels]

The intensity of [14C]leucine incorporation into heart, liver, brain, muscle, and blood plasma protein in gophers under deep artificial hypothermia has been studied. It was shown that the intensity of protein synthesis decreased sharply under these conditions. Insignificant incorporation of [14C]leucine into proteins was observed during the first two hours after the onset of hypothermia and then ceased completely.     

Inhibition of Sindbis Virus Production by Media of Low Ionic Strength: Intracellular Events and Requirements for Reversal

Incubation of Sindbis virus-infected cultures in medium with an ionic strength of 0.105 reduced the virus yield more than 99%. This inhibition was rapidly reversed by exposing the cultures to normal medium: within 20 min the previously inhibited cultures had released as much infectious virus as normal controls had produced during hours of incubation. The following intracellular processes were essentially normal in inhibited, infected monolayers: protein and phospholipid synthesis, the synthesis of infectious viral ribonucleic acid and its incorporation into nucleocapsids, and viral modification of the cell membrane. Accelerated virus production was detected within 20 sec after exposure of inhibited cultures to normal medium. It required an ionic strength greater than 0.145, a pH above 6.7, and a temperature above 21 C. It was not dependent on osmotic pressure, de novo protein synthesis, or a functional energy metabolism. Virus release also occurred in sonic-treated materials of inhibited cells under the same conditions as in living cells. Potential applications of the inhibition to concentration of virus stocks or to obtaining virus in nonphysiological solutions are noted. Preliminary studies with Semiliki Forest virus, Newcastle disease virus, and vesicular stomatitis virus suggest that this phenomenon may be limited to arboviruses.