Quantitative ultrastructural autoradiographic study of RNA transport in rat ventral prostate

The nucleocytoplasmic RNA transport in rat ventral prostate was studied by electron microscope autoradiography. Isolated prostate acini from normal, castrated, and DHT-treated animals were labeled in vitro with [³H]uridine for 5 min and chased for 0, 15, 30 min and 4 hr. The results show that (a) DHT induces a significant nucleolar enlargement but intranuclear migration of rRNA is not apparently affected by androgens; (b) migration of RNA through euchromatin is delayed by castration and stimulated by DHT; (c) migration through the nuclear envelope is androgen-dependent. In addition prostate acini were maintained for 24 hr in suspension culture in order to study the in vitro effects of DHT. The result show that (a) DHT stimulates uridine uptake and/or incorporation but induces no nucleolar enlargement; (b) DHT has no clear effects on RNA migration kinetics; (c) cytoplasmic transport of RNA in cells cultured in medium with or without DHT is severely impaired but is restored after supplementation of medium with insulin and dexamethasone.     

Glucose metabolism in the superovulated rat ovary in vitro. Effects of luteinizing hormone and the role of glucose metabolism in steroidogenesis

1. Superovulated rat ovary slices from rats treated with 20μg. of luteininzing hormone/100g. body wt. 2hr. before death and from control animals have been incubated in vitro. Output of Δ⁴-3-oxo steroids (0·2μmole/g. wet wt./hr. in control tissue) was linear for 4hr., and was increased by approx. 70% in slices from luteinizing hormone-treated rats. Rate of oxygen consumption (90·0±4·6μmoles/g. wet wt./hr.) was linear for 3hr. and unaltered by luteinizing hormone treatment or addition of glucose (1mg./ml.) to the medium. 2. In slices from control animals, steady-state rate of glucose uptake was 78·0±2·9μg. atoms of carbon/g. wet wt./hr.; steady-state rates of lactate output, pyruvate output and incorporation of [U-¹⁴C]-glucose carbon atoms into carbon dioxide and total lipid extract were 60·7±0·9, 2·4±0·1, 18·0±1·1 and 0·7±0·1μg. atom of carbon/g. wet wt./hr. and accounted for 104·5±1·9% of the glucose uptake. In slices from luteinizing hormone-treated rats, glucose uptake and outputs of lactate, pyruvate and [¹⁴C]carbon dioxide were increased by approx. 25%, and 108·4±3·2% of the glucose uptake could be accounted for. 3. The total lipid extract was separated by thin-layer chromatography and saponification. Of the ¹⁴C incorporated into this fraction during incubation with [U-¹⁴C]glucose 97% was found in the fractions containing glyceride glycerol and less than 3% in the fractions containing sterols, steroids or fatty acids. Appreciable quantities of ¹⁴C were incorporated into these lipid fractions from [1-¹⁴C]acetate. 4. From a consideration of the tissue glycogen content, the specific activities of [¹⁴C]lactate and glucose 6-phosphate (C-1) derived from [1-¹⁴C]-, [6-¹⁴C]- and [U-¹⁴C]-glucose, and the ratio of [¹⁴C]carbon dioxide yields from [1-¹⁴C]glucose and [6-¹⁴C]glucose, it was concluded that there was no appreciable glycogenolysis or flow through the pentose phosphate cycle. 5. In ovary slices from both control and luteinizing hormone-treated animals, glucose in vitro raised the incorporation rate of ¹⁴C from [1-¹⁴C]acetate into sterols and steroids. Luteinizing hormone in vivo stimulated the incorporation rate in vitro but only in the presence of glucose. 6. In slices incubated in medium containing [³H]water, [¹⁴C]sorbitol and glucose (1mg./ml.), the total water space (865±7·1μl./g.) and the extracellular water space (581±22μl./g.) were unchanged by luteinizing hormone treatment in vivo but the glucose space was raised from 540±23·6μl./g. to 639±31·3μl./g. 7. Luteinizing hormone treatment was found to lower the tissue concentration of the hexose monophosphates and to increase the total activity of hexokinase, glucose 6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase and possibly of phosphofructokinase. 8. The kinetic properties of a partially purified preparation of phosphofructokinase were found to be qualitatively similar to those from other mammalian tissues. 9. The results are discussed with reference to both the role of glucose metabolism in steroidogenesis and the mechanism by which luteinizing hormone increases the rate of glucose uptake.     

Studies in lipogenesis in vivo: Fatty acid and cholesterol synthesis during starvation and re-feeding

1. Lipogenesis in vivo has been studied in mice given a 250mg. meal of [U-¹⁴C]glucose (2·5μc) or given an intraperitoneal injection of 25μg. of [U-¹⁴C]glucose (2·0μc). 2. The ability to convert a [U-¹⁴C]glucose meal into fatty acid was not significantly depressed by 6–7hr. of starvation. In contrast, incorporation of ¹⁴C into fatty acid in the liver after the intraperitoneal dose of [¹⁴C]glucose was depressed by 80% and by more than 90% by 1 and 2hr. of starvation respectively. Carcass fatty acid synthesis from the [U-¹⁴C]glucose meal was not depressed by 12hr. of starvation, whereas from the tracer dose of [U-¹⁴C]glucose the depression in incorporation was 80% after 6hr. of starvation. 3. Re-feeding for 3 days, after 3 days' starvation, raised fatty acid synthesis and cholesterol synthesis in the liver fivefold and tenfold respectively above the levels in non-starved control mice. These increases were associated with an increased amount of both fatty acid and cholesterol in the liver. 4. After 18hr. of starvation incorporation of a [U-¹⁴C]glucose meal into carcass and liver glycogen were both increased threefold.     

Host-Pathogen Interactions : XXIII. The Mechanism of the Antibacterial Action of Glycinol, a Pterocarpan Phytoalexin Synthesized by Soybeans

The biochemical basis for the ability of the pterocarpan phytoalexin glycinol (3,6a,9-trihydroxypterocarpan) to inhibit the growth of bacteria was examined. Glycinol at bacteriostatic concentrations (e.g. 50 micrograms per milliliter) inhibits the ability of Erwinia carotovora to incorporate [³H]leucine, [³H]thymidine, or [³H]uridine into biopolymers. Exposure of Escherichia coli membrane vesicles to glycinol at 20 micrograms per milliliter results in inhibition of respiration-linked transport of [¹⁴C]lactose and [¹⁴C]glycine into the vesicles when either d-lactate or succinate is supplied as the energy source. The ability of E. coli membrane vesicles to transport [¹⁴C]α-methyl glucoside, a vectorial phosphorylation-mediated process, is also inhibited by glycinol at 20 micrograms per milliliter. Furthermore, exposure of membrane vesicles to glycinol (50 micrograms per milliliter) at 20°C results in the leakage of accumulated [¹⁴C]α-methyl glucoside-6-phosphate. The effects of the phytoalexins glyceollin, capsidiol, and coumestrol, and daidzein, a compound structurally related to glycinol but without antibiotic activity, upon the E. coli membrane vesicle respiration-linked transport of [¹⁴C]glycine and of [¹⁴C]α-methyl glucoside was also examined. Glyceollin and coumestrol (50 micrograms per milliliter), but not daidzein, inhibit both membrane-associated transport processes. These data imply that the antimicrobial activity of glycinol, glyceollin, and coumestrol are due to a general interaction with the bacterial membrane. Capsidiol (50 micrograms per milliliter) inhibits d-lactate-dependent transport of [¹⁴C]glycine but not vectorial phosphorylation-mediated transport of [¹⁴C]α-methyl glucoside. Thus, capsidiol's mechanism of antimicrobial action seems to differ from that of the other phytoalexins examined.     

The morphological site of synthesis of cytochrome c in mammalian cells (Krebs cells)

In Krebs ascites-tumour cells, cytochrome c is segregated in the mitochondria and the level in microsomes could not be measured. At 22° in glucose–buffer Krebs cells synthesized a spectrum of proteins including cytochrome c. Mild osmotic shock in the presence of ribonuclease had little effect on incorporation of [¹⁴C]-leucine or [¹⁴C]valine into mixed mitochondrial protein but strongly inhibited synthesis of non-mitochondrial cytoplasmic proteins. Under these conditions, labelling of cytochrome c was also strongly inhibited. After pulse labelling of Krebs cells at 22° for 10min. the cytcchrome radioactivity found in mitochondria was higher than in microsomes. After addition of unlabelled amino acid as `chase' there was 137% increase in radioactivity of cytochrome c but only a 3% increase in radioactivity of whole-cell protein. It is concluded that the peptide chain of cytochome c is synthesized on cytoplasmic ribosomes. Mitochondria therefore do not have the character of self-replicating entities, but are formed by the cooperative function of messenger RNA of cytoplasmic ribosomes and, possibly, of intramitochondrial messenger derived from the mitochondrial DNA.     

Preferential secretion of R-type alpha-amylase molecules in rice seed scutellum at high temperatures

Exposure of fresh scutella excised from 4-day-old rice seedlings to higher temperatures, (40-42°C), drastically reduced the biosynthesis of α-amylase as determined by the incorporation of [³⁵S]methionine into the immunoprecipitable product. However, the intracellular transport and extracellular secretion of the enzyme molecules were enhanced at high temperatures, indicating that the biosynthesis and secretion of α-amylase are distinguishable in their temperature dependency. At the higher temperature regime (40°C), the complex-type α-amylase isoform, resistant to hydrolytic digestion by endo-β-N-acetylglucosaminidase H (Endo-β-H) was predominantly secreted, whereas at lower temperatures (15°C), the isoform susceptible to Endo-β-H attack was the major molecular form secreted.     

Effect of temperature on starch synthesis in potato tuber tissue and in amyloplasts

A sharp temperature optimum is observed at 21.5°C when the incorporation of [¹⁴C]sucrose into starch is measured with discs cut from developing tubers of potato (Solanum tuberosum L. cv Desirée). By contrast, increasing temperatures over the range 9 to 31°C only enhance release of ¹⁴C to respiratory CO₂ and incorporation of ¹⁴C into the ethanolsoluble fraction. By comparison, starch synthesis in discs from developing corms of cocoyam (Colocasia esculenta L. Schott) is increased by raising the temperature from 15 to 35°C. The significance of a relatively low temperature optimum for starch synthesis in potato is discussed in relation to the yield limitations imposed by continuously high soil temperatures. Amyloplasts isolated from protoplasts prepared from developing potato tubers contain activities of alkaline pyrophosphatase, NAD-dependent glyceraldehyde-3-phosphate dehydrogenase, fructose-1,6-bisphosphatase, and phosphoglucomutase in addition to ADP-glucose-pyrophosphorylase, starch phosphorylase and starch synthase. Cell-free amyloplasts released by thinly slicing developing potato tubers synthesize starch from [¹⁴C]triose-phosphate generated from [¹⁴C]fructose-1,6-bisphosphate in the reaction medium. This starch synthesis is inhibited by addition of 10 millimolar inorganic phosphate and requires amyloplast integrity, suggesting the operation of a triose-phosphate/inorganic phosphate exchange carrier at the amyloplast membrane. The temperature optimum at 21.5°C observed with tissue discs is not observed with amyloplasts.     

Inhibition of protein synthesis in Krebs 2 ascites cells and cell-free systems by phenylalanine and its effect on leucine and lysine in the amino acid pool

1. The inhibition of incorporation of ¹⁴C-labelled amino acids into protein of whole cells by phenylalanine has been reproduced in a cell-free system. In both cases only the l-isomer was inhibitory. 2. The effect of phenylalanine on incorporation of [¹⁴C]leucine and [¹⁴C]lysine into protein was different in both whole cells and cell-free systems. 3. In whole cells inhibition of incorporation of leucine at 2·5μg./ml. was very rapid, but when the concentration was increased to 100μg./ml. the inhibition was not apparent for about 1hr. The kinetics of inhibition of lysine was the same at both these concentrations and was similar to that found with leucine at 100μg./ml. 4. Neither a lower specific radioactivity of the two amino acids in the pool nor a decrease in their pool size could be consistently related with inhibition of protein synthesis. 5. In the cell-free system l-phenylalanine inhibited the incorporation of leucine but not of lysine. 6. Charging of transfer RNA by leucine was markedly decreased in the presence of phenylalanine, whereas charging of transfer RNA by lysine was not.     

Protein Synthesis in Bromegrass (Bromus inermis Leyss) Cultured Cells during the Induction of Frost Tolerance by Abscisic Acid or Low Temperature

Bromus inermis Leyss cell cultures treated with 75 micromolar abscisic acid (ABA) at both 23 and 3°C developed more freezing resistance than cells cultured at 3°C. Protein synthesis in cells induced to become freezing tolerant by ABA and low temperature was monitored by [¹⁴C]leucine incorporation. Protein synthesis continued at 3°C, but net cell growth was stopped. Most of the major proteins detected at 23°C were synthesized at 3°C. However, some proteins were synthesized only at low temperatures, whereas others were inhibited. ABA showed similar effects on protein synthesis at both 23 and 3°C. Comparative electrophoretic analysis of [¹⁴C]leucine labeled protein detected the synthesis of 19, 21 and 47 kilodalton proteins in less than 8 hours after exposure to exogenous ABA. Proteins in the 20 kilodalton range were also synthesized at 3°C. In addition, a 31 kilodalton protein band showed increased expression in freezing resistant ABA treated cultures after 36 hours growth at both 3 and 23°C. Quantitative analysis of [¹⁴C]leucine labeled polypeptides in two-dimensional gels confirmed the increased expression of the 31 kilodalton protein. Two-dimensional analysis also resolved a 72 kilodalton protein enriched in ABA treated cultures and identified three proteins (24.5, 47, and 48 kilodaltons) induced by low temperature growth.     

Regulation of polyribosome formation and protein synthesis in the uterus. Effect of ovariectomy and administration of oestradiol-17beta on the amino acid-incorporation activity in vitro and the cytoplasmic concentration in vivo of polyribosomal preparation

1. Three procedures for isolating ribonucleoprotein particles from the cytoplasmic fraction of rat-uterus homogenates are described. By procedure 1, ribonucleoprotein particles were isolated in the presence of 5mm-Mg²⁺ and 25mm-K⁺, and the postmitochondrial supernatant fraction was made to 1·3% (w/v) in potassium deoxycholate. About 50% of the RNA and protein of the microsomal fraction was recovered in the monomeric ribosomes isolated. By procedure 2, ribonucleoprotein particles were isolated in the presence of 10mm-Mg²⁺ and 0·1m-K⁺, and in the absence of detergent. The ribosomes obtained were primarily polymeric, but recovery of microsomal RNA and protein was only 32%. By procedure 3, ribonucleoprotein particles were isolated according to procedure 1 but without the use of detergent. A mixture of polymeric and monomeric ribosomes was obtained, and the recovery of microsomal RNA and protein was about 60%. 2. Uterine polymeric and monomeric ribosomes, isolated by procedure 3 and designated `polyribosomal preparation', were examined for protein-synthesizing capabilities. The principal properties of the cell-free protein-synthesizing system containing the polyribosomal preparation are described. The efficiency of amino acid incorporation in the complete system incubated for 30min. and containing the polyribosomal preparation was found to be either 2·5 molecules of [¹⁴C]leucine or 2·2 molecules of [¹⁴C]-valine incorporated/ribosome. Assay of the preparation in the complete cell-free system containing 10mm-sodium fluoride indicated that 40% of the incorporation activity is a result of initiation of new polypeptide chains and 60% is due to completion of previously existing chains. Monomeric ribosomes obtained by various treatments of the polyribosomal preparation with sodium fluoride, ribonuclease and potassium deoxycholate had decreased incorporation activity in the cell-free system. However, monomeric ribosomes obtained by treatment with sodium fluoride only had an incorporation activity 50% greater than that of monomers obtained by treatment with ribonuclease only. 3. The results indicate that uterine polymeric and monomeric ribosomes are sites of amino acid incorporation in vivo and in vitro. It is concluded that most polymeric and monomeric ribosomes occurring in the cytoplasmic fraction of the uterus are free and unattached to membranes, and that the polyribosomes are relatively unstable.     

In vitro studies of cerebral cortical RNA and nucleotide metabolism in hypothyroidism.

—Thyroid hormone deficiency induced during the neonatal period in the rat, resulted in an enhanced incorporation of [2-¹⁴C]uridine and [8-¹⁴C]adenosine in vitro into cerebral cortical RNA at 25 days of age. An examination of the acid-soluble pool constituents separated by polyethyleneiminecellulose TLC, revealed that all phosphorylated derivatives were more highly labelled compared to controls. These differences were not apparent at a lower incubation temperature (4°C). When the average specific activity of precursor pool ATP labelled from adenosine was utilized for the calculation of the rate of RNA synthesis, no change was observed in hypothyroidism. The results are compatible with a maturational-dependent increase in nucleoside transport and rate of phosphorylation in hypothyroidism which is reflected in the stimulated incorporation into cerebral RNA. The apparent normal rate of RNA synthesis coupled with a diminished cellular RNA concentration in thyroid hormone deficiency, suggests an increased RNA turnover. Experiments with actinomycin D revealed no apparent difference in the rate of decay of rapidly-labelled (nuclear) RNA. The possibility is discussed that the processing of nuclear RNA, the formation of stable ribosomal complexes and events at the translational level are subject to modification in developing hypothyroid rats.     

Studies on lipogenesis in vivo: Comparison of cholesterol and fatty acid synthesis in rats and mice

1. The importance of fatty acid synthesis as a pathway for the disposal of ingested glucose has been evaluated in rats and mice given a purified diet high in glucose and low in fat. [U-¹⁴C]Glucose was either added to the diet and fed for 24hr. or given by stomach tube as a 250mg. (mice) or 1000mg. (rats) meal. The two methods of isotope administration gave similar results. 2. Under the conditions employed fatty acid synthesis appeared to be a more important pathway for glucose disposal in mice than in rats. In mice 15·3% of ingested [U-¹⁴C]glucose was converted into fatty acid and in rats the corresponding value was 8·6%. In contrast, the conversion of [U-¹⁴C]glucose into cholesterol, as a percentage of dose, was twice as high in rats as in mice. 3. The effect of 20% of corn oil in the diet on the conversion of dietary [U-¹⁴C]glucose into fat was also investigated. Mice given diets containing 1% or 20% of corn oil converted 14·6% or 7·0% respectively of dietary [U-¹⁴C]glucose into fatty acid over a 24hr. period. There was no effect of fat on the incorporation of the isotope into cholesterol. 4. In mice given diets containing 1% or 20% of corn oil approx. 10% and 2% respectively of newly synthesized fatty acids were found in the liver. Hepatic fatty acid synthesis appears to be more sensitive to dietary fat than is extrahepatic synthesis.     

Compartmentation of uridine 5′-triphosphate occurs during synthesis of cytoplasmic and mitochondrial ribosomal RNAs of cultured tomato cells but not during synthesis of cytoplasmic ribosomal and transfer RNAs

Compartmentation of uridine 5-triphosphate (UTP) was studied during the nucleolar synthesis of cytoplasmic ribosomal RNA (cyt-rRNA) and the synthesis of cytoplasmic transfer RNA (cyt-tRNA) in the nuclear matrix as well as the synthesis of mitochondrial ribosomal RNA (mt-rRNA) in tomato (Lycopersicon esculentum Mill. cv. Lukullus) cell-suspension culture using the approach of Wiegers et al. (Eur. J. Biochem. 64, 535–540, 1976). Before measurements were made, it was ensured that: (i) there was steady-state labeling of all RNAs studied as well as UTP; (ii) there was stability of cyt-tRNA and cyt-rRNA; (iii) there was no label randomization through degradation of [³H]uridine; (iv) there were significant differences in the specific radioactivity of UTP, the final immediate precursor of RNA, after supplying the cells with two different exogenous [³H]uridine concentrations.By comparing the steady-state specific radioactivity of UTP with that of cyt-tRNA and cyt-18S rRNA during constant [³H]uridine supply, we found that the three molecules had equal specific radioactivities which, however, differed significantly from that of the mt-rRNA. With a 20-fold higher uridine concentration, i.e. a 20-fold lower specific radioactivity of exogenous [³H]uridine, the specific radioactivity of cyt-rRNA, cyt-tRNA and UTP decreased proportionally whereas that of mt-RNA increased. These results argue against different UTP pools during synthesis of cyt-rRNA and cyt-tRNA, but indicate compartmentation of UTP during rRNA synthesis in the nucleus and the mitochondria of tomato cells.Abbreviations CMP cytidine 5-monophosphate - cyt-rRNA cytoplasmic ribosomal RNA - cyt-tRNA cytoplasmic transfer RNA - mt-rRNA mitochondrial rRNA - NC nitrocellulose - PAGE polyacrylamide gel electrophoresis - TLC thin-layer chromatography - Tris 2-amino-2-(hydroxymethyl)-1,3-propanediol - UDP uridine 5-diphosphate - UMP uridine 5-monophosphate - UTP uridine 5-triphosphate     

PERSISTENCE OF ALTERED RNA SYNTHESIS IN RAT CEREBRAL CORTEX 12h AFTER A SINGLE ELECTROCONVULSIVE SHOCK

The effect of electroshock (ECS) on RNA synthesis in nuclei and cytoplasm of rat cerebral cortex was examined using a double label technique by intraventricular injection of [³H] and [¹⁴C]orotate. At t h after ECS, the incorporation into nuclear RNA was 80% of the control rate and the appearance of newly synthesized RNA in the cytoplasm was only 27.6%. Analysis on composite polyacrylamide-agarose gels of purified RNA showed that the ³H/¹⁴C ratio of each gel slice slowly increased with decreasing M.W. of the RNA. This has been interpreted as an inhibition in the rate of processing of nuclear RNA. When the nuclear RNA was subjected to denaturation with 50% dimethyl sulphoxide (DMSO) this effect was enhanced. In a similar experiment, rats were injected, treated to ECS and killed 12 h later. The overall incorporation into nuclear and cytoplasmic RNA was increased to 174%, and 137.5% respectively. Analysis on gels showed very little variation in the ³H/¹⁴C ratio of the steady state levels of nuclear RNA. They compared well with a control experiment where rats were injected with [³H] and [¹⁴C]orotate as described above but no ECS was applied to the [¹⁴C] labelled animals. However a 1 h pulse label given 11 h after ECS treatment revealed that the rate of incorporation into nuclear RNA still showed a decrease of 81% of the control. The nuclear RYA fractionated on gels clearly showed that the inhibition of the processing rate of nuclear RNA was still occurring. This effect was again magnified on denaturation of the RNA with DMSO. This suggests that ECS may disturb RNA metabolism in nervous tissue for much longer periods than previously realised.     

Effect of insulin at dilution endpoint concentrations on macromolecular synthesis in normal mouse mammary and human breast cancer epithelial cells

Employing defined media conditions, the insulin sensitivities of mouse mammary gland epithelial cells in primary culture and MCF-7 human mammary epithelial cells were determined. Insulin stimulated the rates of [³H]uridine incorporation into RNA and [³H]leucine incorporation into protein in both primary mouse mammary gland epithelial cell cultures and MCF-7 cell cultures at concentrations approximating the dilution endpoint of the hormone (10⁻²¹ M). Insulin stimulated the rate of [³H]thymidine incorporation into DNA in primary mouse mammary gland epithelial cells at the dilution endpoint concentrations. However, MCF-7 cells required insulin concentrations 100–1000-times that necessary in mouse mammary epithelial cultures to elicit an increased rate of [³H]thymidine incorporation into DNA. Evidence is presented which suggests that the increased rates of uptake of [³H]uridine, [³H]thymidine and [³H]leucine into their respective precursor pools is not responsible for the apparent stimulatation of RNA, DNA and protein synthesis.     

Microcyst germination in the cellular slime mold, Polysphondylium pallidum: Effects of actinomycin D and cycloheximide on macromolecular synthesis and enzyme accumulation

Germination of microcysts of Polysphondylium pallidum is characterized by an immediate rapid increase in incorporation of [³H]leucine into protein which is cycloheximide-sensitive but unaffected by actinomycin D. Significant RNA synthesis, as measured by [³H]uridine incorporation, does not begin until approx. 2 h after the onset of germination. The increase in [³H]uridine incorporation is prevented by actinomycin D. Germination and the increase in alkaline phosphatase and β-glucosidase enzyme activities are prevented by cycloheximide but unaffected by actinomycin D. The data strongly imply the presence of stable RNA in dormant microcysts and indicate a requirement for a discrete period of protein synthesis for germination of microcysts of P. pallidum.     

Mitochondrial DNA,RNA, and protein synthesis in different regions of developing rat brain

In vivo and in vitro (tissue slices) incorporation of labeled precursors into DNA, RNA, and proteins was measured in mitochondria obtained from cerebral hemispheres, cerebellum, and brain stem of rats at different days of postnatal development. To compare the synthesis of macromolecules in mitochondria with that in other subcellular fractions, the incorporation of labeled precursors into DNA, RNA, and proteins extracted from nuclei and into RNA and proteins extracted from microsomes and cytoplasmic soluble fractions was also measured.The results obtained showed that the incorporation of [³H]thymidine into DNA and of [¹⁴C]leucine into proteins of nuclei and mitochondria from the various brain regions examined decreased during postnatal development, however, at 30 days of age the specific radioactivity of mitochondrial DNA was higher than that of nuclear DNA. [³H]Uridine incorporation into RNA decreased from 10 to 30 days of age in nuclei while in mitochondria it was quite similar at both ages. This result may be due to a faster turnover of mitochondrial RNA compared to that of mitochondrial DNA and proteins. The results obtained suggest an active biosynthesis of macromolecules in brain mitochondria and might indicate an intense biogenesis of these organelles in rat brain during postnatal development.Preliminary reports of these results were presented at the XI FEBS Meeting, Copenhagen, August 14–19, 1977, Poster number A2-2-155-3, and at III Meeting of Italian Biochem. Soc., Siena, October 3–5, 1977, Abstract C6.     

Synthesis, transport and localization of a nuclear coded 22-kd heat-shock protein in the chloroplast membranes of peas and Chlamydomonas reinhardi

The synthesis, transport and localization of a nuclear coded 22-kd heat-shock protein (HSP) in the chloroplast membranes was studied in pea plants and Chlamydomonas reinhardi. HSPs were detected in both systems by in vivo labeling and in vitro translation of poly(A)⁺RNA, using the wheat-germ and reticulocyte lysate systems. Heat-shock treatment of pea plants for 2 h at 42-45°C induces the expression of ˜10 nuclear coded proteins, among which several (18 kd, 19 kd, 22 kd) are predominant. A 22-kd protein is synthesized as a 26-kd precursor protein and is localized in a chloroplast membrane fraction in vivo. Following post-translational transport into intact chloroplasts in vitro of the 26-kd precursor, the protein is processed but the resulting 22-kd mature protein is localized in the chloroplast stroma. If, however, the in vitro transport is carried out with chloroplasts from heat-shocked plants, the 22-kd protein is preferentially transported to the chloroplast membrane fraction. In C. reinhardi the synthesis of poly(A)⁺RNAs coding for several HSPs is progressively and sequentially induced when raising the temperature for 1.5 h from 36°C to 42°C, while that of several preexisting RNAs is reduced. Various pre-existing poly(A)⁺RNAs endure in the cells at 42°C up to 5 h but are no longer translated in vivo, whereas some poly(A)⁻RNAs persist and are translated. As in pea, a poly(A)⁺RNA coded 22-kd HSP is localized in the chloroplast membranes in vivo, although it is translated as a 22-kd protein in vitro. The in vitro translated protein is not transported in isolated pea chloroplast which, however, processes and transports other nuclear coded chloroplast proteins of Chlamydomonas. The poly(A)⁺RNA coding for the 22-kd HSP appears after 1 h at 36°C. Its synthesis increases with the temperature of incubation up to 42°C, although it decreases after ˜2 h of heat treatment and the already synthesized RNA is rapidly degraded. The degradation is faster upon return of the cells to 26°C. None of the heat-induced proteins is identical to the light-inducible proteins of the chloroplast membranes.