Developmental expression of prion protein gene in brain

Synthesis of the cellular isoform of the prion protein (PrPC) was found to be regulated during development of the hamster brain. PrP poly A(+) RNA was readily detectable 10 days postpartum; after 20 days of age, no change in its level could be detected through 13 months of age. Low levels of PrP poly A(+) RNA were detectable 1 day after birth. By contrast, myelin basic protein poly A(+) RNA was found at high levels in brain at 30 days of age and thereafter declined steadily. Using monospecific PrP antisera, immunoprecipitable cell-free translation products were detected at low levels 2 days after birth and increased progressively through 10 days of age. How the levels of PrP mRNA participate in brain development and function remains to be established.     

Developmental regulation of myelin basic protein expression in mouse brain

Developmental regulation of myelin basic protein expression in mouse brain has been examined by comparing the myelin basic protein coding potential of mRNA in vitro with the accumulation of myelin basic protein-related polypeptides in vivo. In vitro translation of mRNA isolated from mouse brain generated eight myelin basic protein-related polypeptides with apparent molecular weights of 34K, 30K, 29K, 26K, 21.5K, 18.5K, 17K, and 14K. A similar set of eight myelin basic protein-related polypeptides with corresponding molecular weights was identified in vivo when total brain proteins were analyzed by immunoblotting. Each of the myelin basic protein-related polypeptides shows a characteristic developmental profile in terms of mRNA level and rate of accumulation implying a complex developmental program of myelin basic protein gene expression with regulation and modulation at several different biosynthetic levels.     

七星瓢虫卵黄原蛋白基因的表达:保幼激素类似物对mRNA的诱导

在七星瓢虫(Coccinella septempunctata)中,保幼激素调控脂肪体中卵黄原蛋白基因的表达。蛋白质合成实验证明,保幼激素类似物大幅度地促进取食人工饲料的雌虫脂肪体中卵黄原蛋白的合成。保幼激素类似物的作用有高度选择性,使卵黄原蛋白占总蛋白的百分比提高12倍。取食人工饲料的雌虫中,脂肪体RNA含量及其转译活性均极低,转译产物中不存在卵黄原蛋白多肽。保幼激素类似物能显著提高脂肪体RNA的含量及其中可转译mRNA的水平。处理后的雌虫,象蚜虫饲养的成熟雌虫一样,其脂肪体RNA能在体外转译系统中指导卵黄原蛋白多肽的合成,并在变性琼脂糖凝胶电泳上显示一条高分子量的带(约5100核苷酸),初步鉴定为卵黄原蛋白mRNA。由此证明,保幼激素类似物能诱导卵黄原蛋白mRNA的出现和积累。     

Abnormal Expression of the Myelin-Associated Glycoprotein in the Central Nervous System of Dysmyelinating Mutant Mice

Total cytoplasmic brain RNA was isolated at two different ages from three neurological mutant mice (qk/qk, jp/Y, and shi/shi) and their apparently normal littermates. This RNA was translated in vitro in a rabbit reticulocyte lysate system. Myelin-associated glycoprotein (MAG)-related polypeptides were immunoprecipitated from equal amounts of total translation products derived from mRNA of mutant animals, normal littermates, or control animals. The developmentally regulated synthesis of MAG polypeptides was compared among the mutants and normal animals. mRNA from qk/qk brains synthesized an overabundance of p67MAG (five- to sevenfold) which may be compensation for a decreased synthesis of p72MAG. mRNA from jp/Y brains synthesized less than 10% of normal amounts of both MAG polypeptides. The quantity of MAG synthesized by 15-day shi/shi brain mRNA was slightly decreased compared with normal brain mRNA but the quantity of MAG synthesized by adult shi/shi brain mRNA was normal. No apparent differences were detected in the sizes of the MAG polypeptides synthesized by any of the mutants studied. The data suggest that the genetic defect in qk/qk mutants directly or indirectly affects the coordinated developmental regulation of MAG polypeptide synthesis leading to an overabundance of the MAG polypeptide that is normally found in older animals. The jp/Y mutation appears to affect general myelin protein synthesis. Finally, shi/shi mutants may have a delayed synthesis of MAG. The data are discussed in the light of recent observations concerning the synthesis of myelin proteins and their proposed role in myelin assembly.     

The Effect of the Shiverer Mutation on Myelin Basic Protein Expression in Homozygous and Heterozygous Mouse Brain

We report (a) that the shiverer mutation has pleiotropic phenotypic effects on myelin basic protein expression in the CNS of homozygous (shi/shi) mice and (b) that each of the effects of the shiverer allele is expressed co-dominantly with the wild-type allele in heterozygous (+/shi) animals. First, the total amount of myelin basic protein, as determined by radioimmunoassay, that accumulates in the CNS is approximately 0.1% of the wild-type amount in shi/shi animals and approximately 50% in +/shi animals. Second, the four major forms of myelin basic protein, with molecular weights of 21,500, 18,500, 17,000, and 14,000, that are present in wild-type mouse CNS are undetectable in either whole brain or purified myelin of shi/shi animals, and each of the four proteins is reduced commensurately in brain and myelin of +/shi animals. Third, the small amount of myelin basic protein-related material that does accumulate in the shi/shi brain consists of several polypeptides, with molecular weights ranging from 25,000 to 100,000, the pattern of which is different from that found in wild-type brain. The pattern of myelin basic protein-related polypeptides in +/shi brain is a composite of the wild type and the shiverer mutant. Fourth, messenger RNA from shi/shi brain, when translated in vitro, encodes a set of myelin basic protein-related polypeptides qualitatively similar to that encoded by wild-type messenger RNA, except that the 18,500 and 14,000 translation products are greatly reduced, while other myelin basic protein-related translation products are spared. The pattern of myelin basic protein-related translation products for +/shi messenger RNA is intermediate between the patterns for +/+ and shi/shi messenger RNAs. The results suggest that the genetic lesion in the shiverer mutation impinges on the structural gene (or genes) encoding myelin basic protein or on a cis-acting regulatory element controlling that gene (or genes).     

Effect of estrogen on ovalbumin gene expression in differentiated nontarget tissues

By use of cloned DNA fragments as probes, low levels of ovalbumin RNA sequences (structural and intervening sequences) were detected in nuclear RNA extracts of nontarget tissues, such as liver, spleen, brain, and heart of chicks. The expression of the ovalbumin gene sequences was hormone dependent. In estrogen-stimulated chicks, a low level of ovalbumin RNA sequences, ranging from 0.2 to 0.7 molecule per cell, was present in nontarget tissues while less than 0.01 molecule per cell could be found in the same tissues of unstimulated chicks. A significant amount of the ovalbumin mRNA sequences was also found in polysomes of liver and brain. The ovalbumin mRNA sequences could be translated into proteins which were only localized in a few cells among the entire population of liver cells as determined by an immunocytochemical assay. These results suggest that there are some cells in liver, spleen, heart, and brain which can respond to hormone stimulation and produce ovalbumin mRNA and its translational product.     

In Vitro Synthesis of Polypeptides of Moderately Large Size by Poly(A)-Containing Messenger RNA from Postmortem Human Brain and Mouse Brain

Studies were undertaken to optimize the conditions for isolation and in vitro translation of poly(A)-containing mRNA from human postmortem brain. The comparison of several methods for preparation of mRNA from frozen mouse brain indicated that although the yield of mRNA was increased using polysomes prepared in the presence of ribonucleoside vanadyl complexes and subsequently extracted with guanidinium thiocyanate, the translation products were indistinguishable from those synthesized by total cellular RNA directly extracted from tissue with guanidinium thiocyanate. The oligo d(T)-cellulose-purified poly(A)-containing mRNA preparations were translated in vitro in a rabbit reticulocyte lysate in the presence of L-[35S]methionine. Messenger RNA from frozen mouse brain stimulated protein synthesis from 9- to 20-fold over endogenous mRNA. Over 450 polypeptides were reproducibly synthesized and separated by two-dimensional polyacrylamide gel electrophoresis (PAGE); size classes up to 130,000 daltons were present. Direct extraction of RNA from frozen human cerebral cortex and cerebellum with guanidinium thiocyanate followed by oligo d(T)-cellulose chromatography yielded 1.8 micrograms/g and 2.0 micrograms/g, respectively, of poly(A)-containing mRNA; this represents a two- to fourfold increase over our earlier results. In the rabbit reticulocyte translation system human brain mRNA stimulated protein synthesis nearly threefold over endogenous mRNA. Compared with earlier studies, the number of newly synthesized polypeptides was increased by 30%. Over 300 species were separated by two-dimensional PAGE, and size classes up to 130,000 daltons were present, as compared to 70,000 in an earlier report. The polypeptides synthesized by human cerebral cortex and cerebellum were indistinguishable. However, several appeared to be uniquely human when compared with the products synthesized by mouse brain mRNA. The method described for the preparation of postmortem human brain mRNA eliminates the need to prepare polysomes, which are recovered in variable and low yield from the postmortem human brain. The procedure appears applicable to studies on the synthesis of moderately large human brain polypeptides and for investigations of brain protein polymorphism when relatively large numbers of products are required for analysis.     

Prior interaction of ATP with yeast mRNAs enhances protein synthesis at the initiation step

ATP hydrolysis is important for different stages of the protein synthesis process. A novel effect of this nucleotide was detected using mRNAs isolated from S. cerevisiae after phenol extraction of polysomes. When polysomal mRNA (pmRNA) or poly(A)(+) RNA were preincubated with ATP (approximately 3 mM, near physiological concentration), their translational activity in a cell-free system from yeast was stimulated 2-3 fold. This increased translational activity is specific for the poly(A)(+) RNA fraction, correlates with facilitated assembly of 80S initiation complexes, and is associated to increased synthesis of high molecular weight polypeptides. TCA precipitation assays of RNA incubated with [(14)C]ATP suggested an association of the nucleotide with the nucleic acid. The amount of [(14)C]ATP co-precipitated was dependent on magnesium (optimum at 5-6 mM), was partially inhibited by monovalent ions, and was maximal with poli(A)(+) RNA. Existence of RNA-associated kinases or ATPases appear unlikely since neither phosphorylation nor nucleotide hydrolysis were observed during preincubation of pmRNA with ATP. Another evidence of ATP-RNA interaction was an increased absorbance at 260 nm after incubation suggesting unwinding of the RNA secondary structure. Therefore, preincubation with ATP may affect the conformation of mRNAs and thereby facilitate the initiation of protein synthesis. This event could be part of an in vivo energy-dependent mechanism for translational control.     

The polyadenylated RNA directing the synthesis of the rat myelin basic proteins is present in both free and membrane-bound forebrain polyribosomes.

Free and membrane-bound polyribosomes were isolated from the forebrain of actively myelinating 24-day-old rats. The poly(A)+ RNA (polyadenylated RNA) extracted from both fractions was translated in vitro in reticulocyte lysates [Hall & Lim (1981) Biochem. J. 196. 327-336] in the presence or absence of a heterologous microsomal membrane fraction from dog pancreas. The rat myelin basic proteins synthesized in vitro were isolated by CM-cellulose chromatography and by immunoprecipitation with purified anti-(myelin basic protein) antibody. The large (mol.wt. 18 500) and small (mol.wt. 16 000) myelin basic proteins were translational products of poly(A)+ RNA from both free and membrane-bound polyribosomes. The identity of the myelin basic proteins was verified by analysis of peptides generated by the cathepsin D digestion of the immunoprecipitated proteins synthesized in vitro, in comparison with authentic rat myelin basic proteins. Although several other translational products of membrane-bound polyribosomal poly(A)+ RNA were modified when microsomal membranes were present during translation, molecular weights of the myelin basic proteins themselves were unchanged. The myelin basic proteins synthesized in vitro also did not differ significantly in size from the authentic myelin basic proteins, indicating that these membrane proteins are unlikely to be synthesized as substantially larger precursor molecules. The presence of the specific mRNA species on both free and membrane-bound polyribosomes is compatible with the extrinsic location of the myelin basic proteins on the cytoplasmic surface of the myelin membrane.     

The Preparation of Biologically Active Messenger RNA from Human Postmortem Brain Tissue

Abstract: Messenger RNA (mRNA) was extracted from human postmortem brain tissue by alkaline phenol extraction of polysomes followed by oligo (dT)-cellulose chromatography. The mRNA preparations stimulated protein synthesis in a cell-free system containing wheat germ homogenate. The products of protein synthesis were analyzed by one- and two-dimensional gel electrophoresis. These analyses indicated that numerous polypeptides, including tubulin subunits and actin isomers, were synthesized by the human mRNA. The molecular weight range of polypeptides synthesized by human mRNA fractions from two brain specimens were identical, and analysis by two-dimensional gel electrophoresis indicated qualitatively similar products. The yield of mRNA extracted per gram of human tissue was less than the yield obtained with rat forebrains from animals sacrificed immediately before brain removal and mRNA purification. A decrease in the amount of polysomes isolated from human tissue relative to rat brain tissue was a major factor contributing to the low yield. The molecular weight distribution of polypeptides synthesized by human and rat brain mRNA fractions in wheat germ homogenate was similar; thus, there was no indication for selective breakdown or inactivation of high molecular weight mRNA species in the human tissue. Our studies indicate that it is possible to utilize postmortem tissue for molecular biological investigations of human brain mRNA.     

Characterization and in vitro translation of polyadenylated messenger ribonucleic acid from Neurospora crassa.

Ribonucleic acid (RNA) extracted from Neurospora crassa has been fractionated by oligodeoxythymidylic acid [oligo(dT)]-cellulose chromatography into polyadenylated messenger RNA [poly(A) mRNA] and unbound RNA. The poly(A) mRNA, which comprises approximately 1.7% of the total cellular RNA, was further characterized by Sepharose 4B chromatography and polyacrylamide gel electrophoresis. Both techniques showed that the poly(A) mRNA was heterodisperse in size, with an average molecular weight similar to that of 17S ribosomal RNA (rRNA). The poly(A) segments isolated from the poly(A) mRNA were relatively short, with three major size classes of 30, 55, and 70 nucleotides. Gel electrophoresis of the non-poly(A) RNA indicated that it contained primarily rRNA and 4S RNA. The optimal conditions were determined for the translation of Neurospora mRNA in a cell-free wheat germ protein-synthesizing system. Poly(A) mRNA stimulated the incorporation of [14C]leucine into polypeptides ranging in size from 10,000 to 100,000 daltons. The RNA that did not bind to oligo(dT)-cellulose also stimulated the incorporation of [14C]leucine, indicating that this fraction contains a significant concentration of mRNA which has either no poly(A) or very short poly(A) segments. In addition, the translation of both poly(A) mRNA and unbound mRNA was inhibited by 7-methylguanosine-5'-monophosphate (m7G5'p). This is preliminary evidence for the existence of a 5'-RNA "cap" on Neurospora mRNA.     

Stability of Polysome-Associated mRNA in Potato Tuber Cells during Aging of Tissue Discs

The stability of polysome-associated mRNA in potato tuber discsin the early stage of aging was examined by pulse-chase labelingexperiments and the change in the translational capacity ofthe RNA was studied using a wheat germ translation system. Theincorporation of pulse-fed ³H-uridine into polysomal RNA wasnot arrested immediately after the addition of actinomycin Dto the tissue, but increased by 25% during 4 hr of chasing.The radioactivity in the polysomal RNA then decreased by only30% of the value at the 4th hr during the next 9 hr in the presenceof actinomycin D. The remaining radioactivity in the polysomalRNA was stable at least for 18 hr. The proportion of radioactivityin polyadenylated RNA to that in non-polyadenylated RNA didnot vary appreciably during the chasing period. Non-polyadenylatedRNA of high molecular weight degraded faster than that of lowmolecular weight, but polyadenylated RNA did not show such size-selectivedegradation. The translational capacity of the polysomal RNAalso decreased by about 23% within 9 hr during the period ofinhibited RNA synthesis. In vivo experiments of ¹⁴C-leucineincorporation into proteins in the absence of RNA synthesissuggested that stable polysome-associated mRNA was actuallyfunctioning in the cells. SDS-polyacrylamide gel electrophoresisof the in vitro translation products indicated that mRNA codingfor polypeptides with relatively high molecular weights turnedover slightly faster than those for low molecular weight polypeptides. ¹Present address: Department of Agricultural Chemistry, Facultyof Horticulture, Chiba University, Matsudo 271, Japan. (Received May 12, 1982; Accepted August 26, 1982)     

Enhanced differential synthesis of proteins in a mammalian cell-free system by addition of polyamines.

Addition of the polyamines spermidine, spermine, or putrescine to a fractionated mammalian cell-free protein-synthesis system programmed by a variety of mRNAs results in a 3- to 5-fold stimulation of amino acid incorporation over that found in the absence of added polyamine. The mRNAs used as template were adenovirus mRNA, globin 9s mRNA, and RNA from the bacteriophages R17, Qbeta, and MS2. The relative amounts of 10 adenovirus polypeptides synthesized in vitro are altered by the addition of polyamines to the translation system to reflect more closely the relative amounts of these polypeptides synthesized in vivo. This qualititive improvement in translation products on addition of polyamines allow the analysis of a number of products which are at best only marginally synthesized in the absence of added polyamines. The low level of synthesis due to endogenous mRNA is stimulated by spermidine and spermine but a lesser extent by putrescine.     

Rapid increase in poly(A) (+) mRNA content following inhibition of protein synthesis

When resting 3T6 cells undergo a serum-induced transition to the growing state, the cytoplasmic content of ribosomal, transfer and messenger RNA increase as the cells prepare for DNA synthesis. The normal linear increase in mRNA content occurs even when the production of ribosomes is blocked. In this paper we determine the effect of inhibiting protein synthesis on the increase in poly(A) (+) mRNA content. Resting cells were serum stimulated in the presence of cycloheximide or puromycin at levels which inhibit protein synthesis by greater than 95%. Cytoplasmic poly(A) (+) mRNA content was determined at various times thereafter. We found that mRNA content increased five to ten times more rapidly in drug treated cells than in control cells stimulated in the absence of inhibitors. mRNA content increased 50–70% by one hour, and 60–90% by two hours following stimulation in the presence of inhibitor, and remained more or less constant thereafter. In contrast, mRNA content increased linearly in control stimulated cultures and did not double until about 15 hours after stimulation. The rapid increase in mRNA content is most likely the result of inhibition of protein synthesis rather than a secondary effect of the drug since the same observations were made in growth stimulated cells if protein synthesis was blocked with either puromycin or cycloheximide. A similar effect was also observed with resting 3T6, exponentially growing 3T6 and growing HeLa cells following exposure to cycloheximide, although the magnitude of the increase was less than that observed with growth stimulated cells. Puromycin had negligible effect on mRNA content in resting or exponentially growing cells. The rapid increase in cytoplasmic poly(A) (+) mRNA content was not due to rapid unbalanced export of nuclear poly(A) (+) RNA into the cytoplasm since there was no decrease in nuclear poly(A) content following serum stimulation in the presence of cycloheximide.     

Characterization of myelin proteolipid mRNAs in normal and jimpy mice.

A clone specific for the rat myelin proteolipid protein (PLP) was isolated from a cDNA library made in pUC18 from 17-day-old rat brain stem mRNA. This clone corresponded to the carboxyl-terminal third of the PLP-coding region. The clone was used to identify PLP-specific mRNAs in mouse brain and to establish the time course of PLP mRNA expression during mouse brain development. Three PLP-specific mRNAs were seen, approximately 1,500, 2,400, and 3,200 bases in length, of which the largest was the most abundant. During brain development, the maximal period of PLP mRNA expression was from 14 to 25 days of age, and this was a similar time course to that for myelin basic protein mRNA expression. When the jimpy mouse, an X-linked dysmyelination mutant, was studied for PLP mRNA expression, low levels of PLP mRNA were seen which were approximately 5% of wild-type levels at 20 days of age. When jimpy brain RNA was analyzed by Northern blotting, the PLP-specific mRNA was shown to be 100 to 200 bases shorter than the wild-type PLP-specific mRNA. This size difference was seen in the two major PLP mRNAs, and it did not result from a loss of polyadenylation of these mRNAs.     

Cell-free synthesis of rat liver zinc-thioneins.

The induction of rat liver zinc-thioneins mRNA was studied in a wheat germ cell-free translation system. Liver poly A rich polysomal RNA was isolated from rats which had been injected with zinc sulfate 5 h previously. These RNA preparations stimulated the incorporation of [35S]cystine into trichloroacetic acid insoluble proteins when assayed in the cell-free synthetic system. The translation products were characterized by Sephadex G-75 chromatography in 8 M urea--50 mM beta-mercaptoethanol, by disc gel electrophoresis in 4 M area--Tris-glycine buffer (pH 9.2), and by peptide fingerprinting with pepsin. These results were identical with authentic rat liver zinc-thioneins. The zinc-thioneins mRNA activity in the control rats, however, was minimal. The stimulation in zinc-thioneins synthesis observed in the cell-free synthesis was similar to the increased synthesis of these polypeptides in vivo.