Developmentally regulated primary glucocorticoid hormone induction of chick retinal glutamine synthetase mRNA

We have characterized the glucocorticoid hormone induction of glutamine synthetase mRNA in embryonic chick retinal organ cultures by quantitative dot hybridization using a cDNA clone derived from chick retinal RNA. Hydrocortisone (Kapp = 3-4 nM) and dexamethasone (Kapp = 1-2 nM) produce an approximate 30-fold increase in glutamine synthetase mRNA after incubation of organ cultures derived from embryonic day 12 retinae with either hormone for 3 hr. Progesterone is a poor inducer. The glucocorticoid-mediated rise is rapid (t1/2 = 2-3 hr) and occurs in the presence of either of the protein synthesis inhibitors cycloheximide or puromycin, indicating that the induction is a primary or direct response to the hormone. However, the magnitude of the hormonal response observed in culture increases markedly during retinal development. These observations, coupled with the previously reported absence of a hormonal induction in embryonic liver, raise the possibility of a synergistic mechanism, involving tissue-specific regulatory molecules in addition to the glucocorticoid hormone receptor, to explain the retinal-specific primary glucocorticoid hormone induction of glutamine synthetase mRNA.     

Early events in the induction of glutamine synthetase activity by hydrocortisone in embryonic chick neural retina.

Primary cultures of 10-day embryonic chick neural retinas were used to investigate early aspects of the mechanism of hydrocortisone action on glutamine synthetase activity. As little as 2 hr of hydrocortisone exposure served to initiate significant increases in the glutamine synthetase activity levels assayed after 24 hr culture. Time course studies indicated that the increase in glutamine synthetase activity observed after 24 hr in culture resulted from a two-phase rise in activity and that cycloheximide was effective in suppressing the second-phase rise. Additional inhibition studies demonstrated that the second-phase increase in enzyme activity required continuous protein synthesis during the initial 6 hr. The evidence suggests a mechanism of hydrocortisone action involving the production of a protein which is important for the induction of glutamine synthetase activity by hydrocortisone.     

Early events in the induction of glutamine synthetase activity by hydrocortisone in embryonic chick neural retina

Summary Primary cultures of 10-day embryonic chick neural retinas were used to investigate early aspects of the mechanism of hydrocortisone action on glutamine synthetase activity. As little as 2 hr of hydrocortisone exposure served to initiate significant increases in the glutamine synthetase activity levels assayed after 24 hr culture. Time course studies indicated that the increase in glutamine synthetase activity observed after 24 hr in culture resulted from a two-phase rise in activity and that cycloheximide was effective in suppressing the second-phase rise. Additional inhibition studies demonstrated that the second-phase increase in enzyme activity required continuous protein synthesis during the initial 6 hr. The evidence suggests a mechanism of hydrocortisone action involving the production of a protein which is important for the induction of glutamine synthetase activity by hydrocortisone. This work was supported by a National Science Foundation (U.S.A.) Training Grant.     

Murine glutamine synthetase: Cloning, developmental regulation, and glucocorticoid inducibility

We have cloned the murine glutamine synthetase (GS) gene and measured GS enzyme activity and mRNA in five tissues (retina, brain, liver, kidney, and skeletal muscle) during perinatal development. Retinal GS enzyme activity increases 200-fold between Day 1 and Day 21 and is accompanied by an increase in the level of GS mRNA; developmental regulation in other tissues is much less dramatic. Based on Southern blotting analysis, a single GS gene gives rise to the tissue-specific patterns of GS mRNA expression. The increase in murine retinal GS observed during perinatal development is similar in magnitude to that observed in the chicken retina just prior to hatching. In the embryonic chicken retina, glucocorticoid hormones mediate a large increase in the level of GS mRNA. However, although glucocorticoids induce a 12-fold increase in GS mRNA in murine skeletal muscle, expression of the retinal enzyme and mRNA is only modestly glucocorticoid-inducible in the mouse. Therefore, despite the hormonal responsiveness of the murine GS gene, it is not likely that glucocorticoids are important physiological modulators of the developmental rise in murine retinal GS.     

Multiple mechanisms by which glutamine synthetase levels are controlled in murine tissue culture cells

We report the isolation of a complimentary DNA (cDNA) clone encoding glutamine synthetase, derived from a population of methionine sulfoxime-resistant mouse GF1 fibroblasts. When GF1 cells are incubated for 48 h in the presence of the glucocorticoid hormone dexamethasone, the specific activity of glutamine synthetase (GS), assayed as glutamyltransferase activity, increases by threefold. Based on dot hybridization analysis, hormonal treatment also produces a similar increase in the level of GS mRNA. When GF1 cells or mouse Neuro 2A neuroblastoma cells are transferred from medium containing 4 mM glutamine to glutamine-free medium, glutamyltransferase activity increases by at least fivefold. However, the presence or absence or glutamine in the medium does not affect the relative level of glutamine synthetase mRNA in either cell line. With both GF1 and Neuro 2A cells, the half-time for the decline in glutamine synthetase enzyme activity on addition of glutamine to the medium is approximately 1.5 h. This rapid decline, coupled with the lack of effect of glutamine on the level of GS messenger RNA in Neuro 2A cells, renders it unlikely that neural cells alter glutamine synthetase levels in response to glutamine by a biosynthetic mechanism, as suggested by previous authors [L. Lacoste, K.D. Chaudhary, and J. Lapointe (1982) J. Neurochem. 39, 78-85].     

Induction by Hydrocortisone of Glutamine Synthetase in Mouse Primary Astrocyte Cultures

Glutamine synthetase activity was investigated in developing primary astroglial cultures established from newborn mouse cerebral hemispheres. Between the 2nd and 4th week of culture there was little change in activity under our standard culturing conditions; however, when hydrocortisone (10 microM) was added to the cultures for 48 h, the enzyme activity increased two- to fourfold, depending upon the age of the culture, with maximum response in 2-week-old cultures. The addition of dibutyryl cyclic AMP (dBcAMP) to the culture medium caused morphological differentiation of the astroglial cells but eliminated the response of the cells to hydrocortisone. Culturing in elevated serum levels, which delays morphological differentiation and inhibits astroglial cytodifferentiation after exposure to dBcAMP, shifted the time of maximal response to hydrocortisone from 2 to 3 weeks and prevented the abolishment of glutamine synthetase induction by dBcAMP. The induction of glutamine synthetase by hydrocortisone was prevented by actinomycin D (0.5 microgram/ml), indicating its dependence upon RNA and protein synthesis. The present work thus confirms reports in the literature that hydrocortisone induces glutamine synthetase in neural tissues, but differs from the findings of Moscona and co-workers in the chick retina that intact tissues are required for the induction to occur.     

Suppression of the accumulation of steroid-inducible glutamine synthetase mRNA on embryonic chick retinal polysomes by interferon preparation.

The suppression mechanism of glutamine synthetase [EC 6.3.1.2] induction mediated by chick interferon preparation was investigated in embryonic chick neural retina cell cultures. A translational assay was used to measure the level of mRNA coding for the enzyme. RNA extracted from the retinal polysomes was chromatographed on oligo(dT)-cellulose and translated in a cell-free protein synthesizing system derived from wheat germ. The newly synthesized enzyme was isolated by immunoprecipitation with anti-enzyme gamma-globulin and identified using sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Neither polysomal profiles nor total protein synthesis directed by the RNA preparations was affected by interferon treatment. Comparing the amount of glutamine synthetase synthesized in vitro by equal amounts of mRNA fraction from retinas treated with or without interferon indicated that the suppression was associated with reduced level of the enzyme mRNA on polysomes.     

Induction of Glutamine Synthetase in Rat Astrocytes by Co-Cultivation with Embryonic Chick Neurons

Co-cultivation of confluent rat astrocyte cultures with embryonic chick neurons resulted in induction of glutamine synthetase activity in the astrocytes. This induction of glutamine synthetase in astrocytes by neurons was independent of induction by hydrocortisone and forskolin, but was dependent on the length of co-cultivation and the number of neurons present in the co-culture. Cycloheximide and actinomycin D inhibited the induction of glutamine synthetase in astrocytes by neurons, whereas cytosine arabinoside had no apparent effect. Results suggest that this induction of glutamine synthetase in astrocytes is mediated by cell contact with neurons and may represent a specific neuronal and glial interaction.     

Selection of a rat glutamine synthetase cDNA clone

We have selected a glutamine synthetase clone (pGSRK-1) from a rat kidney cDNA library. A partial restriction map has been constructed for the 1.65 kilobase pair (kbp) glutamine synthetase cDNA. Northern hybridization analysis indicates that 1) GS-specific RNA increases many-fold during adipocyte differentiation and 2) dexamethasone increases and insulin decreases GS-specific RNA in 3T3-L1 adipocytes.     

Effects of cytosine arabinoside on differential gene expression in embryonic neural retina. II. Immunochemical studies on the accumulation of glutamine synthetase

Cytosine arabinoside (Ara-C) elicits a significant increase in the level of the enzyme glutamine synthetase (GS) while it markedly reduces overall RNA and protein synthesis in cultures of embryonic chick neural retina. This increase was analyzed by radioimmunochemical procedures and compared with the induction of GS by hydrocortisone (HC). Accumulation of GS in Ara-C-treated retinas was found to be due to de novo synthesis of the enzyme; however, unlike the induction of GS by HC, Ara-C caused no measurable increase in the rate of GS synthesis. The results indicate that Ara-C facilitates GS accumulation largely by preventing degradation of the enzyme. Even though Ara-C inhibits the bulk of RNA synthesis in the retina, it does not stop the formation of GS-specific RNA templates. However, the progressive accumulation of these templates does not result in an increased rate of GS synthesis unless Ara-C is withdrawn from such cultures under suitable experimental conditions. Thus, it is suggested that the continuous presence of Ara-C imposes a reversible hindrance at the translational level which limits the rate of GS synthesis. The results demonstrate that the increase in retinal GS elicited by Ara-C is achieved through mechanisms which are quite different from those involved in the hydrocortisone-mediated induction of this enzyme.     

Interferon suppresses steroid-inducible glutamine synthetase biosynthesis in embryonic chick neural retina.

Effect of chick interferon on the biosynthesis of glutamine synthetase (L-glutamate: ammonia ligase (ADP-forming), EC 6.3.1.2) was studied in the embryonic chick neural retina cultures induced for the enzyme activity by hydrocortisone. The retinal enzyme radioactively labelled with [3H]leucine was precipitated by specific antibody against the enzyme isolated from adult chick liver. The immunological determination offered evidence that the suppressive effect of interferon on the hormonal induction of the enzyme was primarily due to reduced rate of its synthesis and accumulation.     

The isolation and characterization of a cDNA clone encoding Lupinus angustifolius root nodule glutamine synthetase

Glutamine synthetase, purified from Lupinus angustifolius legume nodules, was carboxymethylated and succinylated prior to chemical or enzymatic cleavage. Peptides were purified and sequenced. An oligonucleotide probe was constructed for the sequence MPGQW. This probe was used to identify a glutamine synthetase cDNA clone, pGS5, from a lupin nodule cDNA library constructed in pBR322. pGS5 was sequenced (1043 bp) and computer-assisted homology searching revealed a high degree of conservation between this lupin partial cDNA clone and other plant glutamine synthetases at both the amino acid (>90%) and nucleotide (>80%) level. Northern and Southern analyses using pGS5 supported the conclusion that a multigene glutamine synthetase family exists in lupin which is differentially expressed in both an organ-specific and temporal manner. Western and Northern blot analyses indicated the accumulation of a glutamine synthetase specific mRNA species during nodule development corresponded to the appearance of a novel glutamine synthetase polypeptide between 8 and 10 days after rhizobial inoculation.     

Heterogeneous expression of glutamine synthetase mRNA in rat liver parenchyma revealed by in situ hybridization and Northern blot analysis of RNA from periportal and perivenous hepatocytes

Using radiolabeled specific cDNA glutamine synthetase mRNA could be detected by in situ hybridization exclusively within those few perivenous hepatocytes which stained immunocytochemically for glutamine synthetase. This localization of glutamine synthetase mRNA was recently reported by Moorman et al. [(1988) J. Histochem. Cytochem. 36, 751-755]. Biotinylated cDNA was not suitable for mRNA detection because of a very high background staining under the conditions of in situ hybridization. Dot blot and Northern blot analysis of RNA isolated from periportal and perivenous subfractions of hepatocytes also demonstrated the exclusive perivenous localization of two hybridizable glutamine synthetase mRNAs of length 2.8 and 1.6 kilobases. These results indicate that the unique heterogeneity of glutamine synthetase in rat liver parenchyma is controlled at the pretranslational level.     

Does cyclic-3′,5′-AMP induce glutamine synthetase in embryonic neural retina?

The inducibility of retinal glutamine synthetase (GS) by dibutyryl cyclic-3′,5′-AMP (DB-cAMP) was re-examined in view of conflicting reports. Various lots of DB-cAMP were compared for a) ability to induce GS in cultures of embryonic chick neural retina, and b) their composition as visualized by paper chromatography. Chromatographically purified DB-cAMP did not induce retinal GS, nor did cAMP, DB-cGMP, epinephrine, or norepinephrine; none of these enhanced the induction of GS by hydrocortisone. Some of the agents occasionally caused small increases in GS activity; however, these were invariably below the GS levels induced consistently by hydrocortisone. A single lot of DB-cAMP was found which significantly raised GS activity in the retina; it contained a contaminant which when isolated was found to be responsible for this effect.     

脂肪酸合成酶基因片段克隆以及胰岛素诱导时该酶mRNA含量的变化

采用高效的由mRNA合成cDNA的方法,我们得到了含有3.7kb的脂肪酸合成酶基因片段的克隆pFAS_(203)。它具有限制内切酶PstⅠ、BamH Ⅰ、HineⅡ、PvuⅡ、Ava Ⅰ以及Pvu Ⅰ酶切位点,与已经得到的经杂交选择的mRNA离体翻译产物鉴定的cDNA克隆pFAS_(15)有部分重叠。对饥饿的糖尿病大鼠注射胰岛素并饲以无脂食物,肝中FAS mRNA以及其前体RNA含量增加,当注射后再饲无脂食物达12小对,肝中FASmRNA及其前体RNA约为糖尿病鼠的30倍。Poly(A)~+ RNA的Northern分析表明诱导期间FASmRNA含量增加而其分子大小不变。这些结果表明胰岛素对FAS基因的转录有调节作用。胰岛素诱导后的脂肪酸合成酶活性升高是在转录水平上调节的。     

Interferon suppresses steroid-inducible glutamine synthetase biosynthesis in embryonic chick neural retina

Effect of chick interferon on the biosynthesis of glutamine synthetase (L-glutamate: ammonia ligase (ADP-forming), EC 6.3.1.2) was studied in the embryonic chick neural retina cultures induced for the enzyme activity by hydrocortisone. The retinal enzyme radioactively labelled with [³H]leucine was precipitated by specific antibody against the enzyme isolated from adult chick liver. The immunological determination offered evidence that the suppressive effect of interferon on the hormonal induction of the enzyme was primarily due to reduced rate of its synthesis and accumulation.     

Effect of dibutyryl cyclic AMP and dexamethasone on glutamine synthetase gene expression in rat astrocytes in culture

Astrocytes are the primary site of glutamate conversion to glutamine in the brain. We examined the effects of treatment with either dibutyryl cyclic AMP and/or the synthetic glucocorticoid dexamethasone on glutamine synthetase enzyme activity and steady-state mRNA levels in cultured neonatal rat astrocytes. Treatment of cultures with dibutyryl cyclic AMP alone (0.25 mM–1.0 mM) increased glutamine synthetase activity and steady state mRNA levels in a dose-dependent manner. Similarly, treatment with dexamethasone alone (10^–7–10^–5 M) increased glutamine synthetase mRNA levels and enzyme activity. When astrocytes were treated with both effectors, additive increases in glutamine synthetase activity and mRNA were obtained. However, the additive effects were observed only when the effect of dibutyryl cyclic AMP alone was not maximal. These findings suggest that the actions of these effectors are mediated at the level of mRNA accumulation. The induction of glutamine synthetase mRNA by dibutyryl cyclic AMP was dependent on protein synthesis while the dexamethasone effect was not. Glucocorticoids and cyclic AMP are known to exert their effects on gene expression by different molecular mechanisms. Possible crosstalk between these effector pathways may occur in regulation of astrocyte glutamine synthetase expression.Abbreviations used GS glutamine synthetase - dbcAMP dibutyryl cyclic AMP - MEM minimal essential medium - cyx cycloheximide - GRE glucocorticoid response element - CRE cyclic AMP response element