Effects of Mitogenic and Antigenic Stimulation on the Thymidine Kinases of Mouse Spleen Cells in vivo and in vitro

The DNA-synthesizing ability of mouse spleen cells in vitro and in vivo is paralleled by their levels of cytoplasmic thymidine kinase. However, a very high level of nuclear-associated enzyme activity developed in cultures of both non-stimulated and mitogen-transformed lymphocytes. This activity did not appear in the spleens of mice during the primary immune response to sheep erythrocytes (SRC) or following administration of Convanavalin A (Con A).
Feedback inhibition studies with TTP demonstrated that the nuclear enzymes were more sensitive than the cytoplasmic activities. The thermal stabilities of the nuclear enzymes were also found to be greater than the corresponding cytoplasmic ones. Furthermore, analysis of the rate of thermal inacti-vation indicated that both the cytoplasmic and nuclear enzymes present in transformed lymphocytes in vitro were far more heat-stable than those activities normally found in the mouse spleen, even after antigenic challenge with SRC in vivo or incubation in vitro in the absence of mitogenic stimulation.     

Autogenous production of interferon-beta switches on HLA genes during differentiation of histiocytic lymphoma U937 cells

The expression of class I HLA genes was measured during the in vitro differentiation of human U937 lymphoma cells towards macrophages. Following the onset of differentiation by phorbol myristate acetate the levels of cytoplasmic mRNA that hybridized with a [32P]HLA-B cDNA probe increased by a factor of nine. Elevation in HLA mRNA accumulation was followed by an increase in the rate of synthesis of HLA proteins and also by a dramatic increase in class I HLA cell surface antigen expression, as shown by cytofluorimetric analysis. The elevation in HLA mRNA and surface antigens could be prevented by adding antibodies against human interferon-beta (IFN-beta) to the culture medium at the onset of differentiation. Interferon antiviral activity was detected in the medium of differentiated U937 cells. The same anti-IFN-beta antibodies prevented the increase in (2'-5')oligo(A) synthetase activity which also takes place in differentiating U937 cells. Accumulation of the IFN-induced (2'-5')oligo(A) synthetase in U937 cells is preceded by an increase in its specific 1.6-kb mRNA as shown by hybridization to cloned (2'-5')-oligo(A) synthetase cDNA. The enzyme was preferentially found in the nuclear fraction of differentiating U937 cells. We suggest that an autogenous production of interferon-beta by the differentiating cells, switches on expression of the class I HLA genes as well as that of the (2'-5')oligo(A) synthetase.     

Induction of the messenger ribonucleic acid coding for phosphoenolpyruvate carboxykinase in H4-II-E cells. Evidence for a nuclear effect of cyclic AMP

The effect of N6,O2'-dibutyryl cyclic adenosine monophosphate (Bt2cAMP) on the induction of the mRNA coding for the enzyme phosphoenolpyruvate carboxykinase was examined in H4-II-E cells. this mRNA comprised about 0.1% of total cellular poly(A)+RNA activity in uninduced cells and was increased 5- to 7-fold by the cyclic nucleotide. The maximal level was reached 3 h after addition of the nucleotide to the cell culture. This induction is attributed to cAMP since the nonmetabolizable analogs 8-bromocAMP and 8-(4-chlorophenylthio)cAMP produce inductions comparable to Bt2cAMP while sodium butyrate and dibutyryl cyclic GMP had little effect. The increased translational activity correlated well with a proportionate increase in the amount of phosphoenolpyruvate carboxykinase (P-enolpyruvate carboxykinase) mRNA sequences which were hybridizable to a specific cDNA probe. Blot hybridization of total nuclear RNA isolated from uninduced H4-II-E cells revealed eight P-enolpyruvate carboxykinase RNA sequence species ranging in size from 1.8 to 6.9 kilobases. Treatment with Bt2cAMP increased the amount of all eight of these forms. This increase became maximal by 45-60 min and was maintained for at least 1 h. In contrast, analysis of cytoplasmic RNA showed a single 3.2-kilobase (23 S) band, which was still increasing in amount 2 h after Bt2cAMP treatment. Thus, Bt2cAMP resulted in a sequential induction of nuclear P-enolpyruvate carboxykinase RNA sequences followed by an increase in cytoplasmic phosphoenolpyruvate carboxykinase mRNA. We conclude that cyclic AMP exerts its main effect on P-enolpyruvate carboxykinase induction at the nuclear level.     

Functional dissection of nuclear envelope mRNA translocation system: effects of phorbol ester and a monoclonal antibody recognizing cytoskeletal structures

Unidirectional transport of poly(A)-containing mRNA [poly(A)+ mRNA] through the nuclear envelope pore complex is thought to be an energy (ATP or GTP)-dependent process which involves a nuclear envelope nucleoside triphosphatase (NTPase). In the intact envelope, this enzyme is regulatable by poly(A) binding and by poly(A)-dependent phosphorylation/dephosphorylation of other components of the mRNA translocation system, which are as yet unidentified. Monoclonal antibodies (mAbs) were elicited against the poly(A) binding nuclear envelope fraction isolated from rat liver. The mAbs were screened for their modulatory effects on mRNA transport in vitro. One stable clone decreased the efflux of rapidly labeled RNA and of one specific mRNA (ovalbumin) from isolated nuclei. It increased the binding of poly(A) to the envelope and increased the maximal catalytic rate of the NTPase, but it did not alter the apparent Km of the enzyme or the extent of its stimulation by poly(A). The nuclear envelope-associated protein kinase that down-regulates the NTPase was inhibited by the antibody, while other protein kinases were not affected. Because both the NTPase and mRNA efflux were inhibited by the tumor promoter, 12-O-tetradecanoylphorbol 13-acetate, the sensitive kinase is probably protein kinase C. Protein kinase C was found to be associated with the isolated nuclear envelope. The antibody reacted with both a Mr 83,000 and a Mr 65,000 nuclear envelope polypeptide from rat liver and other tissues. By immunofluorescence microscopy in CV-1 cells, the antibody localized to the nuclear envelope and, in addition, to cytoplasmic filaments which show some superposition with the microfilament network.     

Relationship between the morphological changes of somatic compartment and the kinetics of nuclear and cytoplasmic maturation of oocytes during in vitro maturation of porcine follicular oocytes

Based on the morphology and expansion of the cumulus cells, several different classes of porcine cumulus-oocyte complexes (COCs) can be distinguished, during their maturation in vitro. The goal of the present study was to find out the rate of each morphologic category in case of COCs and granulosa-cumulus-oocyte complexes (GCOCs), the characteristics of their nuclear progression, cytoplasmic maturation, and the frequency of monospermy after IVF. It was found that the frequency of cumulus expansion is higher in case of GCOCs than that of COCs. Nuclear progression of COCs was more accelerated than that of GCOCs. Oocytes attached to the bottom of culture dish with dark, compact cumulus underwent nuclear and acquired their ability to be activated earlier than that of oocytes showing normal cumulus expansion. The rate of monospermic fertilization after IVF of normal COCs showing normal cumulus expansion was higher than that of COCs attached to the dish. These results suggest that diverse behavior of cumulus cells during in vitro culture affects nuclear and cytoplasmic maturation of porcine oocytes, which also affects IVF results. It can be concluded that granulosa cells promote normal cumulus expansion thus decrease heterogeneity in nuclear and cytoplasmic maturation amongst oocytes.     

Gawky is a component of cytoplasmic mRNA processing bodies required for early Drosophila development

In mammalian cells, the GW182 protein localizes to cytoplasmic bodies implicated in the regulation of messenger RNA (mRNA) stability, translation, and the RNA interference pathway. Many of these functions have also been assigned to analogous yeast cytoplasmic mRNA processing bodies. We have characterized the single Drosophila melanogaster homologue of the human GW182 protein family, which we have named Gawky (GW). Drosophila GW localizes to punctate, cytoplasmic foci in an RNA-dependent manner. Drosophila GW bodies (GWBs) appear to function analogously to human GWBs, as human GW182 colocalizes with GW when expressed in Drosophila cells. The RNA-induced silencing complex component Argonaute2 and orthologues of LSm4 and Xrn1 (Pacman) associated with 5'-3' mRNA degradation localize to some GWBs. Reducing GW activity by mutation or antibody injection during syncytial embryo development leads to abnormal nuclear divisions, demonstrating an early requirement for GWB-mediated cytoplasmic mRNA regulation. This suggests that gw represents a previously unknown member of a small group of genes that need to be expressed zygotically during early embryo development.     

Inhibition of dihydrofolate reductase gene expression following serum withdrawal or db-cAMP addition in methotrexate-resistant mouse fibroblasts

We have used a methotrexate (MTX)-resistant mouse 3T6 cell line (M50L3), that overproduces dihydrofolate reductase (DHFR) and its mRNA by a factor of 300, to study the mechanism for turning off DHFR gene expression following withdrawal of serum factors or elevation of the intracellular level of cAMP. When resting (G0) M50L3 cells are serum-stimulated to reenter the cell cycle, the level of DHFR activity begins to increase at about the same time the cells begin synthesizing DNA. The increase in enzyme activity is preceded by increases in the synthesis rate of the enzyme, and the content and production rate of DHFR mRNA. These increases, as well as entry into S phase, are blocked when the cells are serum-stimulated in the presence of dibutyryl cyclic AMP (db-cAMP) and theophylline. In this study, we found that when these drugs were added, or the serum stimulus was withdrawn during S phase (20 h following stimulation), the subsequent increase in DHFR level was blocked. Immunoprecipitation of DHFR from pulse-labelled cells showed that both treatments led to a rapid decrease in synthesis rate of the enzyme. The effect on total protein synthesis was much less than on DHFR synthesis. In DNA-excess filter hybridization experiments, we found that the content of cytoplasmic DHFR mRNA decreased in parallel with the synthesis rate of the enzyme. This was due in part to a decrease in the production rate of DHFR mRNA relative to total mRNA. In addition, drug addition or serum withdrawal led to a significant destabilization of DHFR (as well as total) mRNA. About 85% of poly(A)(+) DHFR mRNA was associated with polysomes in resting, growing, or cAMP-treated cells, suggesting that DHFR gene expression was not controlled at the translational level under these conditions.     

Transcriptional activity in previtellogenic oocyte germinal vesicles from Xenopus laevis

Receptor interactions of parotid acinar cells with beta-agonists are mediated by cyclic 3',5'-monophosphate (cAMP) and expressed as cAMP-dependent protein kinase (cAPK) activation. In addition to its location in the cytoplasm, we have shown that cAPK is associated with the nuclear non-histone protein (NHP) fraction (0.35 M NaCl extract) of rat parotid acinar cells. Nuclei were prepared from isolated parotid acini with minimal contamination from other cell types or cytoplasmic components. The nuclear cAPK activity was inhibited by the thermostable inhibitor and was stimulated by the addition of exogenous cAMP to the assay, indicating that the enzyme is present in the holoenzyme form. Enzyme activity was not increased in the presence of detergent, suggesting that cAPK is not bound to the nuclear membrane. Photoaffinity-labeling studies with an 8-azido analog of cAMP showed that regulatory subunits of both type I and type II cAPK isozymes are present in parotid cell nuclei. Short-term in vitro stimulation of the acini with 10(-6) M isoproterenol did not alter cAPK activity in the nuclear fraction. These findings indicate that compartmentation of cAPK into nuclear and extranuclear locations in rat parotid acinar cells is similar to that of several other cell types which are responsive to hormonal stimulation.     

Stimulation of uterine ornithine decarboxylase in organ culture by decreasing osmolality: Possible relation to in vivo mechanisms

Ornithine decarboxylase (ODC) activity increases during many growth responses. Some cells and tissues in culture also exhibit elevated enzyme activity with decreasing osmolality of the culture medium. We have found that this also occurs with uterine tissue from ovariectomized rats. Organ culture incubation under hypotonic conditions caused maximal stimulation of uterine ODC activity at 4 hr. This stimulation was observed when either NaCl or sucrose was used to adjust the osmolality. Incubation under isotonic conditions also increased ODC activity relative to hypertonic conditions. This increase was similar in magnitude to that seen with unincubated uterine tissue from animals receiving systemic estradiol or intrauterine cholera toxin. Both estradiol and cholera toxin increase vascular permeability, and the resultant edema changes the extracellular microenvironment of the uterine cells. We suggest that this change somehow is mimicked by organ culture under hypotonic or isotonic conditions and is responsible for the stimulation of uterine ODC activity.     

Stimulation by light of nitrogenase synthesis in cells of Rhodopseudomonas capsulata growing in N-limited continuous cultures

In cells of Rhodopseudomonas capsulata growing in nitrogen-limited continuous culture the nitrogenase-specific activity was found to be closely dependent on the light intensity. As light intensity, measured with a photodiode immersed in the culture, was varied stepwise from 1000 to 7000 lux, the nitrogenase activity, measured at steady state, increased gradually up to 5-fold. Shifting light intensity from 1200 to 7000 lux resulted in a sharp rise in nitrogenase activity which doubled within the first two hours. The determination by immunoassays of the intracellular levels of each nitrogenase component revealed that the light-dependent stimulation of nitrogenase activity was correlated with the accumulation of the nitrogenase enzyme inside the cells. Under high illumination, nitrogenase represented up to 40% of the cytoplasmic proteins. The specific activities of each component in intact cells, calculated on the basis of their relative concentration in the cells and on in vivo nitrogenase assays, appeared roughly constant and hardly affected by changes of light intensity. The specific activity of the Fe protein was about 7-fold higher in intact cells than in the purified state. The ratio of the two nitrogenase components remained fairly constant and close to one, irrespective of the light intensity to which cells were exposed. These results demonstrate that in nitrogen-limited grown cells of Rps. capsulata light brings about an induction or a derepression of nitrogenase synthesis the extent of which is dependent on light intensity.     

The difference in murine CDC2 kinase activity between cytoplasmic and nuclear fractions during the cell cycle

The mouse analog of yeast CDC2+ kinase was detected in the cytoplasmic and nuclear fractions of cultured mouse FM3A cells. Its activity in the nuclear fraction increased in the G2/M phase became seven times higher than that in the G1/S phase, while the activity in the cytoplasmic fraction remained was almost constant from the G1/S to G1 phases. The activity in the cytoplasmic fraction was similar to that in the nuclear fraction in the G2/M phase. The amount of the enzyme remained almost constant during the cell cycle in both the nuclear and cytoplasmic fractions. These findings suggest that the cytoplasmic enzyme might play an independent role in the cell cycle.     

Study of the interaction of soluble and particle-bound nicotinamide adenine dinucleotide pyrophosphorylase with cytoplasmic ribosomes

The cytoplasm of cells infected with EMC virus contains new structures which possess activity of the nuclear enzyme NAD pyrophosphorylase [14]. An attempt was made to understand the mode of formation of these structures in the infected cell. It was found that soluble NAD pyrophosphorylase manifests a strong affinity for cytoplasmic ribosomes, sedimenting at 90S. When cytoplasmic ribosomes were dissociated to the 60S and 40S subunits, the enzyme was found to be adsorbed only to the 60S unit. In extracts of rat liver nuclei, NAD pyrophosphorylase is associated with 35S particles, composed mainly of protein and DNA. The bond between enzyme and particle is of a loose nature. When ribosomes are mixed with 35S nuclear particles, most of the enzyme activity is transferred from the nuclear particles to the ribosomes, thus forming particles with an average sedimentation coefficient of 90S. Similar structures are obtained when either soluble NAD pyrophosphorylase or 35S nuclear particles are mixed with preparations of cytoplasm isolated from non-infected cells. The results of these experiments suggest that the 90S cytoplasmic structures found in virus-infected cells could result from an association between either free or particle-bound NAD pyrophosphorylase with cytoplasmic ribosomes.     

Translational control of alpha-amylase gene expression in Aspergillus awamori

Regulation of alpha-amylase gene expression in Aspergillus awamori was studied by analyzing the enzyme activity levels, rate of protein synthesis, and alpha-amylase-specific mRNA levels under various conditions of growth. alpha-Amylase synthesis was sensitive to catabolite repression as glucose repressed its synthesis by about fourfold. The stimulation of alpha-amylase synthesis in the presence of its substrate starch was shown to be due to derepression rather than induction as the enzyme was synthesized at similar rates in both starch and starvation media. Repression and derepression of enzyme synthesis was found to be mediated at the translational level. The cellular levels of alpha-amylase-specific mRNA as measured by an in vitro translation assay system, were almost identical under all conditions of enzyme synthesis. Relative in vivo and in vitro alpha-amylase mRNA template activities suggest that alpha-amylase mRNA is translated much more efficiently during the derepression than under the conditions of repressed synthesis.     

Changes in mRNA levels of poly(ADP-ribose) polymerase during activation of human lymphocytes

The level of mRNA encoding the nuclear enzyme poly(ADP-ribose) polymerase (ADP-ribosyltransferase, EC 2.4.2.30) was found to be very low in quiescent human lymphocytes and to increase at least 10-fold between 1 and 2 dyas after stimulation with the mitogen phytohaemagglutinin, staying high for several days thereafter. This increase was inhibited by 3-methoxybenzamide (a competitive inhibitor of poly(ADP-ribose) polymerase) but was not affected significantly by aphidicolin. Incubation of activated cells with cycloheximide for 2 h increased the expression slightly. These data demonstrate that, during lymphocyte activation, the level of mRNA of the poly(ADP-ribose) polymerase gene correlates with, and hence is presumably responsible for, the increase in poly(ADP-ribose) polymerase protein detectable by enzyme assay or immunochemistry.