Role of glucocorticoids in the regulation of lipogenesis

Traditionally, the glucocorticoids have been viewed as catabolic hormones. However, with the present knowledge about how the glucocorticoid receptor protein functions in the stimulation of mRNA synthesis, a new view must be accepted: These steroids also have an anabolic function. They are anabolic because they stimulate the de novo synthesis of enzymes of anabolic pathways. In the liver, stimulation of lipogenic enzymes has been shown. These findings suggest that glucocorticoids can increase feed efficiency and thereby play a role in the etiology of obesity.     

Cell density-dependent regulation of albumin synthesis and DNA synthesis in rat hepatocytes by hepatocyte growth factor.

Hepatocyte growth factor (HGF), a potent mitogen for mature hepatocytes, has been considered to act as a hepatotropic factor for liver regeneration. We examined the effect of HGF on albumin synthesis and DNA synthesis of adult rat hepatocytes cultured at various cell densities. HGF stimulated albumin synthesis of hepatocytes by 40-60% when they were cultured at higher cell densities such that there was tight cell-cell contact. But at lower cell densities HGF failed to stimulate albumin synthesis. In contrast, the stimulatory effect of HGF on DNA synthesis of hepatocytes was more potent at lower than at higher cell densities: HGF did not stimulate DNA synthesis of hepatocytes cultured at confluent cell density. Thus, HGF seems to stimulate both albumin synthesis and DNA synthesis of hepatocytes, in a reciprocal relationship depending on cell density. When the effects of various cytokines were examined, epidermal growth factor, transforming growth factor-alpha, and acidic fibroblast growth factor also stimulated albumin synthesis by 20-30%. However, transforming growth factor-beta 1, basic fibroblast growth factor, and interleukin-1 beta had no effect on albumin synthesis, while interleukin-6 inhibited it by 42%. Thus HGF was the most potent in stimulating albumin synthesis in these cytokines. Since HGF is markedly increased in the liver or plasma following various liver insults, HGF may be involved in liver regeneration through the potential to stimulate both cell growth and liver-specific functions such as albumin synthesis in a cell density-dependent manner.     

Stimulatory effects of estrogen and progesterone on proliferation and differentiation of normal human osteoblast-like cells in vitro.

Here we report that osteoblast-like cells derived from female and male adult human trabecular bone are able to directly respond to 17 beta-estradiol (E2) and progesterone (P). In short-term (1 day) cultures using serum-free and phenol red-free medium, both steroid hormones were found to stimulate DNA synthesis and growth of the human osteoblast-like cells. P was more potent in stimulating osteoblast growth compared to E2. On the other hand, E2 showed a stronger differentiation-inducing effect as determined by analysis of the number of cells displaying cytochemical alkaline phosphatase (AP) activity, a marker for the mature osteoblast phenotype. Combination of E2 and P resulted in a further increase in DNA synthesis, but did not further affect the number of cells expressing AP activity. In conclusion, female sex steroids may be involved in regulating bone mass in human adults via a direct anabolic action on the bone forming cells.     

The effect of recombinant human basic fibroblast growth factor rhfgf-2 on human osteoblast in growth and phenotype expression

This paper describes the studies of human recombinant basic fibroblast growth factor (rhFGF-2) for its effects on human osteoblast growth and phenotype expression. During a 24-h period of treatment, rhFGF-2 highly stimulated DNA synthesis in a dose-related fashion with a maximum stimulation of 150% for 1 ng/ml. On the other hand, rhFGF-2 decreases alkaline phosphatase activity, synthesis of type I collagen, and cumulative amount of osteocalcin. Moreover, rhFGF-2 provoked a threefold increase in the amount of intracellular cAMP. Scatchard plots show the presence of two classes of [¹²⁵I] rhFGF-2 receptors. This data suggests that rhFGF-2 which stimulate cell replication may act indirectly as an anabolic agent and stimulate some of the phenotypic expression markers.     

Purified multiplication-stimulating activity from rat liver cell conditioned medium: comparison of biological activities with calf serum, insulin, and somatomedin

Multiplication-stimulating activity (MSA) for chicken embryo fibroblasts was purified from serum-free medium conditioned by the growth of a line of rat liver cells (CRL), The biological activities of purified CRL MSA for chicken embryo fibroblasts were compared with those of calf serum to determine which activities are important for the stimulation of DNA synthesis and mitosis. In a balanced salt solution, only glucose and amino acids were needed in addition to purified CRL MSA to stimulate DNA synthesis maximally. Purified CRL MSA stimulated the rates of uptake of glucose and α-aminoisobutyric acid. Only the stimulation of the rate of glucose uptake appeared to be a primary response to purified CRL MSA since the stimulation was not inhibited by actinomycin D or cycloheximide. The stimulation of the rate of uptake of α-aminoisobutyric acid was inhibited by actinomycin D. CRL MSA differed from calf serum in its inability to commit cells irreversibly to synthesize DNA after the removal of CRL MSA and in its lack of the ability to stimulate the migration or prolong the survival of chicken embryo fibroblasts. Comparative studies indicated that purified CRL MSA had functional similarities to insulin and somatomedin. CRL MSA may be representative of a family of small polypeptide hormones having insulin-like activity which are involved in the control of cell multiplication.     

Positive allelopathic stimulation and underlying molecular mechanism of achyranthe under continuous monoculture

Three experiments were conducted to study the allelopathic stimulation and its underlying molecular mechanism of achyranthes medicinal plants in continuously monoculture system. The stimulators in the rhizospheric soil of continuously monocultured achyranthes plants were extracted by water and organic solvents. Results of the bioassay showed that the rhizospheric soil extracts had a significant promotive effect on the growth of achyranthes in continuous monoculture system, implying that the extracts, especially the water extracts might contain plant activators to stimulate the growth of the medicinal plants. Subtractive hybridization suppression (SSH) was used to investigate gene expression profiles of achyranthes in response to the extract treatments. Ten up-regulated genes from SSH-cDNA library were sequenced and assigned. Results indicated that flavonoids and phytosterol might play an important role in the positively allelopathic stimulation on achyranthes plants in continuous monoculture system. Comparative proteomics were employed to further unveil the molecular mechanism of allelopathic stimulation induced by the extracts. Compared with protein expression profile in control, 25 differentially expressed proteins and their functions were detected and identified in the treated plants. The results suggested that the extracts from continuously monocultured rhizospheric soils under Chinese medicinal achyranthes activated the genes encoding the key enzymes involved in terpenes and flavonoids synthesis, which in turn led to increased de novo synthesis of the stimulators, and hence promoted growth of achyranthes in consecutively monoculture system.     

Relative mitogenic activities of various estrogens and antiestrogens

The abilities of a variety of estrogens and antiestrogens to stimulate DNA synthesis in the prepuberal rat uterus were compared. One microgram of each compound was administered in vivo via a single intraperitoneal injection. DNA synthesis was assayed in vitro in isolated nuclei 24 h later. The relative mitogenicities of the steroidal estrogens were: 16 alpha-E2 less than 17 alpha-E2 = E3 = 16-EpiE3 less than 16 beta-E2 = 17 beta-E2. The potencies of several nonsteroidal estrogens were also tested. Indenestrol A was as potent at 17 beta-E2, whereas indanestrol and dimethylstilbestrol had weaker activities. The antiestrogens, nafoxidine and 4-hydroxytamoxifen, were both potent stimulators of DNA synthesis. The abilities of an estrogen to stimulate increases in uterine wet weight, DNA polymerase alpha activities, and DNA synthesis in uterine nuclei 24 h after injection were closely correlated. Because the magnitude of the stimulation of DNA synthesis was greatest, its measurement is the most sensitive of these assays of uterotrophic activity.     

Influences of anionic polysaccharides on DNA synthesis in isolated nuclei and by DNA polymerase α: Correlation of observed effects with properties of the polysaccharides

The basis of the differential effect of anionic polysaccharides on replicative DNA synthesis in liver and hepatoma cell nuclei was investigated. The differential effect of heparin was lost when more than 40% of its sulfate was removed. DNA synthesis in liver nuclei was optimally stimulated by heparin of molecular weight 22 600 and sulfate to hexosamine ratio 2.42, but inhibited by heparin of molecular weight 4300 and sulfate to hexosamine ratio 2.35. A heparin fragment (molecular weight 2800 and sulfate to hexosamine ratio 1.81), prepared by partial nitrous acid treatment was a potent inhibitor of DNA synthesis in hepatoma nuclei. There was no significant difference in the rate of entry of heparin or its subfractions into either liver or hepatoma nuclei. In both cases less than 15% of added polysaccharide entered the nuclei and only about 4.5% was found associated with the chromatin. The influence of the anionic polysaccharides on DNA synthesis was correlated with their ability to complex with histones as determined by relative light scattering in a laser nephelometer. The relative light scattered on mixing with histones (H1, H2A + H3, H4) was high for DNA synthesis stimulators (heparin, dextran sulfate); medium for DNA synthesis inhibitors (chondroitin 4- and 6-sulfates, heparan sulfate) and low for non-effectors (keratan sulfate, hyaluronic acid). Heparin and chondroitin sulfate H, which at low concentrations stimulate DNA synthesis in liver nuclei, inhibited DNA synthesis by calf thymus DNA polymerase α at all concentrations. This inhibition was not simply due to electrostatic interactions.     

微管解聚对生长因子在DNA合成中的作用

PPP (platelet-poor plasma) alone can not stimulate DNA synthesis in Go C3H/10T1/2 cells.50 ng/ml of EGF promoted partial Go cells to enter S phase. However, there was an apparent synergic effect of simultaneous treatment with 50 ng/ml EGF and 5%PPP, their synergic effect to stimulate DNA synthesis in Go cells was the same as 10% calf serum. Taxol can resist the depolymerization of microtubules. After treatment with taxol (10 mumol/L), the progression from Go to S phase in C 3 H 10 T 1/2 cells was inhibited. This inhibition was especially exhibited at early stage of transition from Go to S phase. The result indicated that Go cells can not enter S phase without the depolymerization of microtubules. It showed that DNA synthesis was stimulated by the simultaneous treatment with colcemid (0.1 microgram/ml) and growth factors (50 ng/ml EGF + 5% PPP or 10% Calf serum). But without the stimulation of growth factors, the unique effect of depolymerization of microtubules can not stimulate DNA synthesis. The results present evidence indicating that the depolymerization of microtubules has the potency to elevate DNA synthesis in Go cells stimulated by growth factors. This potency was also appeared at early stage of progression from Go to S phase. We suggest that the depolymerization of cytoplasmic microtubules and synergic effect of growth factors are involved in account for the transition from Go to S phase in C 3 H 10 T 1/2 cells.     

Cell shape and increased free cytosolic calcium [Ca2+]i induced by growth factors

Growth factors stimulate DNA synthesis of neoplastic cells but not of non-neoplastic cells in suspension cultures. Similarly, growth ceases in dense monolayers of non-neoplastic cells, while crowded neoplastic cells continue to grow. The mechanism of these important phenotypic changes is unknown; the block in growth stimulation could occur in early events of signal transduction at the plasma membrane or in a late step in the final steps of gene activation and induction of DNA synthesis. One particular early intracellular event, [Ca2+]i increases, is in fact necessary for the induction of DNA synthesis in attached non-neoplastic Balb/c 3T3 cells stimulated by platelet-derived growth factor (PDGF). We therefore used digital image analysis of intracellular Fura-2 fluorescence to determine whether PDGF can stimulate [Ca2+]i transients in suspension or in dense monolayer cultures of Balb/c 3T3 cells. In dense cells (greater than 8 x 10(4) cells/cm2) the basal [Ca2+]i and [Ca2+]i response to PDGF stimulation were both lower than those in sparser, more spread cells. PDGF also did not release internal stores of Ca2+ or produce Ca2+ influx in completely suspended cells. Remarkably, attachment alone, with minimal cell spreading, was enough to reinitiate the entire early signalling mechanism stimulated by PDGF. Thus, a block in PDGF-induced [Ca2+]i increases may contribute to the inability of PDGF to stimulate DNA synthesis in suspended non-neoplastic cells. This early block in signal transduction must be abrogated in neoplastic cells growing in suspension and dense monolayer cultures.     

Effects of daunorubicin and its nitroxyl analog on the synthesis of nucleic acids]

The impact of daunorubicin, emoksil in sublethal doses and daunorubicin mixtures with a nitroxyl radical of 2,2,6,6-tetramethyl-4-oxopiperidine-1-oxyl (NR) on synthesis of DNA and RNA in some organs of rats was studied. Daunorubicin and emoksil induced marked (by 80 to 90%) inhibition of DNA synthesis in all the examined organs even within the first hours of administration. In the heart, DNA synthesis remained lower by the end of the experiment. In the spleen its partial recovery up to 40 to 60% of the control level was observed. In the liver the synthesis was stimulated in 24 hours. Its highest stimulation was recorded with the use of emoksil and daunorubicin in combination with NR. After administration of daunorubicin the maximum synthesis of DNA exceeded the control level 2.5 times. Addition of NR lowered 2-fold inhibition of DNA synthesis by daunorubicin within the first hours. It was of interest that the anthracyclines appeared to markedly stimulate RNA synthesis in the spleen, the fact not described in the literature. The stimulation of DNA synthesis in the liver was supposed to be one of the components of the compensatory mechanisms engaged by the cell in response to the drug's damaging effect.     

Study of DNA synthesis stimulators in nerve tissue cells

Ontogenetic changes in DNA synthesis in different divisions and regions of the brain occur via different mechanisms, which is conditioned by changes in the composition and properties of corresponding mediators. Tissue extracts obtained from the parts of brain characterized by intensive cell division (cortex of 15-17-day-old embryos or cerebellum of 8-10-day-old animals) can stimulate the incorporation of labeled precursors into brain cell DNA in both neonatal and adult rats. Using desalting at increasing concentrations of ammonium sulfate, gel filtration on sephadexes and isoelectrofocusing, three fractions of DNA synthesis stimulators whose isoelectric points lie at acidic, neutral and alkaline regions of pH, were isolated. A method is described, which can be employed for isolation in a pure state and determination of some physico-chemical properties of an acid activator. The latter is a low molecular weight peptide causing marked stimulation of [3H]thymidine incorporation into nervous tissue cell DNA in an in vitro system, when taken at a concentration of about 1 microgram/ml.     

Stimulation of growth of primary cultured adult rat hepatocytes without growth factors by coculture with nonparenchymal liver cells

DNA synthesis of adult rat parenchymal hepatocytes alone in primary culture can be stimulated only by the addition of humoral growth factors to the culture medium. However, when parenchymal hepatocytes were cocultured with nonparenchymal liver cells from adult rats, their DNA synthesis was markedly stimulated in the absence of added growth factors or calf serum. DNA synthesis of parenchymal hepatocytes was not stimulated by conditioned medium from nonparenchymal liver cells and was greatest when the parenchymal cells were plated on 24-h cultures of nonparenchymal liver cells. A dead feeder layer of nonparenchymal cells was almost as effective as a feeder layer of viable nonparenchymal cells. These results suggest that the stimulation of DNA synthesis in parenchymal hepatocytes was not due to some soluble factors secreted by nonparenchymal liver cells but to an insoluble material(s) produced by the nonparenchymal liver cells. This insoluble material(s) was collagenase- and acid-sensitive, suggesting that it was a protein containing collagen. The effect of nonparenchymal liver cells was specific: coculture with hepatoma cells, liver epithelial cells, or Swiss 3T3 cells did not stimulate DNA synthesis in parenchymal hepatocytes. Added insulin and epidermal growth factor showed additive effects with nonparenchymal cells in the cocultures. These results suggest that DNA synthesis in parenchymal hepatocytes is stimulated not only by various humoral growth factors but also by cell-cell interaction between parenchymal and nonparenchymal hepatocytes, possibly endothelial cells. This cell-cell interaction may be important in repair of liver damage and liver regeneration.     

The effect of norethandrolone on organic ion transport by rat renal cortical slices.

Norethandrolone (NE) and other androgenic steroids have been shown to be renotropic in various species and have also been reported to have salutary effects in patients with diminished renal function. Renal cortical slices prepared from rats pretreated with NE showed an increased capability to concentrate p-aminohippuric acid (PAH). Pretreatment with NE failed to stimulate the transport of the organic base tetraethylammonium and the organic acid benzylpenicillin. Stimulation of PAH transport was observed after eight daily subcutaneous injections of NE. No stimulation was observed with shorter pretreatment intervals. When NE was given subcutaneously for 14 days at doses of 2.6 or 20 mg kg-1 day-1, significant stimulation of PAH transport was seen at all three dose levels but no dose-effect relationship was apparent. Stimulation of PAH transport was seen in female rats as well as castrated and intact males. In addition to its general anabolic properties, NE induces the synthesis of hepatic microsomal drug-metabolizing enzymes. For comparative purposes, therefore, the effect of pregnenolone-16 alpha-carbonitrile (PCN) was also investigated. This agent is a potent inducer of drug metabolism but is neither anabolic nor renotropic. When rats were pretreated with an inducing dose of PCN (75 mg kg-1 day-1 for 3 days), there was no significant stimulation of PAH transport. It would seem, then, that the stimulatory effect of NE on PAH transport is more closely associated with its generalized anabolic effect than with its ability to induce hepatic microsomal enzymes.     

Evidence for sex-dependent anabolic response to androgenic steroids mediated by muscle glucocorticoid receptors in the rat

The muscle anabolic/anti-catabolic activity of the androgenic steroids testosterone and trenbolone was studied in rats to investigate whether such steroids act as agonists via muscle androgen receptors, or as antagonists that oppose the catabolic effects of endogenous glucocorticoids via their interaction with muscle glucocorticoid receptors. For comparison, the effects of the potent glucocorticoid antagonist RU486 were also examined. The parameters measured included growth rate, muscle weight, serum growth hormone and corticosterone levels, and receptor binding parameters in muscle cytosol. Females responded better than males to anabolic treatment with the androgenic steroids. Ovariectomy or adrenalectomy abolished this response. Neither the sex difference nor the requirement for ovaries or adrenals could be explained in terms of muscle receptor parameters or serum growth hormone levels. The muscle anabolic activity of androgenic steroids was restored when castrated males were treated with oestradiol and when adrenalectomized females were treated with corticosterone. RU486 also prevented the catabolic/anti-anabolic activity of exogenous corticosterone in adrenalectomized rats. Testosterone and RU486 behaved as anti-glucocorticoids in vivo since they inhibited glucocorticoid-induced liver tyrosine aminotransferase activity. The results suggest that anabolic steroids can act via muscle glucocorticoid receptors, thereby antagonizing the catabolic activity of endogenous glucocorticoids, rather than via muscle androgen receptors.     

Antigen presentation by interferon-gamma-treated endothelial cells and fibroblasts: differential ability to function as antigen-presenting cells despite comparable Ia expression

The effect of interferon-gamma (IFN-gamma) on endothelial cell (EC) and fibroblast (FB) class II major histocompatibility complex (MHC) gene product expression and antigen presenting ability was examined. Control FB did not express class II MHC gene products, whereas a small (less than 1%) population of passaged EC expressed class II gene products. IFN-gamma induced a comparable density of HLA-DR expression on nearly all EC and FB. IFN-gamma-treated EC and FB also expressed HLA-DP but at a lower density, whereas HLA-DQ expression was barely detectable on either cell type. Control FB were not able to stimulate allogeneic T4 cell DNA synthesis or function as antigen-presenting cells (APC). Control EC were also unable to stimulate allogeneic T4 cell DNA synthesis unless large numbers of stimulator cells were used. Small numbers of IFN-gamma-treated EC were able to stimulate allogeneic T4 cell DNA synthesis, whereas larger numbers were markedly more effective than control EC. In contrast, IFN-gamma-treated FB were ineffective stimulators of allogeneic T4 cell DNA synthesis. IFN-gamma-treated FB were able to present the exogenous antigen SKSD to autologous but not allogeneic T4 cells, but they were extremely inefficient APC. The inability of IFN-gamma-treated FB to function as APC could not be explained by FB-mediated immunosuppression, Ia density, or HLA-DQ expression. This limited capacity of IFN-gamma-treated FB to participate in Ia-restricted functional interactions with T4 cells correlated with a similar diminished capacity to support nonspecific mitogen-induced proliferation of T4 cells before IFN-gamma-induced Ia expression. This accessory cell function was not enhanced by IFN-gamma treatment. Monocytes syngeneic to the responding T4 cells but not interleukin 1 (IL 1) permitted IFN-gamma-treated FB but not control FB to stimulate allogeneic T4 cell DNA synthesis, but they remained markedly less effective stimulators than monocytes. Moreover, IFN-gamma-treated FB were effective stimulators of alloprimed T4 cells, in contrast to their inability to stimulate fresh T4 cells. Furthermore, monocytes and IFN-gamma-treated FB were comparably effective stimulators of alloreactive T cell lines. These data suggest that accessory cells perform functions unrelated to Ia and IL 1 that are necessary for mitogen-, alloantigen-, and antigen-induced proliferation of freshly isolated T cells. Monocytes and EC effectively perform this function, but FB do not. This accessory cell function does not seem to be as important for the activation of primed T cells.     

Mechanism of the anabolic action of phytoecdisteroids in mammals

In experiments with white mice it has been established that phytoecdisteroides turkesteron, ecdisteron and 2-desoxy-alpha-ecdison in the dose of 5 mg on 1 kg of body mass stimulate the protein synthesis. Using the model of protein synthesis from mice liver it has been shown that the action of phytoecdisteroides is connected with the rise of poliribosome functional activity and rate increase of protein macromolecules formation. Preliminary administration of actinomycin D does not prevent the effect of protein synthesis stimulation. It has been concluded that the anabolic effect of phytoecdisteroides in mammals organism is connected not with induction of RNA synthesis but with the acceleration of translocation processes.     

Increased ouabain-sensitive 86Rubidium uptake after mitogenic stimulation of quiescent chicken embryo fibroblasts with purified multiplication-stimulating activity

Multiplication-stimulating activity (MSA), a protein which stimulates DNA synthesis and growth of chicken embryo fibroblasts, was purified from serum-free medium conditioned by the growth of a rat liver cell line. Purified MSA was shown to rapidly stimulate ouabain-sensitive Na+, K+-ATPase activity as measured by both enzyme assay and rate of 86Rubidium uptake. Labeled ouabain binding was also shown to increase after stimulation of quiescent cells by serum or purified MSA. Conditions which interfere with the ability of the cells to accumulate potassium, such as the presence of the specific inhibitor, ouabain; incubation in potassium-free medium; or the presence of the potassium ionophore, valinomycin, were all demonstrated to inhibit the stimulation of DNA synthesis by serum or purified MSA. These results suggest that an early event in the stimulation of DNA synthesis by purified MSA is an activation of membrane Na+, K+-ATPase with a resulting accumulation of potassium ions inside the cell.