Hormonal Regulation of Leptin mRNA Expression and Preadipocyte Recruitment and Differentiation in Porcine Primary Cultures of S-V Cells

The hormonal regulation of leptin mRNA expression and the association between leptin expression and adipocyte differentiation were examined in primary cultures of porcine S-V cells with Northern blot and immunocytochemical analysis. Seeding for 3 days with fetal bovine serum (FBS) with varying levels of dexamethasone (Dex) increased levels of leptin mRNA in a dosedependent manner in parallel with increases in the proportion of preadipocytes (AD-3 positive cells; AD-3, a preadipocyte marker). Six-day treatment with 10 or 850 nM insulin after FBS+Dex treatment resulted in a similar increase in leptin mRNA expression and morphological differentiation. However, significantly lower levels of leptin mRNA and smaller fat cells were observed in cultures treated with 1 nM insulin or 10 nM insulin-like growth factor-I (IGF-I). Dex-induced increases in leptin mRNA levels and AD-3 cell numbers were blocked completely by the addition of transforming growth factor-β (TGF-β) to FBS+Dex-treated cultures. However TGF-β significantly increased fat cell size and leptin mRNA expression when added to ITS (insulin, 850 nM; transferrin, 5 μg/ml; and selenium, 5 ug/mL) treated cultures during the lipid-filling stage. When added with FBS+DEX for the first 3 days, growth hormone (GH) did not influence the Dex-induced increase in AD-3 cells and leptin mRNA expression, but GH reduced leptin mRNA levels when added with insulin for 6 days after FBS+Dex. These results demonstrated that regulation of leptin mRNA expression by Dex, insulin, IGF-I, TGF-β, and GH may be associated with changes in preadipocyte number and fat cell size.     

Expression of c-fos and c-myc protooncogenes in an immortalized hepatocyte line harbouring SV40 T antigen and hGH as transgenes

A clonal hepatocyte line (FMH-202-2), derived from livers of fetal transgenic mice harbouring human growth hormone (hGH) and SV40 T antigen as transgenes, was used in the investigation of protooncogene expression involved in liver-specific growth control and/or in hepatocellular transformation. In this model system, representing an immortalized, yet untransformed phenotype, the transgenes hGH and SV40 T antigen were expressed constitutively. The c-fos protooncogene was induced by incubation with insulin, epidermal growth factor (EGF) and insulin-like growth factor (IGF-I) in a transient manner comparable to its expression in primary murine hepatocytes. Elucidation of second messenger mechanisms demonstrated that c-fos induction by hepatotrophic growth factors was not mediated by protein kinase C. In contrast to primary hepatocytes, the c-myc protooncogene exhibited a constitutive expression pattern which was independent of growth factor stimulation. These results indicate that apart from hGH and SV40 T antigen, c-myc may play a role in cellular immortalization, but that constitutive expression of these genes, even in combined coexpression, does not suffice to induce the transformed phenotype.     

Changes in IGF-I receptor and IGF-I mRNA during differentiation of 3T3-L1 preadipocytes

Insulin-like growth factor-1 (IGF-I) is an essential factor for the differentiation of preadipocytes into adipocytes. We investigated the expression of IGF-I receptor and IGF-I RNA messenger during 3T3-L1 preadipocyte differentiation. Levels of IGF-I receptor decreased in the mature adipocytes compared to cells before the initiation of differentiation. In addition, cultures not induced to differentiate showed a decrease on the receptor levels after 4 days in the presence of insulin compared to cultures without treatment. The levels of the IGF-I RNA messenger were shown to be higher in mature adipocytes compared to preadipocytes. We propose an autocrine and/or paracrine action of IGF-I in this adipocyte differentiation model, where IGF-I produced by the differentiating preadipocytes acts over their adjacent cells and, in this way, diminishes the expression of IGF-I receptor.     

The application of antisense oligonucleotide technology to the brain: Some pitfalls

Summary 1. Amphetamine-induced c-fos andegr-1 expression in the striatum was used as a model in which to study the effects of antisense oligodeoxynucleotides (ODNs) directed at c-fos. Using direct infusions of ODNs into the striata of animals we have demonstrated that c-fos antisense ODNs retain most of their biological activity with 2- or 3-base substitutions. The c-fos antisense and mismatch ODNs attenuated Fos immunoreactivity but had little effect on Egr-1 immunoreactivity.2. In another group of studies examining the role of c-fos in amygdala kindling, we have demonstrated that ODNs cause neurotoxic damage following repeated daily infusions into the amygdala. The damage observed was greatly diminished when the time interval between infusions was extended.     

c-fos expression in the amygdala:In vivo antisense modulation and role in anxiety

Summary 1. The amygdaloid complex is a key structure in mechanisms of fear and anxiety. Expression of the immediate-early gene c-fos has been reported in the central nucleus of the amygdala following various stressors, but the functional role of this phenomenon has remained unknown.2. c-fos expression was observed in the central nucleus when rats were subjected to a pharmacologically validated animal model of anxiety, the Vogel conflict test, but not after mere exposure to the test apparatus. Bilateral amygdala injection of a 15-mer phosphorothioate c-fos antisense oligodeoxynucleotide prior to testing blocked conflict-induced c-fos expression and had behavioral effects similar to those of established antianxiety drugs.3. Separate experiments determined that antisense treatment did not affect conflict behavior by acting on shock thresholds or drinking motivation.4. These findings provide evidence that neuronal activation and c-fos induction in the amygdala may be of importance for mechanisms of fear and anxiety.     

c-fos antisense RNA blocks expression of c-fos gene in F9 embryonal carcinoma cells

To study the function of proto-oncogene c-fos, we prepared an antisense plasmid that expresses in mammalian cells c-fos antisense RNA which is complementary to the endogenous c-fos mRNA. Upon transfection into undifferentiated F9 EC cells, the antisense plasmid directed constitutive expression of a large amount of c-fos antisense RNA. These cells were very low in the basal level of c-fos message and were unable to induce c-fos message when stimulated with interferon or phorbol ester. The failure to induce c-fos message led to the blockade of c-fos protein expression in these cells. Thus, these cells represented a c-fos defective phenotype. The blockade of c-fos gene expression seen in antisense-cells could be caused by rapid degradation of the c-fos message, since c-fos mRNA expression was rescued in these cells when treated with protein synthesis inhibitor, cycloheximide. We found that expression of c-myc gene was down-regulated in c-fos antisense-cells: Although control undifferentiated F9 cells constitutively expressed a high level of c-myc message, the antisense cells had a much lower amount of c-myc mRNA. Since p53 and heat shock gene 70 were expressed at comparable levels in control and antisense cells, c-myc gene expression appears to be regulated by c-fos gene in F9 EC cells. Lastly, these antisense cells grew as rapidly as control F9 cells and underwent differentiation after retinoic acid treatment, indicating that c-fos expression is not a prerequisite for differentiation of F9 cells.     

Insulin-like growth factor-I is a serum component stimulating growth of human neuroblastoma

Summary Human non-autocrine neuroblastoma cells SK-N-SH and LF require serum for proliferation in vitro. We wished to determine the role of serum-borne insulin-like growth factor I (IGF-I) as mitogen for these cells. Introduction of the monoclonal antibodyα-IR₃ against human IGF-I receptor reduced proliferation in the presence of fetal bovine serum (FBS). IGF-I (5 nM) was as effective as FBS (10%) in stimulating proliferation. Porcine insulin mimicked the effects of IGF-I, but at a 1000-fold higher concentration. The antibodyα-IR₃ reduced growth stimulated by IGF-I more effectively than growth stimulated by insulin. Thus, proliferation of human non-autocrine neuroblastoma cells can be effectively manipulated by exogenous IGF-I.     

Co-localization of ecdysteroid receptors and c-fos-like protein in the brain of Manduca sexta larvae

Summary The presence of c-fos, a marker for cell activation, was investigated in cerebral neurons actively expressing ecdysteroid receptors during larval-pupal development in the tobacco hornworm, Manduca sexta. Colocalization was accomplished by ecdysteroid autoradiography using the tritiated high affinity 20-hydroxyecdysone agonist ponasterone A and immunocytochemistry with an antibody to a peptide sequence which is highly conserved in both human and murine c-fos. Immunoreactivity to a c-fos-like protein(s) was present in nuclei of many neurons of all the developmental stages examined. However, with the exception of the optic lobe, cells expressing nuclear ecdysteroid receptors were more immunoreactive than non-ecdysteroid-binding neurons. These data suggest that ecdysteroid-induced gene activation and translation may involve c-fos expression. Offprint requests to: H.-J. Bidmon     

Midazolam and theN-methyl-d-aspartate (NMDA) receptor antagonist 2-amino-7-phosphonoheptanoic acid (AP-7) attenuate stress-induced expression of c-fos mRNA in the dentate gyrus

Summary 1. The effects of restraint stress on c-fos mRNA expression in the dentate gyrus were investigated byin situ hybridization.2. Confirming previous findings, c-fos mRNA expression increased after 30 min of forced restraint.3. This effect was attenuated by a previous i.c.v. injection of the anxiolytic benzodiazepine midazolam (20 nmol/2 µl) or theN-methyl-d-aspartate (NMDA) receptor antagonist 2-amino-7-phosphonoheptanoic acid (AP-7; 5 nmol/2 µl).4. These results suggest that the dentate gyrus is activated during restraint stress and that this activation may be modulated by benzodiazepine -aminobutyric acid_A (GABA_A) or NMDA receptors.     

Effect of the Tumor Promoter Phorbol 12-Myristate 13-Acetate (PMA) on Proliferation of Young and Senescent WI-38 Human Diploid Fibroblasts

The effects of the tumor promoter phorbol 12-myristate 13-acetate (PMA) on the proliferation, protein kinase C activity (PKC), and c-fos gene expression were examined in cultures of young and senescent (90-95% lifespan completed) WI-38 human diploid fibroblasts. We observed that, following stimulation with medium containing 10% fetal bovine serum (FBS), the translocation of PKC from the cytosol to the particulate compartment was less efficient in senescent WI-38 cells than in young cells. However, when PMA was added to the medium, the intracellular distribution of PKC activity in old cells became nearly identical to that observed in young cells. The inducibility of c-fos mRNA by serum addition, which is a protein kinase C-dependent event [64], was significantly amplified in the presence of PMA. Moreover, the duration of peak c-fos expression, after stimulation by FBS and PMA, increased in senescent cells as compared to young cells. Our results reveal that the normal signal transduction pathway is altered in senescent, slowly proliferating human fibroblasts and that it can be partially restored in the presence of the tumor promoter PMA.     

Onset of direct 17-β estradiol effects on proliferation and c-fos expression during oncogenesis of endometrial glandular epithelial cells

In normal endometrial glandular epithelial cells (GEC), 17β-estradiol (E₂) enhances proliferation and c-fos expression only in the presence of growth factors. On the contrary, growth factors are not required for the E₂ effects in cancerous cells. Thus, a repression of E₂ action could exist in normal cells and be turned off in cancerous cells, allowing a direct estrogen-dependent proliferation. To verify this hypothesis, we established immortalized and transformed cell models, then investigated alterations of E₂ effects during oncogenesis. SV40 large T-antigen was used to generate immortalized GEC model (IGEC). After observation of telomerase reactivation, IGEC model was transfected by activated c-Ha-ras to obtain transformed cell lines (TGEC1 and TGEC2). The phenotypic, morphological, and genetic characteristics of these models were determined before studying the E₂ effects. In IGEC, the E₂ action on proliferation and c-fos expression required the presence of growth factors, as observed in GECs. In TGECs, this action arose in the absence of growth factors. After IGEC transformation, the activation of ras pathway would substitute the priming events required for the release of repression in GEC and IGEC and thus permit direct E₂ effects. Our cell models are particularly suitable to investigate alterations of gene regulation by E₂ during oncogenesis.     

Differential Expression of c-fos mRNA and Fos Protein in the Rat Brain After Restraint Stress or Pentylenetetrazol-Induced Seizures

1. c-fos mRNA expression and Fos protein expression were investigated by in situ hybridization and immunohistochemistry after 30 min of forced restraint stress or pentylenetetrazol (PTZ; 64 mg/kg, i.p.)-induced seizures.2. Forced restraint stress and PTZ-induced seizures generated c-fos mRNA expression of distinct intensities, but in similar brain regions, including the hippocampus, the amygdala, the piriform cortex, the paraventricular hypothalamic nucleus, the habenula, and parts of the cerebral cortex.3. The distribution of Fos-like immunoreactivity induced by stress or seizures only partially overlap. No Fos-like expression was found in the hippocampus or the habenula after restraint stress. Nevertheless, both areas presented Fos-like expression after PTZ-induced seizures.4. Our results support the suggestion that immediate early gene expression in vivo may exhibit both region- and stimulus-specific expression.     

Transgenic animals as a tool for studying the effect of the c-myc proto-oncogene on cardiac development

Transgenic animals provide a model system to elucidate the role of specific proteins in development. This model is now being used increasingly in the cardiovascular system to study cardiac growth and differentiation. During cardiac myocyte development a transition occurs from hyperplastic to hypertrophic growth. In the heart the switch from myocyte proliferation to terminal differentiation is synchronous with a decrease in c-myc mRNA abundance. To determine whether c-myc functions to regulate myocyte proliferation and/or differentiation, we examined the in vivo effect of increasing c-myc expression during fetal development and of preventing the decrease in c-myc mRNA expression that normally occurs during myocyte development. The model system used was a strain of transgenic mice exhibiting constitutive expression of c-myc mRNA in cardiac myocytes throughout development. Increased c-myc mRNA expression is associated with both atrial and ventricular enlargement in the transgenic mice. This increase in cardiac mass is secondary to myocyte hyperplasia, with the transgenic hearts containing greater than twice as many myocytes as nontransgenic hearts. The results of this study indicate that constitutive expression of c-myc mRNA in the heart during development results in enhanced hyperplastic growth, and suggest a regulatory role for the c-myc protooncogene in cardiac myogenesis.