Cell cycle dependent growth factor regulation of gene expression

The expression of the proto-oncogenes c-fos and c-myc is a rapid response of G0-arrested fibroblasts to serum and peptide growth factors; however, the role of the c-fos and c-myc gene products in subsequent cell cycle transit is not understood. We examined the expression of c-fos and c-myc mRNA in Balb/c 3T3 murine fibroblasts in response to platelet-derived growth factor (PDGF) and platelet-poor plasma, using arrest points associated with density dependent growth inhibition or metabolic inhibition to synchronize cells in S phase of the cell cycle. The expression of c-fos and c-myc mRNA in Balb/c 3T3 cells was differentially regulated with respect to growth factor dependence and cell cycle dependence. c-fos expression was induced in the presence of PDGF and was unaffected by plasma. The induction of c-fos expression in response to PDGF was cell cycle independent, occurring in cells transiting S phase and G2 as well as in G0 arrest. In contrast, c-myc expression was both growth factor and cell cycle dependent. In G0 arrested cells, c-myc expression was PDGF-dependent and plasma-independent, and PDGF was required for maintenance of elevated c-myc levels during G1 transit. In cells transiting S phase, c-myc mRNA was induced in response to PDGF, but was also plasma-dependent in S phase cells that had been "primed" by exposure to PDGF during S phase.     

Epidermal growth factor in the rat lung

Summary Epidermal Growth Factor (EGF) in pharmacological doses is able to induce precoccious lung maturation in rabbits and sheeps. As EGF is probably acting in a para- or autocrine way, we have searched for EGF in the lungs.We report EGF immunoreactivity to be present in the type II pneumocytes of the rat from a couple of days prior to birth and throughout life. Further, we report EGF immunoreactivity to be present in cells in the bronchi and the bronchioles from day 20–21 of gestation and throughout life. G-200 gelchromatography of lung extracts indicates that the EGF-reactive material is a high molecular weight form of EGF.Since previous studies have shown that EGF in pharmacological doses is able to promote lung maturation, our results may imply a physiological role for EGF in the lungs.     

Epidermal growth factor in the rat lung

Epidermal Growth Factor (EGF) in pharmacological doses is able to induce precoccious lung maturation in rabbits and sheeps. As EGF is probably acting in a para- or autocrine way, we have searched for EGF in the lungs. We report EGF immunoreactivity to be present in the type II pneumocytes of the rat from a couple of days prior to birth and throughout life. Further, we report EGF immunoreactivity to be present in cells in the bronchi and the bronchioles from day 20-21 of gestation and throughout life. G-200 gelchromatography of lung extracts indicates that the EGF-reactive material is a high molecular weight form of EGF. Since previous studies have shown that EGF in pharmacological doses is able to promote lung maturation, our results may imply a physiological role for EGF in the lungs.     

Epidermal growth factor reactivity in rat milk

The concentration of EGF immunoreactivity in rat whey increases from 0.3 pmol/ml at lactation day 1 to 2.0 pmol/ml at lactation day 19. The concentration of EGF is not influenced when the rats undergo sialoadenectomy prior to mating. On S-200 gel chromatography, almost all EGF-reactivity in rat whey elutes as a broad peak corresponding to a Stokes radius of 4.0 nm (an approximate molecular weight of 80 kDa). Almost no 6 kDa EGF is present. Judged by gel filtration of whey pre-incubated with 125I-EGF (6 kDa), no binding protein for EGF is present in rat whey. When rat milk is incubated overnight at 37 degrees C, the 80 kDa EGF is degraded and elutes as a peak with a Stokes radius of 2.7 nm, corresponding to a molecular weight of approximately 35 kDa EGF and as a peak corresponding to 6 kDa EGF. Also, after partial purification by immuno-affinity chromatography, the EGF-reactive material in rat whey behaves as a peptide with a Stokes radius of 2.7 nm, corresponding to a molecular weight of approximately 35 kDa at gel filtration. Comparative binding studies between EGF purified from the submandibular glands and the EGF purified from rat whey confirm differences in the binding to antibodies raised against submandibular EGF, but not in binding to the EGF-receptor. Our results make it unlikely that EGF in rat whey is derived from the submandibular glands.     

Concentration-dependent regulation of neuronal gene expression by nerve growth factor

NGF is a neurotrophic protein that promotes the survival, growth, and differentiation of developing sympathetic neurons. To directly determine the effects of different concentrations of NGF on neuronal gene expression, we examined mRNAs encoding the p75 low-affinity NGF (LNGF) receptor, T alpha 1 alpha-tubulin (T alpha 1), and tyrosine hydroxylase (TH) in pure cultures of rat sympathetic neurons from postnatal day 1 superior cervical ganglia. Studies of the timecourse of gene expression during 2 wk in culture indicated that a 5-d incubation period would be optimal for the concentration-effect studies. Analysis of RNA isolated from neurons cultured in 2-200 ng/ml 2.5S NGF for 5 d revealed that, as the NGF concentration increased, neurons expressed correspondingly increased levels of all three mRNAs. Both LNGF receptor and TH mRNAs increased seven-fold, and T alpha 1 mRNA increased four-fold in neurons cultured in 200 versus 10 ng/ml NGF. In contrast, T26 alpha-tubulin mRNA, which is constitutively expressed, did not alter as a function of NGF concentration. When neurons were initially cultured in 10 ng/ml NGF for 5 d, and then 200 ng/ml NGF was added, LNGF receptor, T alpha 1, and TH mRNAs all increased within 48 h. The timecourse of induction differed: T alpha 1 mRNA was maximal by 5 h, whereas LNGF receptor and TH mRNAs first began to increase at 12 h after the NGF increase. These experiments show that NGF regulates expression of a subset of mRNAs important to neuronal growth and differentiation over a broad concentration range, suggesting that the effects of NGF may be mediated by more than just a single receptor operating at one fixed affinity. These results also suggest a mechanism for coupling neuronal synthesis of axonal proteins to increases in size of the innervated target territory during growth of the organism.     

NHE2 contains subdomains in the COOH terminus for growth factor and protein kinase regulation

The cloned epithelial cell-specificNa⁺/H⁺exchanger (NHE) isoform NHE2 is stimulated by fibroblast growth factor(FGF), phorbol 12-myristate 13-acetate (PMA), okadaic acid (OA), andfetal bovine serum (FBS) through a change in maximal velocity of thetransporter. In the present study, we used COOH-terminal truncationmutants to delineate specific domains in the COOH terminus of NHE2 that are responsible for growth factor and/or protein kinase regulation. Five truncation mutants (designated by the amino acid number at thetruncation site) were stably expressed in NHE-deficient PS120 fibroblasts. The effects of PMA, FGF, OA, FBS, and W-13 [aCa²⁺/calmodulin (CaM)inhibitor] were studied. Truncation mutant E2/660, but notE2/573, was stimulated by PMA. OA stimulated E2/573 but not E2/540. FGFstimulated E2/540 but not E2/499. The most truncated mutant, E2/499,was stimulated by FBS. W-13 stimulated the basal activity of thewild-type NHE2. However, W-13 had no effect on E2/755. By monitoringthe emission spectra of dansylated CaM fluorescence, we showed thatdansylated CaM bound directly to a purified fusion protein ofglutathione S-transferase and the last87 amino acids of NHE2 in aCa²⁺-dependent manner, with astoichiometry of 1:1 and a dissociation constant of 300 nM. Our results showed that the COOH terminus of NHE2 is organized intoseparate stimulatory and inhibitory growth factor/protein kinaseregulatory subdomains. This organization of growth factor/proteinkinase regulatory subdomains is very similar to that of NHE3,suggesting that the tertiary structures of the putative COOH termini ofNHE2 and NHE3 are very similar despite the minimal amino acid identityin this part of the two proteins.     

Epidermal growth factor regulation in adult rat alveolar type II cells of amiloride-sensitive cation channels

Using the patch-clamp technique, we studied the effects ofepidermal growth factor (EGF) on whole cell and single channel currentsin adult rat alveolar epithelial type II cells in primary culture inthe presence or absence of EGF for 48 h. In symmetrical sodiumisethionate solutions, EGF exposure caused a significant increase inthe type II cell whole cell conductance. Amiloride (10 µM) produced ~20-30% inhibition of the wholecell conductance in both the presence and absence of EGF, such that EGFcaused the magnitude of the amiloride-sensitive component to more than double. Northern analysis showed that -, - and -subunits of rat epithelial Na⁺ channel (rENaC)steady-state mRNA levels were all significantly decreased by EGF. Atthe single channel level, all active inside-out patches demonstratedonly 25-pS channels that were amiloride sensitive and relativelynonselective for cations(P_Na⁺/P_K⁺  1.0:0.48). Although the biophysical characteristics (conductance, open-state probability, and selectivity) of the channels from EGF-treated and untreated cells were essentially identical, channel density was increased by EGF; the modal channel per patch was increasedfrom 1 to 2. These findings indicate that EGF increases expression ofnonselective, amiloride-sensitive cation channels in adult alveolarepithelial type II cells. The contribution of rENaC to the totalEGF-dependent cation current under these conditions is quantitativelyless important than that of the nonselective cation channels in these cells.

     

Epidermal growth factor receptor expression in human gliomas

Summary The expression of epidermal growth factor receptor (EGFR) was determined in cryosections of 42 human gliomas using biotinylated epidermal growth factor (B-EGF) and two monoclonal antibodies (mAb) against EGFR. All gliomas were found to express EGFR when examined with B-EGF, whereas 33 expressed EGFR when examined with the two mAbs. The highly malignant gliomas (glioblastomas and anaplastic astrocytomas) had a more heterogeneous staining pattern and a larger proportion of tumour cells staining strongly with B-EGF than did the low-grade gliomas (astrocytomas, oligodendrogliomas, mixed gliomas, and ependymomas). This indicates that high-grade gliomas contain more tumour cells rich in EGFR than do the low-grade gliomas. Reactive astrocytes, ependymal cells, and many types of nerve cells (cerebral cortical pyramidal cells, pyramidal and granular hippocampal cells, Purkinje cells, cerebellar granular cells and neurons in the molecular layer of the cerebellum) expressed EGFR, whereas small neurons and normal glial cells were not found to express EGFR.     

Epidermal growth factor dependence and TGF alpha autocrine growth regulation in primary rat tracheal epithelial cells.

We have examined dependence of primary rat tracheal epithelial (RTE) on exogenous epidermal growth factor (EGF) and determined whether a TGF alpha autocrine pathway is operating in these cells. Primary RTE cells plated in serum free media (SFM) without EGF and bovine pituitary factor (BPE) show little proliferation compared to cultures propagated in media containing EGF/BPE (CSFM). Removal of EGF/BPE shortly after plating, however, results in significant proliferation, although plateau cell densities are reduced and cell morphology is significantly altered compared to cells propagated in CSFM. Addition of EGF and/or BPE to cultures propagated in SFM minus EGF/BPE restores maximum cell density. The concentration of TGF alpha peptide in media conditioned by cells propagated without EGF/BPE is lower than the concentration in the media of CSFM cultures. TGF alpha mRNA and protein levels are also significantly lower in cells late in culture compared to logarithmically growing cells regardless of the presence or absence of EGF/BPE. The proliferation of primary RTE cells propagated without EGF/BPE is inhibited by neutralizing TGF alpha antiserum and by a tyrphostin compound that blocks TGF alpha/EGF receptor tyrosine kinase activity. These results indicate that primary RTE cells utilize TGF alpha as an autocrine growth factor and that the autocrine pathway is regulated as a function of growth state of the cells. However, this pathway does not provide growth autonomy to primary RTE cells, since cultures remain dependent on exogenous EGF/BPE for sustained proliferation.     

Dynamic regulation of fibroblast growth factor 2 (FGF-2) gene expression in the rat brain following single and repeated cocaine administration

Administration of drugs of abuse can produce long-lasting effects on brain function, which involve modifications at neurotransmitter level as well as changes in proteins important for structural alterations of selected brain regions. The contribution of trophic factors in these events has so far been underestimated. Here, we demonstrate that a single cocaine injection selectively up-regulated fibroblast growth factor 2 (FGF-2) mRNA levels in the striatum and prefrontal cortex within 2 h, an effect that vanished by 24 h. However, prolonged exposure (5 or 14 days) to cocaine treatment produced an enduring elevation of FGF-2 mRNA levels that was evident 72 h after the last injection in the prefrontal cortex and could even persist for 14 days in the striatum, raising the possibility that cocaine treatment primes the brain, resulting in longer-lasting FGF-2 up-regulation in regions that are highly innervated by dopaminergic projections. The expression of FGF-2 was also significantly increased in the midbrain following acute or 5-day injection, suggesting that modulation of FGF-2 biosynthesis in dopamine-producing cells occurs only during early stages of cocaine exposure. Our results point to important mechanistic conclusions as to how cocaine alters FGF-2 expression. Whereas cocaine-induced changes in FGF-2 gene expression following a single injection could be ascribed to increased release of transmitters (mainly dopamine), enhanced FGF-2 gene expression following repeated administration identifies the trophic factor as part of the adaptive changes set in motion by cocaine.     

Epidermal growth factor receptors

EGF-Rs are cell membrane glycoproteins of wide distribution. They have not yet been fully characterized or purified but are probably molecules of 170-190,000 mol. wt. in most cells. The growth factor EGF binds and will saturate cell surface receptors with a KA of about 5 X 10(9) M-1 although a receptor class with an affinity in excess of 10(10) M-1 has been detected in some cells. The number of receptors on a cell does not determine the level of its response. Some cell types have receptors which bind EGF, but with no mitogenic response. The ways in which receptor affinity and/or number is modulated are described. This and other evidence is reviewed in a search for a suitable model of a mechanism of action on the cell, which best fits the current data. There is ample evidence that EGF binds to the receptor; that ligand-receptor complexes cluster or aggregate; and then are internalized and degraded, but evidence for a direct connection between internalization and the subsequent mitogenic response is lacking. Good correlations between internalization and mitogenic responses have been observed and developed into a theory of endocytic activation, but there is a body of evidence which cannot be accommodated by this theory. Instead, an alternative model is suggested.     

Epidermal growth factor stimulates phospholipase A2 in vasopressin-treated rat glomerular mesangial cells.

Epidermal growth factor (EGF) enhances vasopressin- and ionophore-A23187-induced prostaglandin production and arachidonate release by rat glomerular mesangial cells in culture. The purpose of the present study was to delineate the phospholipid pathways involved in this effect. In cells labelled with [14C]arachidonate, EGF significantly enhanced the free arachidonate released in response to A23187 or vasopressin without enhancing the production of [14C]arachidonate-labelled diacylglycerol. EGF increased the [14C]arachidonate-labelled phosphatidic acid formed in response to vasopressin, but to a much smaller extent than it increased free arachidonate release. These results indicate that activation of phospholipase C is not sufficient to explain the increase in free arachidonate release observed on addition of EGF. To examine if EGF enhanced phospholipase A2 activity, mesangial cells were labelled with [2-2H]glycerol and [14C]-arachidonate, and the formation of arachidonate-poor lysophospholipids was studied. When combined with vasopressin, EGF significantly enhanced the formation of arachidonate-poor lysophospholipids as compared with vasopressin alone. The fate of exogenously added lysophosphatidylcholine was not altered after stimulation with vasopressin plus EGF, indicating that decreased deacylation or reacylation of the lysophospholipids was not responsible for their accumulation. Taken together, these results indicate that EGF enhances free arachidonate release by activation of phospholipase A2. The signalling mechanism responsible for the change in phospholipase A2 activity is not known, but could conceivably involve phosphorylation of modulating proteins such as lipocortin or G-proteins.