Epidermal growth factor

Hepatocyte growth factor induces calcium mobilization and inositol phosphate production in rat hepatocytes

The effects of hepatocyte growth factor (HGF) on intracellular Ca2+ mobilization were studied using fura-2-loaded single rat hepatocytes. Hepatocytes microperfused with different amounts of HGF responded with a rapid concentration-dependent rise in the cytosolic free Ca2+ concentration with a maximum increase of 142% at 80 ng/ml of HGF. The lag period of the Ca2+ response was decreased with increasing HGF concentrations, being 64 +/- 12 s, 42 +/- 6 s, and 14 +/- 2 s, respectively, with 8, 20, and 80 ng/ml of HGF. The detailed pattern of Ca2+ transients, however, was variable. Out of 16 cells tested using 20 ng/ml of HGF, 68% showed sustained oscillatory responses, whereas other cells showed a sustained increase in the cytosolic-free Ca2+ upon exposure to HGF, which was dependent on the presence of extracellular Ca2+. HGF also induced Ca2+ entry across the plasma membrane. Mobilization of Ca2+ by HGF was accompanied by a rapid accumulation of inositol 1,4,5-trisphosphate (Ins 1,4,5-P3). The effects of HGF and epidermal growth factor (EGF) were comparable and partly additive for Ins 1,4,5-P3 production and for the sustained phase of Ca2+ mobilization. Preincubation of cells with 10 microM of genistein to inhibit protein tyrosine kinases abolished the HGF-induced Ca2+ response and also inhibited HGF-induced Ins 1,4,5-P3 production in rat liver cells. These data indicate that early events in the signal transduction pathways mediated by HGF and EGF have in common the requirements for tyrosine kinase activity, Ins 1,4,5-P3 production, and Ca2+ mobilization.

Quantitative determination of EGF-R during epidermal wound healing

Little is known about the intrinsic regulation of growth factors of cytokines during the normal epidermal wound-healing processes in skin. A simplified model of wounding (tape stripping to remove the stratum corneum) was used to study the role of epidermal growth factor receptors (EGF-R) in this process. Although the dynamics of EGF-R in epidermal wound healing have not been determined, the immunoreactive EGF-R that are present presumably play an active role. Prior studies show that 1) EGF-R are present in increased numbers in proliferative skin diseases; 2) a hypertrophic epidermis, closely resembling normal wound healing, is induced in mouse skin by EGF injections; and 3) exogenous topical EGF potentiates wound healing. The number of immunoreactive receptors as measured by an enzyme-linked immunosorbent assay (ELISA) and histologic methods increased prior to an increase in epidermal thickness, total protein, and DNA content. This early increase in the levels of EGF-R was followed by a sharp decline in EGF-R and subsequent decline in epidermal thickness (hypertrophy), total protein, and DNA levels. Alterations in the temporal sequence in these parameters indicate that the EGF-R-mediated signaling systems play an active role in epidermal wound repair.

Atypical receptor-mediated signal transduction events in the EGF-dependent growth-inhibited cell line, MDA-468

It is now generally considered that early signalling from tyrosine kinases that induce mitogenesis is initiated through the formation of heteromeric complexes consisting of the autophosphorylated tyrosine kinase and a number of tyrosylphosphorylated proteins, including phospholipase C-gamma (PLC-gamma) and GTPase activating protein (GAP). However, since much of this work has been performed on proliferative, chimeric cell lines expressing heterologous receptor molecules, we examined the nature of the epidermal growth factor receptor (EGFR) signalling complex formation in the human breast cancer cell line, MDA-468. This cell line has an amplified, native EGFR gene, correspondingly overexpresses the EGFR, and its growth in culture is inversely related to the EGF concentration. Our results indicate that in MDA-468 cells, both the EGFR and PLC-gamma are phosphorylated on tyrosine residues and can be co-immunoprecipitated. This occurs at both high and low EGF concentrations regardless of the proliferative endpoint. The molecular association is correlated with a significant increase in total inositol phosphates formed in response to the growth factor treatment. In contrast, however, there is no evidence that GAP is either phosphorylated on tyrosine residues or forms a complex with the activated EGFR in EGF-treated MDA-468 cells. These observations suggest that as a model for growth factor action, the formation of heteromeric protein signalling complexes may demonstrate considerable diversity depending upon both cell type and physiology.

Increased epidermal growth factor receptors in melanocytic lesions

BACKGROUND

Epidermal growth factor receptors (EGF/R) have been reported to be absent in melanomas or, in contrast, to be markers for potential malignancy in melanocytic lesions.

OBJECTIVE

Our purpose was to evaluate the literature discrepancies regarding the presence of EGF/R in melanocytic lesions and to determine whether EGF/R presence correlates with the potential for malignancy of melanocytic lesions.

METHODS

An EGF/R-specific polyclonal antibody was used to study melanomas, dysplastic nevi, congenital nevi, and nevocellular nevi.

RESULTS

All melanocytic cell types (nevus and melanoma cells) in the lesions studied had immunoreactive EGF/R. EGF/R immunoreactivity was also observed throughout the epidermal basal to granular cell layers overlying the melanocytic lesions, although dermal fibroblasts were negative.

CONCLUSION

The pattern of increased immunoreactive EGF/R in both benign and malignant nevocellular lesions suggests that although EGF/R are not a specific marker of potential malignancy in melanocytic lesions, they may mediate or coordinate growth of keratinocytes and nevus cells.

Mesoderm and jaw development in vertebrates: the role of growth factors

The head and neck arise during development as the result of a complex series of cellular and molecular interactions that begin in the fertilized egg. In this article, the role of an important class of molecules, growth factors, is examined in two main steps of the developmental sequence: the initial induction of mesoderm and the later induction of jaw cartilage and bone. The article focuses particularly on the roles of members of the transforming growth factor-beta (TGF-beta), fibroblast growth factor (FGF), and epithelial growth factor (EGF) families in these processes and current models of growth factor involvement. Possible experiments for the future are discussed.

Progressive abrogation of TGF-beta 1 and EGF growth control is associated with tumour progression in ras-transfected human keratinocytes

This study examined the response of human keratinocytes in different stages of transformation to exogenous TGF-beta 1 and EGF as well as their receptor and growth-factor expression. Cells of the spontaneously immortalized HaCaT cell line and c-Ha-ras transfected clones (I-6, I-7, II-3, II-4) exhibited different tumorigenic potentials when transplanted to athymic mice. HaCaT- and I-6 cells were non-tumorigenic, I-7 cells formed persisting epidermal cysts (benign tumours) and II-3 and II-4 cells developed into invasive squamous-cell carcinomas. TGF-beta 1 inhibited thymidine uptake in a dose-dependent manner, a progressive decrease in response being associated with an increasing malignant potential (HaCaT greater than I-6 greater than I-7 = II-4). HaCaT-cells and ras-clones expressed TGF-beta 1 mRNA at similar levels, but cells of increasing malignant potential secreted markedly less receptor-binding TGF-beta (HaCaT greater than I-6 = I-7 greater than II-3 greater than II-4) into the culture medium. Whilst ras-transfected cells expressed fewer TGF-beta receptors than HaCaT cells, there was little difference between TGF-beta receptor number or affinity between the 4 transfected cell clones. The same was true for the TGF-beta receptor types, but Type-II receptors were expressed at lower levels by the malignant clones II-3 and II-4. When HaCaT and ras-transfected cells were investigated for their response to exogenous EGF, cells were refractory (I-7, II-4), partially stimulated (I-6) or fully stimulated (HaCaT). Cells with increasing malignant potential produced increasing amounts of endogenous TGF-alpha (II-4 = II-3 greater than I-7 = I-6 greater than HaCaT). All tumorigenic ras clones expressed higher mRNA levels than HaCaT-cells. Ras-transfected clones expressed fewer high- and low-affinity EGF receptors than HaCaT cells with a tendency toward increased numbers of high-affinity EGF receptors associated with increasing malignant potential (II-4 = II-3 greater than I-7 greater than I-6) but these changes were associated with a progressive decrease in receptor affinity. The results indicate that tumour progression in human epidermal keratinocytes transfected with c-Ha-ras is associated with a progressive abrogation of TGF-beta 1 and EGF growth control. They suggest that the increased autonomous growth potential associated with advanced stages of epithelial tumour progression can be defined more closely using a cellular profile of TGF-beta and EGF.

Epidermal growth factor potentiates the transmitter-induced stimulation of C-AMP and inositol phosphates in human pigment epithelial cells in culture

Salbutamol, isoproterenol and dopamine stimulate C-AMP production in human retinal pigment epithelium (RPE) cells by activation of beta 2-type receptors. Epidermal growth factor (EGF) in contrast does not alter basal levels of C-AMP but elevates in an apparently dose-dependent manner the isoproterenol-induced stimulation of C-AMP. EGF also potentiates the forskolin-induced stimulation of C-AMP but has no effect on the elevation of C-AMP caused by NECA (5'-[N-ethyl]-carboxamido adenosine), an adenosine A2-receptor agonist. EGF, isoproterenol and NECA have no effect on basal levels of inositol phosphates (InsPs) in human RPE cells, but EGF specifically elevates the carbachol-induced stimulation of InsPs. The carbachol effect on InsPs is attenuated by the phorbol ester PMA (4 beta-phorbol 12 myrisate 13-acetate). PMA did not, however, affect the stimulation of C-AMP caused by isoproterenol. The interaction of EGF and C-AMP is further demonstrated in experiments where the incorporation of [3H]thymidine into RPE cells was studied, as an index for proliferation. EGF stimulates RPE cell proliferation while isoproterenol and dibutyryl C-AMP nullify the EGF effect. Dibutyryl C-AMP has a negative effect on RPE cell proliferation while isoproterenol is ineffective. The data presented here suggest that after stimulation of EGF receptors, tyrosine-kinase-activated products can influence secondary messenger products produced from activation of beta 2-type (linked with C-AMP formation) and muscarinic (linked with InsPs production) receptors in RPE cells. We could find no evidence of an interaction between receptors associated with C-AMP and InsPs/diacylglycerol production.

Signal transduction by the neu/erbB-2 receptor: a potential target for anti-tumor therapy

The neu/erbB-2 protooncogene encodes a transmembrane tyrosine kinase homologous to receptors for polypeptide growth factors. The oncogenic potential of the presumed receptor is released through multiple genetic mechanisms including a point mutation, truncation of non-catalytic sequences and overexpression. The latter mechanism appears to be relevant to human cancers as elevated expression of the neu/erbB-2 gene is frequently observed in solid tumors of various adenocarcinomas. It is therefore conceivable that strategies aimed at the biochemical mechanism of action of the neu/erbB-2 tyrosine kinase may contribute to the treatment of certain human cancers. To this aim we undertook a multiple research approach consisting of the following directions: (i) The neu/erbB-2 ligand--a systematic screening of potential biological sources of the hypothetical hormone molecule, that presumably binds to the neu/erbB-2 protein, resulted in detection of a candidate activity in the medium of certain cultured transformed cells. Partial purification indicated that the factor is a 30-35 kDa glycoprotein. Further studies revealed several biochemical characteristics of the factor that may be helpful for complete purification and structural analysis of this novel hormone. (ii) Signal transduction by neu/erbB-2--using a chimeric receptor approach and various mutants we found that all the oncogenic forms of the neu/erbB-2 are constitutively coupled, both physically and functionally, to a multi-protein complex of signaling molecules. The latter includes the phosphatidylinositol-specific phospholipase C gamma and a phosphatidylinositol kinase. Thus, the metabolism of inositol lipids is probably a major biochemical pathway utilized by the neu/erbB-2 tyrosine kinase. (iii) Tumor inhibitory antibodies--we generated a panel of monoclonal antibodies to the presumed receptor. Surprisingly, some antibodies almost completely inhibited the growth of tumor cells in athymic mice, whereas one antibody significantly accelerated the rate of tumor growth in animals. Interestingly, the inhibitory antibodies conferred a mature phenotype to cultured breast cancer cells, implicating terminal differentiation in tumor retardation.

Crystallization and preliminary characterization of three crystal forms of human recombinant transforming growth factor-alpha

Three crystal forms of human recombinant TGF-alpha have been grown from solutions containing 2-methyl-2,4-pentanediol. One of the forms belongs to the orthorhombic space group C222(1) and the other two belong to the monoclinic space group C2. Two of the crystal forms diffract to approximately 2.3 A Bragg spacings. X-ray diffraction data has been collected for all three forms. These data appear to be suitable for crystal structure determination, using either heavy atom isomorphous replacement methods or molecular replacement, for phase determination.

Interferon-dependent tyrosine phosphorylation of a latent cytoplasmic transcription factor

The interferon-alpha (IFN-alpha)-stimulated gene factor 3 (ISGF3), a transcriptional activator, contains three proteins, termed ISGF3 alpha proteins, that reside in the cell cytoplasm until they are activated in response to IFN-alpha. Treatment of cells with IFN-alpha caused these three proteins to be phosphorylated on tyrosine and to translocate to the cell nucleus where they stimulate transcription through binding to IFN-alpha-stimulated response elements in DNA. IFN-gamma, which activates transcription through a different receptor and different DNA binding sites, also caused tyrosine phosphorylation of one of these proteins. The ISGF3 alpha proteins may be substrates for one or more kinases activated by ligand binding to the cell surface and may link occupation of a specific polypeptide receptor with activation of transcription of a set of specific genes.

Synergistic actions of epidermal growth factor-urogastrone and vasopressin in cultured aortic A-10 smooth muscle cells

In cultured rat aorta-derived A-10 cells, epidermal growth factor-urogastrone (EGF-URO) acts synergistically with arginine vasopressin (AVP) to augment the AVP-mediated release of 3H-arachidonate (3H-AA) from 3H-AA prelabeled cells. On its own, EGF-URO had no effect on AA release and had no effect on calcium influx or efflux either in the absence or presence of AVP. The synergistic action of EGF-URO was not affected by actinomycin D, cycloheximide, indomethacin, by the diacylglycerol lipase inhibitor U-57,908, or by the tyrosine kinase inhibitors genistein (GS) and tyrphostin (TP). TP did, nonetheless, completely abrogate 3H-thymidine incorporation triggered in the presence of EGF-URO. Although EGF-URO stimulated an increase in calpactin-II (lipocortin-I) phosphorylation in permeabilized cells, no such increase was detected in intact cells exposed to EGF-URO either alone or in combination with AVP, under conditions where EGF-URO augmented the action of AVP. The phospholipase A2 inhibitor, mepacrine, had no effect on AVP-mediated AA release, but abolished the synergistic action of EGF-URO. We conclude that in contrast with our previous results with gastric smooth muscle strips, wherein EGF-URO acts via the diacylglycerol lipase-mediated metabolism of diacylglycerol, and in keeping with observations with cultured mesangial cells, EGF-URO acts synergistically with AVP in A-10 cells via the activation of phospholipase A2. This synergistic action of EGF-URO does not appear to be due to increased levels of cyclooxygenase and would appear not to require increased tyrosine kinase activity.

Deletion analysis of two tandemly arranged virulence genes in myxoma virus, M11L and myxoma growth factor

Myxoma virus (MYX) is a leporipoxvirus of rabbits that induces a lethal syndrome characterized by disseminated tumorlike lesions, generalized immunosuppression, and secondary gram-negative bacterial infection. A MYX deletion mutant (vMYX-GF- delta M11L) was constructed to remove the entire myxoma growth factor (MGF) coding sequence and that for the C-terminal five amino acids of the partially overlapping upstream gene, M11L. Unexpectedly, this deletion completely abrogates the capacity of MYX to cause the characteristic disease symptoms of myxomatosis. Upon inoculation of rabbits with vMYX-GF- delta M11L, recipient animals developed only a benign, localized nodule reminiscent of a Shope fibroma virus-induced tumor in which a single primary lesion appeared at the site of injection and then completely regressed within 14 days, leaving the animals resistant to challenge with wild-type MYX. No evidence of the purulent conjunctivitis and rhinitis that always accompany wild-type MYX infection was observed. To ascertain whether the attenuation observed in vMYX-GF- delta M11L was due to a combined effect of the MGF deletion and alteration of the upstream M11L gene, two additional MYX recombinants were constructed: an MGF- virus (vMYX-GF-) containing an intact M11L gene and an M11L- virus (vMYX-M11L-) containing an intact MGF gene. Infection with vMYX-GF- resulted in moderated symptoms of myxomatosis, but all clinical stages of the disease were still detectable. In contrast, disruption of M11L alone dramatically reduced the virus virulence, resulting in a nonlethal syndrome whose clinical course was nevertheless distinct from that of vMYX-GF- delta M11L. Upon inoculation with vMYX-M11L-, rabbits developed primary and secondary tumors which were larger and more circumscribed than those of wild-type MYX recipients. Whereas wild-type MYX infection always includes severe, purulent conjunctivitis and rhinitis, vMYX-M11L- recipients remained healthy and displayed only minimal signs of respiratory distress. By about 30 days after infection, the tumors induced by vMYX-M11L- had completely regressed and these animals were immune to challenge with wild-type MYX. Histological analysis indicated that tumors induced by vMYX-M11L- are much more heavily infiltrated with macrophages and heterophils and that the sites of viral replication are more edematous and necrotic than those of wild-type infection, suggesting that the host was able to mount a more vigorous inflammatory response to vMYX-M11L- infection.(ABSTRACT TRUNCATED AT 400 WORDS)

SH3--an abundant protein domain in search of a function

Src-homology 3 is a small protein domain of about 60 amino acid residues. It is probably made of beta-sheets. SH3 is present in a large number of eukaryotic proteins which are involved in signal transduction, cell polarization and membrane-cytoskeleton interactions. Here we review its occurrence and discuss possible functions of this domain.

Cloning and sequencing of the rat preproepidermal growth factor cDNA: comparison with mouse and human sequences

We have cloned and sequenced the cDNA corresponding to the rat preproepidermal growth factor (ppEGF) mRNA. The cDNA contained 4,801 nucleotides, similar to that reported for the mouse (4,749 nucleotides) and the human mRNAs (4,871 nucleotides). The predicted protein sequence would contain 1,133 amino acids, smaller than that reported for the mouse (1,217 amino acids) and the human sequences (1,207 amino acids). The results of the sequencing of several cDNA clones suggested the existence of more than one structural gene for ppEGF. In addition, there was an occurrence of alternative splicing events, resulting in deletions of entire exons from the mature mRNA. These alternative splicing events do not create frameshift mutations but cause a deletion of one or more of the "EGF-like" repeat units from the ppEGF. There is approximately the same homology between the rat and mouse amino acid sequences both in the EGF region and in the other regions of the ppEGF protein. We conclude that, because of this conservation of homology, there may be an important function performed by these other regions of the ppEGF besides their function as a precursor for the EGF protein.

Neu differentiation factor: a transmembrane glycoprotein containing an EGF domain and an immunoglobulin homology unit

We recently reported that a 44 kd glycoprotein secreted by transformed fibroblasts stimulates tyrosine phosphorylation of the product of the neu proto-oncogene and induces differentiation of mammary tumor cells to milk-producing, growth-arrested cells. A partial amino acid sequence of the protein, termed Neu differentiation factor (NDF), enabled cloning of the corresponding complementary DNA. The deduced structure of the precursor of NDF indicated that it is a transmembrane protein whose extracellular portion contains an EGF-like domain that probably functions as a receptor recognition site. In addition, the ectodomain contains one immunoglobulin homology unit. Despite the lack of a recognizable hydrophobic signal peptide at the N-terminus, a recombinant NDF, like the natural molecule, is released into the medium of transfected COS-7 cells in a biologically active form. Northern blot analysis indicated the existence of several NDF transcripts, the major ones being 1.8, 2.6, and 6.7 kb in size. Transformation by the ras oncogene dramatically elevated the expression of NDF in fibroblasts.

A sensitive and rapid in situ immunoassay to quantitatively determine the cellular antigens in intact cultured cells

A sensitive and rapid in situ immunoassay to quantitatively determine the cellular antigens in intact cells was developed. Antigens located in plasma membrane, endosome, cytosol, lysosome or endoplasmic reticulum of cultured cells were fixed in situ and reacted with monoclonal antibodies after permeabilization of cells with saponin. The antigen-antibody complexes were quantified by colorimetric method of peroxidase-substrate reaction. Epidermal growth factor receptor, monomer of pyruvate kinase M2 and the endoplasmic reticulum-associated thyroid hormone-binding protein were easily detected from 0.5-1 x 10(4) cells by this method. Antibody as low as 10 ng/ml gave reproducible results. Using this method, the in vivo dynamic interconversion of monomer-tetramer of pyruvate kinase M2 was found to be regulated by glucose. The ligand-induced epidermal growth factor receptor through different subcellular compartments during endocytosis was easily quantified by this method. This method was also used to compare the different amounts of the endoplasmic reticulum-associated thyroid hormone-binding protein in various cultured cells. Thus, the in situ immunoassay is an easy and versatile method which can be used to study various cellular antigens and their involvement in cellular processes.

Epidermal growth factor receptor: elements of intracellular communication

While EGF has an important function in cell growth regulation, the molecular mechanisms by which intracellular signal connect the EGF: receptor complex on the plasma membrane with the initiation of DNA synthesis and mitogenesis is not well understood. The discovery that rasGAP, PI-3 kinase and PLC-gamma 1 are substrates for the EGF receptor tyrosine kinase has provided a beginning in understanding the biochemistry underlying growth factor receptor transduction.

Ligand-induced functions of the epidermal growth factor receptor require the positively charged region asymmetrically distributed across plasma membrane

Many plasma membrane proteins, including the epidermal growth factor (EGF) receptor, possess basic regions on the cytoplasmic surface of the membrane. To examine the function of these positively charged regions, we constructed mutated EGF receptor genes lacking this region by substitution of the basic amino acid residues with 3 approximately 8 neutral Asn residues, or by their complete deletion. There was no significant difference in the affinities for EGF of the wild-type and mutant receptors which are produced in rodent fibroblasts through transfection. However, EGF-induced tyrosine phosphorylation of the receptor was strongly inhibited by removal of the 3 approximately 8 positively charged residues. On addition of EGF, cells expressing the mutant EGF receptors did not show morphological changes, whereas cells expressing the wild-type receptor did. These findings suggest that the positively charged regions of membrane proteins that are asymmetrically distributed on the cytoplasmic surface of the membrane may be required for the functions of membrane proteins in general.

Signal transmission by epidermal growth factor receptor: coincidence of activation and dimerization

Dimerization of epidermal growth factor receptor dissolved in a solution of nonionic detergent was followed with a resolution of 1 min by quantitative cross-linking with glutaraldehyde. Upon addition of epidermal growth factor to the solution, the initially monomeric protein dimerized in a reaction that was second-order in the concentration of receptor. A second-order rate constant, on the basis of enzymatic activity as a measure of the concentration of functional receptor, was calculated from time courses of dimerization at various initial concentrations of receptor. The activation of the protein tyrosine kinase of the receptor was monitored directly under the same conditions with an exogenous substrate. The increase in tyrosine kinase activity displayed kinetics that were also second-order in the concentration of receptor. A second-order rate constant for the activation of the tyrosine kinase could be calculated from the time courses. The second-order rate constant for the activation of the tyrosine kinase by epidermal growth factor was indistinguishable from the second-order rate constant for the dimerization induced by epidermal growth factor. Therefore, dimerization of epidermal growth factor receptor and activation of its tyrosine kinase are coincident events, both initiated by the binding of epidermal growth factor.

Recognition of an antiparallel beta-sheet structure of human epidermal growth factor by its receptor. Site-directed mutagenesis studies of Ala-30 and Asn-32

The Ala-30 and Asn-32 residues involved in the major antiparallel beta-sheet structure of human epidermal growth factor (hEGF) were substituted with various amino acid residues, and the receptor-binding affinities of the nine variant hEGFs were determined by the use of human KB cells. The Ala-30----Arg, Ala-30----His and Ala-30----Phe substitutions drastically reduced the binding affinity, suggesting that the side chain in position 30 of Ala-30 of hEGF is required to be small for the receptor binding. The Asn-32----Asp substitution significantly reduced the binding affinity, while the Asn-32----His variant could bind to the receptor as well as to the wild-type hEGF. Therefore, it seems to be important for receptor binding that the side chain in position 32 does not have a negative charge but does have an NH group. Thus, we propose that, in the ligand-receptor complex, the receptor recognizes, on one side of the antiparallel beta-sheet structure of hEGF, a wider contact area than previously suggested.

Isolation of the neu/HER-2 stimulatory ligand: a 44 kd glycoprotein that induces differentiation of mammary tumor cells

The neu/HER-2 proto-oncogene (also called erbB-2) encodes a transmembrane glycoprotein related to the epidermal growth factor receptor. We have purified to homogeneity a 44 kd glycoprotein from the medium of ras-transformed cells that stimulates phosphorylation of the Neu protein and retains activity after elution from the polyacrylamide gel. The protein is active at picomolar concentrations and displays a novel N-terminal sequence. Cross-linking experiments with radiolabeled p44 result in specific labeling of Neu, indicating that p44 is a ligand for Neu or a related receptor. The purified protein induces phenotypic differentiation of cultured human breast cancer cells, including altered morphology and synthesis of milk components. This is accompanied by an increase in nuclear area, inhibition of cell growth (probably by cell cycle arrest at the late S or the G2/M phases), and induction of DNA polyploidy. We propose the name Neu differentiation factor (NDF) for p44.

A site-directed mutagenesis study on the role of isoleucine-23 of human epidermal growth factor in the receptor binding

The isoleucine-23 residue of human epidermal growth factor (hEGF) was substituted by a variety of amino acid residues and the receptor-binding activities of variant hEGFs were determined by the use of human KB cell. Tight receptor binding was found of variants with hydrophobic amino acid residues in position 23. The size of the isoleucine residue was nearly optimum for the receptor binding as compared with other hydrophobic residues. The structure analysis by two-dimensional nuclear magnetic resonance spectroscopy showed that the substitution at position 23 only slightly affected the tertiary structure of hEGF. These indicate that the side chain of isoleucine residue in position 23, which is exposed on the protein surface, directly binds to a hydrophobic pocket of the receptor.

Amino acid uptake regulation by cell growth in cultured hepatocytes isolated from fetal and adult rats

Amino acid uptake mediated by system A was studied in cultured fetal and adult hepatocytes, subjected to growth stimulation by EGF and insulin, or to growth inhibition by high cell density. The mitogenic stimulation induced a strong transport increase only in fetal cells, while the cell density-dependent growth inhibition, probably mediated by molecules present on adult hepatocyte membranes, provoked the decrease of amino acid uptake only in the adult cells. The results indicate that the different modulation of amino acid transport by cell growth is dependent on the age and the differentiation stage of hepatocytes.

New concepts in ovarian regulation: an immune insight

The purpose of the ovary is to produce eggs. In the human, oocyte production occurs cyclically at monthly intervals. The control of egg production is provided by both the endocrine and immune systems. Successful oocyte production is the result of sophisticated communication between the two systems. These interactions allow adaptive processes necessary for continuation of the species.

Intercellular communication and cell-cell adhesion

In developmental biology, binary cell-cell interactions often determine the fate of one or both cell partners. The two cells must adhere to one another to allow chemical signals to be transmitted in one or both directions across the regions of cell-cell contact. The molecular mechanisms of cell-cell adhesion and intercellular communication, even if they are mediated by different cell surface components, may be functionally integrated in several different ways. Studies of helper T cells with antigen-presenting B cells in culture have illuminated such binary interactions. The possible application of similar mechanisms to other binary developmental systems is briefly explored.

Modulation of epidermal growth factor receptors in psoriatic lesions during treatment with topical EGF

Active psoriatic lesions have increased EGF/TGF alpha receptors, historically known as the EGF-R. This increase is due to their persistence into the outer parakeratotic layers as measured by autoradiography, immunohistochemistry, and mRNA assays. When psoriatic lesions in patients resolve due to therapy with different modalities, the EGF-R persistently expressed in the outer layers of the epidermis either disappear or resume a basal location presumably due to receptor downregulation. To test whether EGF could downregulate EGF-R and biologically affect psoriatic epidermis, split-thickness skin grafts of active psoriatic lesions were sutured onto the dorsal surface of nude mice. After 3 weeks, the mice were treated daily for a 6-week period with placebo, or 10 or 50 micrograms/ml EGF. Immunostaining showed persistent EGF-R in all epidermal layers in the untreated, placebo-, and 10 micrograms/ml EGF-treated groups. Those grafts receiving a high dose of EGF (50 micrograms/ml) showed either no immunoreactive EGF-R or faint basilar staining. As an additional check for functional activity of the EGF-R, an abundant substrate for this receptor, PLC-gamma 1 was also evaluated following EGF treatment. A similar distribution and modulation pattern following treatment were observed in the grafts immunostained for PLC-gamma 1, suggesting that exogenous EGF treatment affected metabolic pathways subsequent to ligand receptor binding. Morphologic alterations characteristic of a regressing psoriatic phenotype (a decrease in acanthosis, thickness, and the resumption of the orthokeratotic mode of differentiation) were noted in those lesions receiving the 50 micrograms/ml EGF treatment. This study indicates that persistent EGF-R in psoriasis vulgaris are biologically active in vivo and may serve a pivotal role in the regulation of psoriatic lesions.

The epidermal growth factor receptor is associated with actin filaments

In this paper we describe our investigations on the association of receptors for the epidermal growth factor (EGF) with the cytoskeleton of A431 cells. In order to determine which filamentous system the EGF receptors are associated to, the cytoskeletal fraction to which these receptors bind was isolated. Second, the possible colocalization of EGF receptors with different cytoskeletal elements was examined in A431 cells. By selective extractions of the A431 cytoskeletons, it is shown that more than 90% of the cytoskeleton-associated EGF receptors are removed from the cytoskeletons together with the actin filamentous system. During several cycles of poly- and depolymerization of actin isolated from A431 cells, the EGF receptor precipitates together with the actin containing filaments, indicating that EGF receptors are able to bind in vitro to actin filaments. With immunofluorescence studies we show that EGF receptors especially colocalize with actin filaments. These results demonstrate that the EGF receptor is associated specifically with actin filaments in A431 cells.

Two currents activated by epidermal growth factor in EGFR-T17 fibroblasts

Application of 10 nM Epidermal Growth Factor (EGF) to single EGFR-T17 fibroblasts induced a marked hyperpolarization that could last for tens of minutes; in many cases the first transient was followed by a series of oscillations of the membrane potential. The outward current responsible for the hyperpolarizing response could be recorded simultaneously to an increase in the intracellular calcium concentration, as measured with the fluorescent indicator fura-2. The conductance was nearly linear in the voltage range from -100 to +50 mV. While the EGF-induced current had many characteristics of a K+ current and was strongly reduced by 50 nM charybdotoxin (ChTx), its reversal potential was apparently more negative than the potassium equilibrium potential (VK). The application of 2 microM ouabain prior to EGF stimulation produced responses that were similar to those obtained without ouabain; however, under these conditions the EGF-induced current showed a reversal potential of -96.6 +/- 3.2 mV, very close to VK. Simultaneous application of both 2 microM ouabain and 50 nM ChTx completely abolished the response. It can be concluded that the response to EGF stimulation in EGFR-T17 cells consists of two components: the first is a current carried through Ca(2+)-activated K+ channels; the second is due to the acceleration of the operation of the Na+/K(+)-ATPase.

The insulin-like growth factor family of ligands, receptors, and binding proteins

The insulin-like growth factors (IGFs) have important roles in normal cellular growth and development. The IGFs have also been implicated in regulation of tumor cell growth. Two ligands, IGF-I and IGF-II, have been identified that are expressed in both fetal and adult tissues. They interact with at least two specific cell surface receptors. The type I IGF receptor is homologous to the insulin receptor in structure and has tyrosine kinase activity. The type II receptor is identical to the mannose-6-phosphate receptor known to be important in the trafficking of lysosomal enzymes; its role in IGF signal transduction is not clear. Furthermore, a hybrid receptor composed of subunits from the insulin receptor and the type I IGF receptor have been identified. In addition to these receptors, six different IGF binding proteins have been identified, which modulate the activity of the IGFs in various ways. Thus, there is great potential for complex interactions between the family members that could ultimately regulate normal and neoplastic cell growth.

Epidermal growth factor receptor mRNA and protein increase after the four-cell preimplantation stage in murine development

Epidermal growth factor receptors (EGF-Rs) are expressed at increasing levels on mouse preimplantation embryos. Immunofluorescence assays were used to show that unfertilized eggs and 2-cell embryos have a very low level of reactivity to antimouse EGF-R antibodies, but by the 4-cell stage and later the reactivity increases. The synthesis of EGF-R protein was verified at the blastocyst stage by immunoprecipitation of a 170-kDa metabolically labeled protein. The EGF-R protein is expressed on cell plasma membrane surfaces, but after compaction at the 8-cell stage concentrates on the apical cell surfaces. We also find a low level of expression of EGF-R protein on inner cell mass cells; thus, all cell lineages express receptors from the beginning of gestation. The receptor protein synthesized by the 8-cell embryo and later is probably translated from embryonic transcription, since reverse transcription-polymerase chain reaction indicates increasing levels of mRNA starting after the 4-cell stage. However, we also detected maternal mRNA in zygotes and 2-cell embryos. The pervasive nature of EGF-R expression throughout development suggests important roles for these receptors which could include autocrine and paracrine stimulation.

Appearance of exogenous epidermal growth factor in liver, bile, and intestinal lumen of suckling rats

This study was performed to investigate the distribution and the degradation of IV administered [125I]rat epidermal growth factor (rEGF) in the liver and gastrointestinal tract of suckling rats. The bile duct of anesthetized rats was cannulated, and [125I]rEGF was injected (with or without 2500-fold excess unlabeled rEGF) into the femoral vein. After 5, 30, 60, and 120 minutes, the radioactivity in the liver, stomach, small intestine, blood, kidney, bile, and luminal contents of the stomach and small intestine was measured. The extracted radioactivity was then analyzed by immunoaffinity chromatography and binding to EGF-specific receptors. High levels of radioactivity were found in the liver (57% of total administered) and small intestine (10%) at 5 minutes, which gradually decreased. On the contrary, radioactivity secreted in the bile and luminal contents of the small intestine increased with time. The radioactivity in the bile represented 2.4% and 4.5% of the total administered at 60 and 120 minutes, respectively. During the first 60 minutes, more than 90% of the radioactivity in the liver, small intestine, bile, and intestinal contents was immunoreactive. Thirty-four to seventy percent of the radio-activity in the bile and liver and 20%-41% of radioactivity in the small intestinal wall and contents were capable of binding to EGF-specific receptors. Radioactivity detected in the liver, bile, small intestine, and intestinal contents was profoundly reduced by the coinjection excess of unlabeled EGF. These studies show that IV administered [125I]rEGF is rapidly taken up by the liver and the gastrointestinal tract and secreted into the bile and intestinal luminal contents of suckling rats in form(s) capable of binding to anti-EGF antibody and EGF-specific receptors. The uptake and secretion by the liver and the small intestine appear to be receptor mediated.

Insulin Signal Transduction: The Role of Protein Phosphorylation

Recent evidence suggests that the mechanism of insulin action depends in part on protein phosphorylation on tyrosine residues. A cascade of phosphorylation/dephosphorylation reactions is proposed to modulate multiple enzymes involved in metabolism, protein synthesis, and cell growth. Direct evidence is presented for the phosphorylation of myelin basic protein and microtubule-associated protein 2 on tyrosine residues by the insulin receptor.

Membrane biochemistry and chemical hepatocarcinogenesis

Biochemical membrane alterations appearing during the process of chemical carcinogenesis are described. Emphasis is put on membrane composition, structure, and biogenesis. In this presentation the knowledge gained from experimental studies of liver and skin in the process of cancer development is acknowledged. Important biochemical changes have been reported in lipid composition, fatty acid saturation, constitutional enzyme expression, receptor turnover and oligomerization. Functional consequences of the altered membrane structure is discussed within the concepts of regulation of cell proliferation, regulation of membrane receptor expression, redox control, signal transduction, drug metabolism, and multidrug resistance. Data from malignant tumours and normal tissue are addressed to evaluate the importance of the alterations for the process and for the eventual malignant transformation.

Hepatic insulin and EGF receptor phosphorylation and dephosphorylation in fetal rats

Hepatic insulin receptor and epidermal growth factor (EGF) receptor phosphorylation and dephosphorylation were studied in normal and growth-retarded fetal rats. Insulin receptor autophosphorylation at a subsaturating ATP concentration (0.5 microM) increased by 10-fold from day 17 to 21 of gestation and decreased by 50% in term growth-retarded fetuses of fasted mothers. In vitro kinase activation at 0.5 mM ATP did not change with gestation or maternal fasting. EGF receptor autophosphorylation increased in parallel with receptor number with advancing gestation and did not change with maternal fasting. Protein tyrosine phosphatases (PTPases), which might attenuate receptor signaling in livers from growth-retarded fetuses, were measured using polybasic and polyacidic artificial substrates as well as the insulin receptor kinase domain. Fetal membrane PTPase activities were twofold higher than in the adult and declined with advancing gestation. However, activities were similar in normal and growth-retarded fetuses. We conclude that decreased hepatic growth in growth-retarded fetuses may involve decreased insulin receptor tyrosine kinase activation in vivo, as indicated by diminished receptor autophosphorylation at subsaturating ATP concentrations. Changes in EGF receptor kinase activity and PTPases could not be implicated based on our in vitro findings.