Regulation of polyamine synthesis and transport by retinoic acid and epidermal growth factor in cultured adult rat type II pneumocytes

During injury of lung epithelial cells, the type II pneumocyte proliferates and differentiates into a type I pneumocyte to restore the epithelium. Polyamines, which constitute a family of small organic polycations, are required for this process of cell repair. Because retinoic acid (RA) and epidermal growth factor (EGF) also are involved, the purpose of this research was to determine their effect on polyamine transport and synthesis in cultured type II pneumocytes. Rat type II pneumocytes were isolated, cultured overnight, and treated with RA and/or EGF for 24 hours. Polyamine transport was determined by [(3)H]spermidine uptake, and polyamine synthesis was assessed by the activity of the initial rate-limiting enzyme ornithine decarboxylase. EGF (100 ng/mL) significantly increased spermidine transport, but RA did not. At low concentrations of spermidine (2 microM), the combined effect of RA and EGF on spermidine transport was additive. Both EGF (25 ng/mL) and RA (1 microM) increased polyamine synthesis, and cotreatment resulted in an additive effect (a fourfold increase over the control). We also found that ornithine decarboxylase activity is greatly diminished in the presence of tyrphostin B56, which is a specific inhibitor for the tyrosine kinase of the EGF receptor, suggesting that polyamine synthesis within the type II pneumocyte may depend on activation of tyrosine kinase of the EGF receptor. These results indicate that RA and EGF increase the availability of polyamines, which may be important in the lung cell repair process.     

Use of the oblique illumination method for characterizing N. meningitidis cultures]

The authors used the method of oblique illumination for detection of the state of the population of meningococcus cultures. In studying 48 strains there were revealed three types of fluorescence of the colonies: bright orange with a transition into greenish-light blue along the lower margin (the I type), bright light blue with a narrow orange or green upper margin (the II type) and greyish-light blue colonies (the III type). The type of fluorescence was not associated with the sero-group specificity. Populations of meningococcus cultures, depending on conditions and duration of growth on the nutrient medium could consist both of the colonies with the same type of fluorescence, and also represent a combination of colonies with a different type of fluorescence. The colonies of the I and II types of fluorescence had marked group specificity, but mutation occurred during passage and the III type of fluorescence formed with a loss of serological specificity. Continuous selection of the colonies of the I and the II types of fluorescence permitted to preserve the population with specific properties necessary for production of diagnostic and vaccine preparations for a long time.     

Immunocytochemical study of collagen in epidermal growth factor (EGF)-treated osteoblastic cells

The alteration of collagen components in clone MC3T3-E1 cells by epidermal growth factor (EGF) was investigated immunocytochemically, using antibodies to type I and type III collagens. EGF transformed those cells that had become more slender than those of control cultures. Type I and type III collagens were observed in the same cells in both EGF-treated and control cultures. Type I collagen was decreased by EGF, whereas type III collagen appeared to be increased. However, no cells with only type III collagen were observed, suggesting that EGF influences collagen metabolism in clone MC3T3-E1 cells.     

Identification and action of juvenile hormone III from sexually mature alate females of the red imported fire ant,Solenopsis invicta

Analysis of extracts of hemolymph obtained from sexually mature alate females of Solenopsis invicta from monogyne colonies resulted in identification of juvenile hormone III (JH III). The average amount of JH III was 0.32±0.04 pmol/μmolof hemolymph. Topical application of 0.038 pmol of JH III was sufficient to stimulate alates to shed their wings in the presence of the queen. The time in which alates were induced to dealate decreased linearly with increasing concentrations of JH III from 0.038 to 3.8 pmol. However, higher JH III concentrations deviated from linearity and did not reach dealation times comparable with those that occur after mating flights. Thus, it appears that the mechanism of dealation that occurs when female alates are out of the influence of their queen is different from the one associated with mating flights. Application of 0.42 μmol of precocene II inhibited dealation of alates in queenless colonies. However, this inhibition was reversed after applying 38 pmol JH III to precocene-treated alates. The sizes of corpora allata (CA) from sexuals treated with JH III did not differ from those of controls. However, the sizes of CA were reduced in alates treated with precocene II. The results indicated that JH was important to dealation.     

Phosphorylation of the EGF receptor from A431 epidermoid carcinoma cells by three distinct types of protein kinase C

Three distinct types of protein kinase C obtained from rat brain cytosol phosphorylated the EGF receptor of A431 epidermoid carcinoma cells at different rates. This receptor was phosphorylated most rapidly by type III protein kinase C, but slowly by type I enzyme. Type II enzyme showed intermediate activity. Chromatographic analysis indicated that A431 cells possessed only one of the three types found in rat brain, which apparently corresponded to type III enzyme. This type of protein kinase C, that is encoded by the alpha-sequence or a closely related sequence, appeared to be expressed commonly in many tissues and organs. The result implies that type III enzyme may play roles in growth promotion.     

Comparison of effects of epidermal and insulin-like growth factors,gastrin releasing peptide and retinoic acid on fetal lung cell growth and maturation in vitro

The role in cell multiplication and maturation of several factors present in the late fetal lung was explored on isolated fetal rat pulmonary fibroblasts and alveolar epithelial type II cells cultivated in serum-free medium. The low degree of reciprocal contamination of each cell population was assessed by immunocytochemistry. Epidermal Growth Factor (EGF) stimulated thymidine incorporation and DNA accumulation in both cell types. In type II cells, it increased labeled-choline incorporation into surfactant phosphatidylcholine (PC), consistently with previous data obtained with lung explant cultures, but not into non-surfactant PC. Insulin-like growth factor (IGF)-I slightly stimulated DNA accumulation in fibroblasts although it did not significantly stimulate thymidine incorporation, contrary to IGF-II which presented a dose-dependent stimulating activity of thymidine incorporation. Neither IGF-I nor IGF-II stimulated type II cell growth. IGFs thus appear to primarily control the growth of lung mesenchyme. In type II cells, they stimulated the most non-surfactant PC biosynthesis. Gastrin releasing peptide (GRP) which was recently reported to promote fetal lung growth in vivo and to stimulate surfactant biosynthesis in lung organ culture revealed as a growth factor for type II cells only, at concentrations below 10 ⁻⁹ M. At concentration 10 ⁻⁸ M, although it did not affect DNA synthesis, GRP tended to increase surfactant and non-surfactant-PC biosynthesis. Retinoic acid inhibited thymidine incorporation into type II cells on a dose-dependent manner but nevertheless enhanced surfactant-PC biosynthesis to a similar extent as EGF. It is suggested that retinoic acid may represent a differentiation or maturation factor for the alveolar epithelium.     

Comparison of effects of epidermal and insulin-like growth factors, gastrin releasing peptide and retinoic acid on fetal lung cell growth and maturation in vitro.

The role in cell multiplication and maturation of several factors present in the late fetal lung was explored on isolated fetal rat pulmonary fibroblasts and alveolar epithelial type II cells cultivated in serum-free medium. The low degree of reciprocal contamination of each cell population was assessed by immunocytochemistry. Epidermal Growth Factor (EGF) stimulated thymidine incorporation and DNA accumulation in both cell types. In type II cells, it increased labeled-choline incorporation into surfactant phosphatidylcholine (PC), consistently with previous data obtained with lung explant cultures, but not into non-surfactant PC. Insulin-like growth factor (IGF)-I slightly stimulated DNA accumulation in fibroblasts although it did not significantly stimulate thymidine incorporation, contrary to IGF-II which presented a dose-dependent stimulating activity of thymidine incorporation. Neither IGF-I nor IGF-II stimulated type II cell growth. IGFs thus appear to primarily control the growth of lung mesenchyme. In type II cells, they stimulated the most non-surfactant PC biosynthesis. Gastrin releasing peptide (GRP) which was recently reported to promote fetal lung growth in vivo and to stimulate surfactant biosynthesis in lung organ culture revealed as a growth factor for type II cells only, at concentrations below 10(-9) M. At concentration 10(-8) M, although it did not affect DNA synthesis, GRP tended to increase surfactant and non-surfactant-PC biosynthesis. Retinoic acid inhibited thymidine incorporation into type II cells on a dose-dependent manner but nevertheless enhanced surfactant-PC biosynthesis to a similar extent as EGF. It is suggested that retinoic acid may represent a differentiation or maturation factor for the alveolar epithelium.     

Viscosity and gelation studies in deer hunting hemoglobins.

Sickling, viscosity and gelling properties of the red cells and the hemoglobins of three Virginia white-tailed deer homozygous for types II and III (the sickling types) and V (the nonsickling type), respectively, have been analyzed. The sickling of erythrocytes of deer with type II or III is inhibited by urea and cyanate at concentrations which are comparable to those used in in vitro studies of red cells from patients with sickle cell anemia. No differences were observed between the viscosities of the three deer hemoglobin types at temperatures of 12 degrees C or above. High concentrations of deer hemoglobin types II and III gelled at 1 degree C and at pH values of 7.4-7.7; the minimum gelling concentration of type II was 33.5 g% and of type III was 38 g%. Gel formation was not observed at pH values between 6.7-7.1. Hemoglobin type V did not gel and prevented the formation of gels of type II and III in mixtures at pH 7.6-7.7.     

Classification system based on the functional equivalency of mitogens that regulate WI-38 cell proliferation

Analysis of the proliferative response of WI-38 cells to nine mitogens, which in various specific combinations stimulate DNA synthesis in these cultures, delineated three classes of mitogens. Class I includes epidermal growth factor (EGF), fibroblasts growth factor (FGF), platelet-derived growth factor (PDGF), and thrombin (THR); Class II includes insulin-like growth factor I (IGF-I), multiplication stimulating activity (MSA) (the rat homolog of human IGF-II), and insulin; and Class III includes hydrocortisone (HC) or the synthetic analog dexamethasone (DEX). In cultures arrested at low density, members of each of the three classes act synergistically in stimulating DNA synthesis. Any Class I mitogen in combination with any Class II and either Class III mitogen stimulated DNA synthesis of levels observed in 10% serum-supplemented medium. At least some (EGF, FGF, PDGF) and possibly all (THR) of the Class I mitogens are known to act through separate receptor systems. Our experiments using blocking antibodies to the IGF-I receptor confirm that the Class II mitogens all act by binding to IGF-I receptors. Use of the inhibitory synthetic glucocorticoid analog RU 486 confirmed that the Class III mitogens act via the glucocorticoid receptor. Thus, growth factor-induced DNA synthesis in WI-38 cells is apparently mediated by the glucocorticoid receptor (Class III), the IGF-I receptor (Class II), and most interestingly any one of several Class I growth factor receptors.     

The release of transforming growth factors by cells resistant to ethidium bromide and growing on a serum-free medium

350sf and 625sf cells growing in serum free medium secrete transforming growth factors (TGFs) that induce NIH 3T3 indicator cells to form colonies in soft agar. The addition of 2 ng/ml of EGF increases twice the number of colonies of NIH 3T3 indicator cells. The TGFs secreted by 350sf and 625 sf cells do not compete with 125I EGF for binding to EGF receptors on human A-431 cells. The number of EGF receptors on 350 sf and 625 sf and 625 sf cells continuously grown in serum-free medium do not differ from that of EGF receptors on parental Lebr-350 and Lebr-625 cells continuously grown in the presence of 10% serum. These results suggest that TGFs produced by 350 sf and 625 sf cells are not alpha TGF. It is possible that cells secrete beta TGFs of yet unknown type.     

Biochemical characterization of rat brain protein kinase C isozymes

Biochemical characteristics of three rat brain protein kinase C isozymes, types I, II, and III, were compared with respect to their protein kinase and phorbol ester-binding activities. All three isozymes appeared to be alike in their phorbol ester-binding activities as evidenced by their similar Kd for phorbol 12,13-dibutyrate and requirements for Ca2+ and phospholipids. However, differences with respect to the effector-mediated stimulation of protein kinase activity were detectable among these isozymes. The type I enzyme could be stimulated by cardiolipin to a greater extent than those of the type II and III enzymes. In the presence of cardiolipin, the concentrations of dioleoylglycerol or phorbol 12,13-dibutyrate required for half-maximal activation (A1/2) of the type I enzyme were nearly an order of magnitude lower than those for the type II and III enzymes. In the presence of phosphatidylserine, differences in the A1/2 of dioleoylglycerol and phorbol 12,13-dibutyrate for the three isozymes of protein kinase C were less significant than those measured in the presence of cardiolipin. Nevertheless, the A1/2 of these two activators for the type I enzyme were lower than those for the type II and III enzymes. At high levels of phosphatidylserine (greater than 15 mol %), binding of phorbol 12,13-dibutyrate to the type I enzyme evoked a corresponding stimulation of the kinase activity, whereas binding of this phorbol ester to the type II and III enzymes produced a lesser degree of kinase stimulation. For all three isozymes, the concentrations of phosphatidylserine required for half-maximum [3H]phorbol 12,13-dibutyrate binding were almost an order of magnitude less than those for kinase stimulation. Consequently, neither isozyme exhibited a significant kinase activity at lower levels of phosphatidylserine (less than 5 mol %) and phorbol 12,13-dibutyrate (50 nM), a condition sufficient to promote near maximal phorbol ester binding. In addition to their different responses to the various activators, the three protein kinase C isozymes also have different Km values for protein substrates. The type I enzyme appeared to have lower Km values for histone IIIS, myelin basic protein, poly(lysine, serine) (3:1) polymer, and protamine than those for the type II and III enzymes. These results documented that the three protein kinase C isozymes were distinguishable in their biochemical properties. In particular, the type I enzyme, which is a brain-specific isozyme, is distinct from the type II and III enzymes, both have a widespread distribution among different tissues.     

Angiotensin II stimulates DNA synthesis of rat pancreatic stellate cells by activating ERK through EGF receptor transactivation

Although angiotensin II (Ang II) is known to participate in pancreatic fibrosis, little is known as to the mechanism by which Ang II promotes pancreatic fibrosis. To elucidate the mechanism, we examined the action of Ang II on the proliferation of rat pancreatic stellate cells (PSCs) that play central roles in pancreatic fibrosis. Immunocytochemistry and Western blotting demonstrated that both Ang II type 1 and type 2 receptors were expressed in PSCs. [3H]Thymidine incorporation assay revealed that Ang II enhanced DNA synthesis in PSCs, which was blocked by Ang II type 1 receptor antagonist losartan. Western blotting using anti-phospho-epidermal growth factor (EGF) receptor and anti-phospho-extracellular signal regulated kinase (ERK) antibodies showed that Ang II-activated EGF receptor and ERK. Both EGF receptor kinase inhibitor AG1478 and MEK1 inhibitor PD98059 attenuated ERK activation and DNA synthesis enhanced by Ang II. These results indicate that Ang II stimulates PSC proliferation through EGF receptor transactivation-ERK activation pathway.     

Differential response of normal rat mammary epithelial cells to mammogenic hormones and EGF

A simple dissociation procedure and the collagen gel culture system have been utilized to determine the effects of mammogenic hormones and epidermal growth factor (EGF) on the proliferation of normal rat mammary epithelial (RME) cells in serum-free culture. Epithelial fragments, isolated from normal virgin F344 rat mammary glands by enzyme digestion followed by Percoll density gradient centrifugation, were embedded within a rat tail collagen matrix. A three- to four-fold increase in cell number was observed when ovine prolactin (PRL) and progesterone (P) were present in the basal medium during 7 days of culture. Mouse EGF stimulated one cell doubling during the same culture period. Isolated mammary organoids produced a 'stellate' type colony when PRL + P were present in the culture medium. These colonies were composed of small, tightly packed cuboidal cells. The addition of EGF to the basal medium produced a diffuse 'basket' type colony which was composed of large, elongate cells. When the complete hormonal and growth factor combination (PRL + P + EGF) was present, a 'mixed' type colony was observed which contained both the large and small epithelial cell types. Immunocytochemical analysis revealed that both the cuboidal and elongate cells present in the two colony types stained with antibodies to keratin indicating that these cells were epithelial in nature. The small cuboidal cells also expressed thioesterase II and alpha-lactalbumin, both specific for secretory mammary epithelial cells. The large, elongate cell type, however, was positive for actin but did not stain for either secretory epithelial specific marker. The results reported here suggest that normal rat mammary tissue may contain two epithelial populations, one which responds to PRL + P and the other which responds to EGF.     

Basic fibroblast growth factor promotes epidermal growth factor responsiveness and survival of mesencephalic neural precursor cells.

Epidermal growth factor (EGF) and basic fibroblast growth factor (bFGF) induce proliferation of neural precursor cells from several central nervous system regions in vitro. We have previously described two neural precursor cell populations from 13.5 days postcoitium (dpc) mesencephalon, one forming colonies in response to EGF, present in the ventral mesencephalon, and other forming colonies in response to EGF + bFGF, mainly present in the dorsal mesencephalon. In the present work, we show that 13.5 dpc dorsal mesencephalic cells required bFGF only for 1 h to form colonies in response to EGF alone, indicating that these two growth factors act in sequence rather than simultaneously. Absence of bFGF at the beginning of the culture gave rise to very few colonies, even after the addition of EGF + bFGF, suggesting that cells responsive to bFGF were very labile in the primary culture condition. This result is in contrast with cells pretreated with bFGF, which could survive for up to 5 days in the absence of bFGF or EGF, and then were capable of efficiently forming colonies in response to EGF. Basic FGF was also able to support survival of EGF-responsive neural precursors from both ventral and dorsal mesencephalon. The population requiring bFGF to form colonies in response to EGF was identified at different developmental stages (11.5-15.5 dpc), with higher contribution to the total number of neural precursors cells detected (EGF-responsive plus bFGF-responsive) at early stages and in the dorsal region. We show that the differentiation effect of bFGF resulted in the appearance of the mRNA coding for the EGF receptor. Our data suggest that bFGF-responsive neural precursors are the source of EGF-responsive neural precursors.     

Three classes of epidermal growth factor receptors on HeLa cells

The kinetics of 125I-labeled epidermal growth factor (EGF) binding to receptors on HeLa cells were investigated. Scatchard analysis revealed the presence of 22,000 high affinity receptors (Kd = 0.12 nM) and 25,000 low affinity receptors per cell (Kd = 9.2 nM). The kinetic analysis of EGF binding to high affinity receptors was performed with cells pretreated with the monoclonal antibody 2E9, which prevents specifically EGF binding to low affinity receptors. The study of EGF binding to only low affinity receptors was performed with cells pretreated with the phorbol ester phorbol 12-myristate 13-acetate, which induces a conversion of high affinity receptors to low affinity receptors. This kinetic analysis of EGF binding to HeLa cells revealed the presence of three types of receptors. High affinity receptors were found to consist of one receptor type (type I) with a kinetic association constant (kass) of 6.2 x 10(5) M-1.s-1 and a kinetic dissociation constant (kdis) of 3.5 x 10(-4) s-1. The low affinity receptors were found to consist of two kinetic distinguishable sites: type II or fast sites with kass = 3.3 x 10(6) M-1.s-1 and kdis = 8.1 x 10(-3) s-1 and the type III or slow sites with kass = 3.2 x 10(4) M-1.s-1 and kdis = 1.6 x 10(-4) s-1. The regulatory mechanism which may determine the EGF binding characteristics is discussed.     

Basic fibroblast growth factor promotes epidermal growth factor responsiveness and survival of mesencephalic neural precursor cells

Epidermal growth factor (EGF) and basic fibroblast growth factor (bFGF) induce proliferation of neural precursor cells from several central nervous system regions in vitro. We have previously described two neural precursor cell populations from 13.5 days postcoitium (dpc) mesencephalon, one forming colonies in response to EGF, present in the ventral mesencephalon, and other forming colonies in response to EGF + bFGF, mainly present in the dorsal mesencephalon. In the present work, we show that 13.5 dpc dorsal mesencephalic cells required bFGF only for 1 h to form colonies in response to EGF alone, indicating that these two growth factors act in sequence rather than simultaneously. Absence of bFGF at the beginning of the culture gave rise to very few colonies, even after the addition of EGF + bFGF, suggesting that cells responsive to bFGF were very labile in the primary culture condition. This result is in contrast with cells pretreated with bFGF, which could survive for up to 5 days in the absence of bFGF or EGF, and then were capable of efficiently forming colonies in response to EGF. Basic FGF was also able to support survival of EGF‐responsive neural precursors from both ventral and dorsal mesencephalon. The population requiring bFGF to form colonies in response to EGF was identified at different developmental stages (11.5–15.5 dpc), with higher contribution to the total number of neural precursors cells detected (EGF‐responsive plus bFGF‐responsive) at early stages and in the dorsal region. We show that the differentiation effect of bFGF resulted in the appearance of the mRNA coding for the EGF receptor. Our data suggest that bFGF‐responsive neural precursors are the source of EGF‐responsive neural precursors. © 1999 John Wiley & Sons, Inc. J Neurobiol 40: 14–27, 1999     

Targeted expression of the class II phosphoinositide 3-kinase in Drosophila melanogaster reveals lipid kinase-dependent effects on patterning and interactions with receptor signaling pathways

Phosphoinositide 3-kinases (PI3Ks) can be divided into three distinct classes (I, II, and III) on the basis of their domain structures and the lipid signals that they generate. Functions have been assigned to the class I and class III enzymes but have not been established for the class II PI3Ks. We have obtained the first evidence for a biological function for a class II PI3K by expressing this enzyme during Drosophila melanogaster development and by using deficiencies that remove the endogenous gene. Wild-type and catalytically inactive PI3K_68D transgenes have opposite effects on the number of sensory bristles and on wing venation phenotypes induced by modified epidermal growth factor (EGF) receptor signaling. These results indicate that the endogenous PI3K_68D may act antagonistically to the EGF receptor-stimulated Ras-mitogen-activated protein kinase pathway and downstream of, or parallel to, the Notch receptor. A class II polyproline motif in PI3K_68D can bind the Drk adaptor protein in vitro, primarily via the N-terminal SH3 domain of Drk. Drk may thus be important for the localization of PI3K_68D, allowing it to modify signaling pathways downstream of cell surface receptors. The phenotypes obtained are markedly distinct from those generated by expression of the Drosophila class I PI3K, which affects growth but not pattern formation.     

Immunofluorescent localization of collagen types I, II, and III in the embryonic chick eye.

The appearance and distribution of type I, II, and III collagens in the developing chick eye were studied by specific antibodies and indirect immunofluorescence. At stage 19, only type I collagen was detected in the primary corneal stroma, in the vitreous body, and along the lens surface. At later stages, type I collagen was located in the primary and secondary corneal stroma and in the fibrous sclera, but not around the lens. Type II collagen was first observed at stage 20 in the primary corneal stroma, neural retina, and vitreous body. It was particularly prominent at the interface of the neural retina and vitreous body and, from stage 30 on, in the cartilaginous sclera. The primary corneal stroma consisted of a mixture of type I and II collagens between stages 20 and 27. Invasion of the primary corneal stroma by mesenchyme and subsequent deposition of fibroblast-derived collagen corresponded with a pronounced increase of type I collagen, throughout the entire stroma, and of type II collagen, in the subepithelial region. Type II collagen was also found in Bowman's and Descemet's membranes. A transient appearance of type III collagen was observed in the corneal epithelial cells, but not in the stroma (stages 20–30). The fully developed cornea contained both type I and II collagens, but no type III collagen. Type III collagen was prominent in the fibrous sclera, iris, nictitating membrane, and eyelids.     

Effect of dimethyl sulphoxide and some antibiotics on cultured human T-lymphoma cells as measured by microcalorimetry

The influence of dimethyl sulphoxide (I), penicillin/streptomycin (II), gentamicin (III), and amphotericin B (IV) on growing human T-lymphoma cells was measured by microcalorimetry. There was a dose-dependent decrease in the heat production rate of the cells after 24 h of incubation with I in concentrations ranging from 0-2% (v/v). At 3.6%, about half of the cells died. II and III had no effect on the cells after incubation for 6 days, at concentrations from 1 to 10 times that of the normal (50-500 IU/ml; 50-500 micrograms/ml). IV was used in combination with II (50 IU/ml; 50 micrograms/ml) and III (50 micrograms/ml), respectively, at concentrations between 0.25 and 7.5 micrograms/ml. After 6 days of incubation, the results were similar to those obtained with II and III separately.     

Proliferation of epithelial cells derived from rat dorsolateral prostate in serum-free primary cell culture and their response to androgen

Summary Primary cultured epithelial cells derived from the rat dorsolateral prostate proliferated in serum-free nutrient medium WAJC 404 supplemented with mitogens: insulin (650 nM), cholera toxin (120 pM), epidermal growth factor (EGF) (2.5 nM), dexamethasone (300 nM), and bovine pituitary extract (25 μg/ml). The culture consisted of two types of epithelial cell colonies: one originated from single cells or small cell aggregates and the other was epithelial cell outgrowth from small tissue fragments attached to a substratum. There were differences in requirements for the mitogens between the two types of colonies. Requirements for cholera toxin, bovine pituitary extract, and dexamethasone were higher in the former type of colonies, and those for EGF were higher in the latter type of colonies. Proliferation of the epithelial cells in either type, of colony was suppressed more than 50% by 1 nM dihydrotestosterone. This suppressive effect was not mediated by stromal component in the tissue fragments, and was counteracted by cyproterone acetate, indicating specific and direct action of the androgen on prostate epithelial cells. The results suggest that there is discrete participation of polypeptide growth factors and androgen in proliferation and differentiation, respectively, of prostate epithelial cells in vivo.