Regulatory relation between insulin receptor and its functional responses in primary cultured hepatocytes of adult rats

The relation between changes of insulin receptor and various metabolic responses were studied in adult rat hepatocytes in primary culture. In cells cultured for 3 h without insulin, the number of high affinity sites and the dissociation constant (Kd) of insulin receptor, determined from a Scatchard plot, were 1.05 x 10(5) sites/cell and 1.5 x 10(-9) M, respectively. The receptor number increased 2-fold, but the Kd value remained constant during 2-days culture in insulin-free medium (up-regulation). Addition of dexamethasone (Dex), growth hormone, glucagon or triiodothyronine did not change the number of insulin receptors or the Kd value. In contrast, 1-day culture in insulin (1 x 10(-7) M) medium decreased the receptor number by half (down-regulation) without change of the Kd value. Short-term responses of glycogenesis, amino acid transport and lipogenesis by insulin increased as the receptor number increased. In these cases, the sensitivity to insulin (Ka: half dose for the maximum response) did not change in cells with different receptor numbers, but the maximum response changed. These results show that hepatocytes, unlike adipocytes, do not have spare receptors of insulin. During down-regulation, the receptor number decreased by only half, but the insulin responses were lost almost completely. The receptor number returned to the normal level after culture in insulin-free medium for 12 h, but recovery of the responses took longer, suggesting that for the insulin response not only change of receptor number, but also other regulatory mechanisms for post-receptor processes, such as desensitization, are involved.     

Identification of beta-adrenergic receptors in pulmonary alveolar type II cells

Specific beta-adrenergic receptors have been identified in dissociated preparations of rabbit lung cells greatly enriched for alveolar type II cells and compared with receptors in preparations of mixed lung cells and erythrocytes. Freshly isolated type II cells as well as mixed dissociated lung cells and erythrocytes from fetal (28 days gestation) and adult rabbits contained high-affinity, low-capacity binding sites for [3H]dihydroalprenolol (DHA). Binding to all preparations was stereospecific and characteristic of the beta 1-subtype of beta-adrenergic receptors. The concentrations of the receptors were similar in mixed lung cells and alveolar type II cells, indicating that beta-adrenergic receptors are present not only in type II cells but also in other lung cell types. When the contribution of erythrocytes to receptor concentration observed in type II cells was determined, it was found to be insignificant. In mixed lung cells, both the affinity and concentration of the receptors were higher in adult than fetal preparations. The affinity of the receptors was also higher in adult than fetal type II cells, although we did not find a significant age-related difference in receptor concentrations in this cell type. These results suggest that stimulation of surfactant secretion observed after exposure of lung tissue to beta-adrenergic agonists is mediated by specific beta-adrenergic receptors on alveolar type II cells.     

Fetal lung disaturated phosphatidylcholine. Ostensible increase following exposure to dexamethasone

Fetal rat lung removed at 15 days gestation and placed in organ culture incorporates choline into phosphatidylcholine. Addition of 10(-9) M dexamethasone resulted in increased rates of choline incorporation per micrograms protein after both 6 and 12 days culture. This concentration of dexamethasone did not increase tissue phosphatidylcholine or disaturated phosphatidylcholine. Thus, at a culture time when dexamethasone had a significant effect on choline incorporation, there was no change in either the total phospholipid or disaturated phosphatidylcholine content of the lung tissue. The transplacental administration of dexamethasone decreased fetal lung DNA and phospholipid content. At the mid-range dosage tested (400 micrograms), dexamethasone depressed DNA (51%) appreciably more than total phosphatidylcholine (28%) and disaturated phosphatidylcholine (33%). These results show that the hormone does not increase the total amount of surfactant per lung. The increased disaturated phosphatidylcholine per mg DNA results in an ostensible beneficial effect of dexamethasone on surfactant and may reflect an increased proportion of Type II cells in fetal lung both in vitro and in vivo following hormone exposure. Disaturated phosphatidylcholine per Type II alveolar cell is no doubt increased but the trade-off is fewer total cells in the lung.     

Mineralocorticoid-induced increase in beta-adrenergic receptors of cultured rat arterial smooth muscle cells

We have investigated the effect of mineralocorticoids on beta-adrenergic receptors in cultured arterial smooth muscle cells. Mineralocorticoid (aldosterone) treatment resulted in a significant increase in beta-adrenergic receptors measured by [3H]dihydroalprenolol (DHA) binding. This effect required at least 20 hours of incubation with aldosterone and was completely blocked by cycloheximide (10 micrograms/ml), indicating protein synthesis was required for this response. Aldosterone at the concentration range of 10(-8)-10(-6) M increased [3H]DHA binding, but was ineffective at 10(-9) M. Scatchard analysis of [3H]DHA binding revealed that the observed significant increase in binding was due to an increased number of binding sites (P less than 0.05), and that the affinity was unchanged. The aldosterone (1 x 10(-8) M) effect was completely blocked by the combination of RU 38486 (10(-6) M) and spironolactone (10(-7) M), but not by the glucocorticoid antagonist RU 38486 alone. While basal c-AMP levels were not changed by aldosterone (10(-6) M) treatment, the isoproterenol (10(-6) M) stimulated level of c-AMP was significantly higher in cells treated with aldosterone (P less than 0.05). We conclude that aldosterone, acting through the mineralocorticoid receptor, has a direct effect on arterial smooth muscle cells mediated through modulation of beta-adrenergic receptors of these cells.     

Permissive action of glucocorticoids on catecholamine-induced lipolysis: direct "in vitro" effects on the fat cell beta-adrenoreceptor-coupled-adenylate cyclase system

Exposure of adipose tissue fragments to dexamethasone leads to enhanced lipolytic and cyclic AMP responses of isolated fat cells to isoproterenol. This permissive effect of the steroid is dose-dependent, prevented by the glucocorticoid receptor antagonist RU 38486, maximum after 48 h exposure to 10 nM dexamethasone and affects only the amplitude of the maximal response (+50%). Exposure to dexamethasone also induces an increase in both the number of beta-adrenergic receptors (+30%), and the adenylate cyclase-catalytic activity (+64%) and - responses to GTP (+114%) and isoproterenol (+55%). These data strongly suggest that the permissive effect of glucocorticoids towards lipolysis "in vivo" results at least in part from a glucocorticoid-receptor mediated action of these hormones on the fat cell membranous components involved in the beta-adrenergic control of lipolysis.     

Corticosteroid binding by fetal rat and rabbit lung in organ culture

To further characterize glucocorticoid action in fetal lung cells, we investigated corticosteroid metabolism and binding in explants of fetal rat and rabbit lung. Cortisone (E) was concerted to cortisol (F) and bound by receptor with a time course only somewhat slower than for F. Production of F (0.243 pmol/min/mg DNA) was the same in male and female rabbits and was not affected by prior exposure to glucocorticoid in utero or in culture. The t 1/2 for dissociation of nuclear-bound [3H]F was 84 min on changing the culture medium and 21 min on addition of excess non-labeled dexamethasone. Dissociation of [3H]dexamethasone was approx 5-fold slower by both procedures. The KD for nuclear binding of dexamethasone, F, E, and corticosterone in rabbit lung were 0.7, 7.3, 6.8 and 70.6 nM, respectively. In rat lung, the KD for dexamethasone was 6.8 nM. The concentrations of dexamethasone and F required for half-maximal stimulation of phosphatidylcholine synthesis were similar to the KD values. Dexamethasone binding capacity (sites/mg DNA) increased with age in both rat (+103% increase from day 16 to 22) and rabbit (+47% between day 23 and 30). Receptor concentration was the same in both sexes, and there were no developmental changes in non-specific binding, nuclear:cytoplasmic distribution, or KD. In 27-day rabbit fetuses, the rate of choline incorporation was higher in lungs with greater binding capacity. We conclude that (1) E is rapidly converted to F in rabbit lung to become an active glucocorticoid, whereas corticosterone probably has little physiologic activity, (2) there is a species difference in the affinity of dexamethasone binding which is reflected in responsiveness (3) there is no difference between sexes in E conversion, receptor capacity, or phosphatidylcholine synthesis, and (4) the concentration of binding sites per lung cell increases during fetal development. We suggest that developmental increases in both F production and receptor may be important factors in the expression of endogenous glucocorticoid effects.     

Leptin mediates the parathyroid hormone-related protein paracrine stimulation of fetal lung maturation

Developing rat lung lipofibroblasts express leptin beginning on embryonic day (E) 17, increasing 7- to 10-fold by E20. Leptin and its receptor are expressed mutually exclusively by fetal lung fibroblasts and type II cells, suggesting a paracrine signaling "loop." This hypothesized mechanism is supported by the following experimental data: 1) leptin stimulates the de novo synthesis of surfactant phospholipid by both fetal rat type II cells (400% x 100 ng(-1) x ml(-1) x 24 h(-1)) and adult human airway epithelial cells (85% x 100 ng(-1) x 24 h(-1)); 2) leptin is secreted by lipofibroblasts in amounts that stimulate type II cell surfactant phospholipid synthesis in vitro; 3) epithelial cell secretions such as parathyroid hormone-related protein (PTHrP), PGE(2), and dexamethasone stimulate leptin expression by fetal rat lung fibroblasts; 4) PTHrP or leptin stimulate the de novo synthesis of surfactant phospholipid (2- to 2.5-fold/24 h) and the expression of surfactant protein B (SP-B; >25-fold/24 h) by fetal rat lung explants, an effect that is blocked by a leptin antibody; and 5) a PTHrP receptor antagonist inhibits the expression of leptin mRNA by explants but does not inhibit leptin stimulation of surfactant phospholipid or SP-B expression, indicating that PTHrP paracrine stimulation of type II cell maturation requires leptin expression by lipofibroblasts. This is the first demonstration of a paracrine loop that functionally cooperates to induce alveolar acinar lung development.     

Agonist-induced changes in beta-adrenergic receptors on intact cells

Competition by beta-adrenergic agonists and antagonists for 125I-pindolol binding sites on intact cells (1321N1 human astrocytoma and C62B rat glioma) was measured using short time binding assays as previously described (Toews, M. L., Harden, T. K., and Perkins, J. P. (1983) Proc. Natl. Acad. Sci. U.S.A. 80, 3553-3557). Preincubation of cells with agonists converted about half of the cellular beta-adrenergic receptors from a form exhibiting high affinity for the agonists isoproterenol and epinephrine and the antagonist sotalol to a form exhibiting much lower apparent affinity for these ligands in short time assays. Exposure to agonists did not alter the affinity of receptors for the antagonist metoprolol. This change in the ligand binding properties of the receptor was rapid (t1/2 = 1-2 min following a lag of about 0.5 min), reversible (t1/2 = 6-8 min), and dependent on the agonist concentration present during the preincubation (K0.5 = 15 nM for isoproterenol). Both isoproterenol and sotalol attained equilibrium with the high affinity receptors very rapidly but equilibrated only slowly with those receptors exhibiting low apparent affinity in short time assays. These results are interpreted in terms of a model which postulates that both the low apparent affinity in short time assays and the subsequent slow equilibration of hydrophilic ligands with these receptors result from agonist-induced internalization of a fraction of cell surface beta-adrenergic receptors. The relationship of this change in receptor binding properties to other aspects of agonist-induced desensitization of the beta-adrenergic receptor-coupled adenylate cyclase system is discussed.     

Localization and accumulation of fibronectin in rabbit fetal lung tissue

An interaction between mesenchyme and epithelium is required for the normal differentiation of fetal lung tissue. This morphogenic interaction may be mediated, in part, by changes in the composition and/or structure of the extracellular matrix. Therefore, we characterized the localization and accumulation of fibronectin, an extracellular-matrix component, during several stages of lung development in the rabbit fetus in vivo as well as in day-21 rabbit fetal lung explants maintained in vitro. Fibronectin was detected immunocytochemically in the basement-membrane zone beneath the epithelial ducts in lung tissue obtained from rabbit fetuses at 19 and 21 days of gestation. In fetal lung tissue obtained at these early stages of lung development, mesenchymal cells were stained only at their periphery. Immunostaining for connective-tissue fibronectin increased greatly between days 24 and 31 of gestation. A similar increase in the intensity of immunostaining for connective-tissue fibronectin was observed in rabbit fetal lung explants that had been maintained in vitro for 7 days. The concentration of fibronectin in fetal lung tissue obtained at different days of gestation was determined using a specific enzyme-linked immunoadsorbent assay (ELISA) and was found to increase from 1.7 ng/micrograms protein in fetal lung tissue obtained at day 19 of gestation to 7.3 ng/micrograms protein in fetal lung tissue obtained at day 24 of gestation. The levels of fetal lung fibronectin then remained relatively constant through to day 31 of gestation. A similar increase in fibronectin concentration was observed in day-21 fetal lung explants maintained in vitro for 7 days.(ABSTRACT TRUNCATED AT 250 WORDS)     

Surfactant protein of molecular weight 28,000-36,000 in cultured human fetal lung: cellular localization and effect of dexamethasone

We have examined the effect of explant culture and hormones on the major surfactant associated protein of Mr 28,000-36,000 (SP 28-36) in human fetal lung. Explants of 16- to 23-week gestation lung were maintained for up to 5 days in culture. Polyclonal antibodies raised to SP 28-36 purified from alveolar proteinosis lung lavage were used in immunofluorescence experiments (n = 11). There was no specific fluorescence seen in frozen sections of preculture tissue. In explants cultured without serum or hormones, fluorescence was seen in most epithelial cells lining potential airspaces. In cultures treated with 10 nM dexamethasone and 2 nM T3 much brighter fluorescence was seen in virtually all epithelial cells. Immunofluorescence studies on cell monolayers prepared from explants confirmed that SP 28-36 is found in the cytoplasm of type II cells but not in fibroblasts. The pattern of fluorescence was consistent with the presence of SP 28-36 on rough endoplasmic reticulum. SP 28-36 mRNA was measured in isolated cell populations using a 32P-labeled cDNA probe. mRNA levels were manyfold higher in type II cell preparations (purity 78-92%) than in fibroblasts (purity 81-97%). A competitive enzyme linked assay was developed to quantify SP 28-36. The SP 28-36 content of five lungs before culture (17-23 weeks) was less than 0.02 microgram/mg DNA. During explant culture without hormones the SP 28-36 content increased exponentially. Exposure to dexamethasone accelerated the increase in SP 28-36 content. T3, alone or in the presence of dexamethasone, did not influence SP 28-36 content. We conclude that SP 28-36 content is very low in human fetal lung before 24 weeks gestation. Explant culture and treatment with dexamethasone synchronize development of type II cells from epithelial precursors, and induce synthesis of SP 28-36 in type II cells. These findings provide evidence of concomitant regulation by glucocorticoids of the phospholipid synthetic enzymes and the major protein of pulmonary surfactant.     

Synthesis of surfactant components by cultured type II cells from human lung

We examined the effect of monolayer culture on surfactant phospholipids and proteins of type II cells isolated from human adult and fetal lung. Type II cells were prepared from cultured explants of fetal lung (16-24 weeks gestation) and from adult surgical specimens. Cells were maintained for up to 6 days on plastic tissue culture dishes. Although incorporation of [methyl-3H]choline into phosphatidylcholine (PC) by fetal cells was similar on day 1 and day 5 of culture, saturation of PC fell from 35 to 26%. In addition, there was decreased distribution of labeled acetate into PC, whereas distribution into other phospholipids increased or did not change. The decrease in saturation of newly synthesized PC was not altered by triiodothyronine (T3) and dexamethasone treatment or by culture as mixed type II cell/fibroblast monolayers. The content of surfactant protein SP-A (28-36 kDa) in fetal cells, as measured by ELISA and immunofluorescence microscopy, rose during the first day and then fell to undetectable levels by the fifth. Synthesis of SP-A, as measured by [35S]methionine labeling and immunoprecipitation, was detectable on day 1 but not thereafter. Levels of mRNAs for SP-A and for the two lipophilic surfactant proteins SP-B (18 kDa) and SP-C (5 kDa) fell with half-times of maximally 24 h. In contrast, total protein synthesis measured by [35S]methionine incorporation increased and then plateaued. In adult cells, the content of SP-A and its mRNA decreased during culture, with time-courses similar to those for fetal cells. We conclude that in monolayer culture on plastic culture dishes, human type II cells lose their ability to synthesize both phospholipids and proteins of surfactant. The control of type II cell differentiation under these conditions appears to be at a pretranslational level.     

Identification and ontogeny of beta-adrenergic receptors in fetal rabbit lung

High affinity (Kd=0.2 nM), low capacity (48 fmoles per mg protein), stereospecific binding sites, with properties characteristic of the β₁-subtype of β-adrenergic receptors, have been detected in fetal rabbit lung membranes as early as the 22nd day of gestation. The concentration of the receptor did not change significantly between the 22nd and 26th day of gestation, but increased 3-fold between the 26th and 29th day, reaching a level of 198 fmoles per mg protein. A further increase (from 198 to 315 fmoles per mg protein) in receptor concentration was observed in adult female rabbits. The increase in the levels of pulmonary β-adrenergic receptors between the 26th and 29th day of gestation is temporally related to the increase in surfactant release into the alveolar spaces of the fetal lung. Thus β-adrenergic agonists may act directly on the fetal lung to regulate surfactant secretion.     

Androgen receptors in fetal rabbit lung and the effect of fetal sex on the levels of circulating hormones and pulmonary hormone receptors

High affinity (KD = 0.2 nM), low capacity (3.6-5.0 fmol/mg protein), androgen-specific binding proteins with characteristics typical of androgen receptors were identified in the lungs of rabbit fetuses between the 26 and 29th day of gestation and in the lungs of adult rabbits. While androgen receptor concentrations increased significantly from late gestation to adulthood (P less than 0.01), no sex-related differences were observed in either the binding affinities or concentrations of the receptors at any age tested. Similarly, no sex-related differences were found in the levels of progesterone, cortisol and cortisone in the fetal circulation, or in the levels of progesterone receptors, glucocorticoid receptors and beta-adrenergic receptors in the fetal lung at 26 days of gestation. It is concluded that the fetal lung interacts directly with circulating androgens via specific androgen receptors and that the suggested male disadvantage with respect to lung maturation in the perinatal period does not appear to be associated with sex-related differences in the levels of pulmonary androgen, glucocorticoid, progesterone or beta-adrenergic receptors.     

Ontogeny of glucocorticoid receptors in rat liver.

Specific receptors for glucocorticoids are present in liver cytosols of rat fetuses at least as early as the 18th day of gestation. The concentration of the receptor begins to decline after the 20th day reaching undetectable levels shortly before and after parturition. The receptor can be detected again 1 to 2 hours after birth, and its levels increase markedly to higher than adult values between the 2nd and 5th day. The reason for the failure to detect specific hormone binding near parturition appears to be due to occupation of binding sites by endogenous steroids rather than the absence of the receptor. This is indicated by the demonstration of both cytoplasmic and nuclear receptor sites in liver slices of newborn rats incubated with labeled dexamethasone at 37 degrees. The cytoplasmic receptors of fetal and adult liver differ in their relative affinity for cortisol and corticosterone. The fetal receptors have a higher affinity for corticosterone than cortisol while the reverse is true for the adult receptors. These observations suggest either the existence of dissimilar receptors in fetal and adult liver or the presence of more than one type of receptor sites. It is therefore possible that subtle differences in the nature of hepatic receptors may be partly responsible for the maturation-dependent qualitative differences in tissue responsiveness to glucocorticoids.     

Dexamethasone increases expression of mannose receptors and decreases extracellular lysosomal enzyme accumulation in macrophages

Macrophages express a mannose-specific pinocytosis receptor that binds and internalizes lysosomal hydrolases. Treatment of rat bone marrow-derived macrophages with dexamethasone resulted in a concentration- and time-dependent increase in mannose-receptor activity. The dexamethasone effect was maximal at 24 h. Half-maximal effects were observed at a dexamethasone concentration of 2.5 X 10(-9) M. With 125I-beta-glucuronidase as ligand, a 2.5-fold increase in uptake rate was observed in dexamethasone-treated cells, with no change in Kuptake (2.5 X 10(-7) M beta-glucuronidase). Cell surface binding (4 degrees C) was elevated 2.6-fold following dexamethasone treatment. The increase in ligand binding appeared to be due to an increase in number of sites with no change in affinity. Cycloheximide suppressed the dexamethasone-mediated rise in receptor number, while cycloheximide alone had little effect on receptor activity over 16 h. These results suggest that dexamethasone stimulates synthesis of mannose receptors in macrophages. Extracellular accumulation of hexosaminidase was sharply reduced by dexamethasone treatment, and corresponded with the rise in mannose-receptor activity. Extracellular levels of hexosaminidase from untreated macrophages were modestly increased by the presence of mannan, while the extracellular activity from dexamethasone-treated cells was increased significantly by mannan. Extracellular hexosaminidase, released from zymosan-treated macrophages, was dramatically reduced by dexamethasone pretreatment. Enzyme released from zymosan-stimulated macrophages was efficiently endocytosed by dexamethasone-treated cells in co-culture experiments, and this endocytosis was blocked by the addition of mannan. These results suggest that the mannose receptor of macrophages may play a role in regulating extracellular levels of lysosomal enzymes via a secretion-recapture mechanism.     

Effects of low density lipoproteins and mevinolin on sympathetic responsiveness in cultured chick atrial cells. Regulation of beta-adrenergic receptors and alpha s

We have previously demonstrated that cultures of myocytes from embryonic chick atria grown in media supplemented with fetal calf serum from which lipoproteins have been removed demonstrate a nearly 10-fold increase in sensitivity of beating to the muscarinic cholinergic agonist carbamylcholine compared with cells grown with control medium. This increased response to carbamylcholine was associated with a 1.4-fold increase in total cell cholesterol, a 2-fold increase in the number of muscarinic receptors which bind agonist with high affinity, and a 2-fold increase in the levels of the alpha subunits of Go and Gi (Haigh, L. S., Leatherman, G. F., O'Hara, D. S., Smith, T. W., and Galper, J. B. (1988) J. Biol. Chem. 263, 15608-15618). In the studies reported here, we determined the responsiveness of cells grown in lipoprotein-depleted serum (LPDS) to beta-adrenergic stimulation. Isoproterenol stimulated a contractile response of 58% measured as an increase in amplitude of contraction with a half-maximal effect at 3 x 10(-7) M for cells grown in fetal calf serum, but had no significant effect on amplitude of contraction on cells grown in LPDS. In cells grown in media supplemented with fetal calf serum, isoproterenol (1 x 10(-3) M) stimulated adenylate cyclase activity 100% over basal with an EC50 of 7 x 10(-6) M compared with an increase of 32% in cells grown in media supplemented with LPDS. beta-Adrenergic receptor number as measured by the binding of 125I-pindolol decreased from 24 +/- 3 (+/- S.E., n = 6) fmol/mg protein in cells grown under control conditions to 12 +/- 2 (n = 6) fmol/mg protein in media supplemented with LPDS. The level of alpha s as measured both by ADP-ribosylation with cholera toxin in the presence of 32P-NAD and by immunoblotting with specific antibody to alpha s decreased by 3-fold in cells grown in media supplemented with LPDS compared with control. All of these effects of growth of cells in LPDS were reversed by incubating cells with LPDS plus 30 microM mevinolin, an inhibitor of endogenous cholesterol synthesis. These studies indicate that growth of cells in media supplemented with LPDS results in a coordinate decrease in the levels of beta-adrenergic receptors and alpha s. Taken together with our previous studies these data support the hypothesis that the receptors and guanine nucleotide-binding proteins which mediate sympathetic and parasympathetic responsiveness in the heart are reciprocally regulated.     

Pre-and Postnatal Developmental Changes of Adrenoceptor Subtypes in Rat Brain

beta-Adrenergic receptor subtypes, beta 1 and beta 2, were studied during pre- and postnatal development in the rat brain. [125I]Iodocyanopindolol (6-300 pmol/L) binding assays in the presence of 5-hydroxytryptamine (0.6-6 mumol/L) were used to measure exclusively beta-adrenergic receptors. In forebrain tissue, saturable and stereoselective binding was detected on gestational day 13. The amount of beta-adrenergic binding increased until postnatal day 23, when adult values were reached. The dissociation constants of [125I]iodocyanopindolol binding remained the same throughout development, as did the affinity of several beta-adrenergic and non-beta-adrenergic compounds. The proportion of the beta 2-adrenergic receptors was determined using the beta 1-selective antagonist ICI-89406 (7-150 nmol/L) and was found to change from 65% in prenatal forebrain tissue to 28% in adulthood. In cerebellum/medulla pons tissue, however, the proportion of beta 2-receptor binding (80%) remained unchanged during the whole developmental period.