Regulation of growth hormone release from cultured human pituitary adenomas by somatomedins and insulin

GH secretion is stimulated by hypothalamic GH-releasing factor (GHRH) and inhibited by somatostatin. Since GH induces the production of insulin-like growth factors (IGF) in liver and other tissues, it is of interest to learn whether IGF alters GH release through long loop feedback inhibition. Pituitary adenomas which had been removed from six acromegalic patients were processed for dispersed cell cultures and/or cell membrane preparations. Binding studies using 125I-labeled IGF-I, IGF-II, and insulin revealed specific hormone binding for each ligand to cell membranes derived from four somatotropinomas. A partially purified somatomedin preparation inhibited basal and/or GHRH-stimulated GH release from cultured pituitary cells derived from three of four adenomas; there was no effect of somatomedin in one tumor. In a single tumor, insulin also partially inhibited GHRH-stimulated GH release. Additionally, in one nonadenomatous pituitary removed from a patient with diabetes mellitus, insulin and somatomedin inhibited GHRH-stimulated GH release, and insulin inhibited basal GH secretion. These results indicate that specific cell membrane receptors for somatomedin peptides and insulin may be found on cell membranes from GH-secreting tumors, and that somatomedins and insulin can inhibit GH release in cultured human somatotropinoma cells. Thus, these data suggest that somatomedins may exert feedback inhibition of GH secretion in some patients with acromegaly.     

Characterization of insulin-like growth factor binding proteins secreted by cultured bovine theca and granulosa cells.

Insulin-like growth factor binding proteins (IGFBPs) secreted by bovine granulosa and theca interna cells cultured in the presence of different luteinizing factors--insulin (2 micrograms/ml), forskolin (10 microM), or a combination of the two were examined and characterized. Direct binding of [125I]IGF to the conditioned media was compared to progesterone production under these different treatments. In theca cells, maximal secretion of IGFBPs was achieved using forskolin alone, whereas maximal progesterone production was induced by the insulin+forskolin treatment. In contrast, maximal secretion of both IGFBPs and progesterone in granulosa cells was achieved using forskolin alone. IGFBP species secreted by the two cell types under the different treatments were detected by ligand blotting. Conditioned media from theca cells in serum-free medium collected on the seventh day of culture exhibited three bands of 34, 40 and 44 kDa when treated with insulin or forskolin. The intensity of the 40-44 kDa complex was enhanced and a 21 kDa band appeared when cells were treated with a combination of insulin plus forskolin. Conditioned media of granulosa cells stimulated with insulin or forskolin exhibited 21, 27, 29, 34 and 40-44 kDa bands. Treatment with insulin+forskolin greatly increased the intensity of a 40-44 kDa complex. A similar shift towards high molecular weight binding proteins was observed when these media were analyzed by high-performance liquid chromatography gel filtration. These findings substantiate the secretion of IGFBPs by bovine theca and granulosa cells and show it to be dependent on culture treatment.(ABSTRACT TRUNCATED AT 250 WORDS)     

Characterization of a specific insulin-like growth factor-I/somatomedin-C receptor on high density, primary monolayer cultures of bovine articular chondrocytes: regulation of receptor concentration by somatomedin, insulin and growth hormone

In order to obtain a phenotypically stable cell population of chondrocytes, high density primary monolayer cultures of bovine articular chondrocytes were established. Using these cultures, a specific insulin-like growth factor-I/somatomedin-C (IGF-I/SM-C) receptor was demonstrated and characterized. At 15 degrees C steady-state binding was attained by 5 h, and averaged 25% per 2.2 X 10(6) cells. Fifty per cent displacement of 125I-labelled IGF-I/SM-C by unlabelled IGF-I/SM-C occurred at concentrations of only 2.3 ng/ml, whereas IGF-II and porcine insulin were approximately 15- and 1000-fold less potent respectively. Scatchard analysis gave a linear plot, with a calculated association constant of 2.26 X 10(9) l/mol and a receptor number of 15 400 sites per cell. Preincubation of chondrocyte monolayers with either IGF-I SM-C or porcine insulin at 37 degrees C for 20 h resulted in reduction of 125I-labelled IGF-I/SM-C binding in a dose-dependent manner, although higher concentrations were required with insulin. More than 40% down-regulation of the receptor occurred with IGF-I/SM-C at concentrations of 10 nmol/l and nearly 70% reduction at 50 nmol/l. Interestingly, after preincubation with either human (h) or bovine (b) GH, 40% down-regulation of 125I-labelled IGF-I/SM-C binding was observed at concentrations of 10 mumol/l. Local production of IGF-I/SM-C by chondrocytes in response to GH stimulation may have occurred, but, because only 120 pmol IGF-I/SM-C and less than 30 pmol IGF-I/SM-C per litre were recovered from serum-free conditioned media preincubated with bGH and hGH respectively, this was not established.(ABSTRACT TRUNCATED AT 250 WORDS)     

Specific receptors for epidermal growth factor in human bone tumour cells and its effect on synthesis of prostaglandin E2 by cultured osteosarcoma cell line

Using tumour cell lines derived from human bone tumours, specific binding sites for epidermal growth factor (EGF), a potent growth stimulator in many tissues, and its effect on synthesis of prostaglandin (PG) E2, a potent bone-resorbing factor, by cultured osteosarcoma cell line were studied. Three tumour cell lines, one osteosarcoma (HOSO) and two giant cell tumours of the bone (G-1 and G-2), all possessed specific binding sites for 125I-labelled EGF: the apparent dissociation constant was approximately 4-10 X 10(-10) M and the maximal binding capacity was 50 000-80 000 sites/cell. EGF had no mitogenic effect in these cell lines. However, these cell lines did not have specific binding sites for 125I-labelled parathyroid hormone (PTH) or calcitonin. HOSO line produced and secreted PGE2 into medium, while no significant amount of PGE2 was demonstrated in G-1 or G-2 line. EGF significantly stimulated PGE2 production in HOSO line in a dose-dependent manner (0.5-50 ng/ml); its stimulatory effect was completely abolished by indomethacin, an inhibitor of PG biosynthesis. Exogenous PGE1 significantly stimulated cyclic AMP formation in HOSO line, whereas PGF2 alpha, PTH, calcitonin, or EGF had no effect. None of these calcium-regulating hormones affected cyclic AMP generation in either G-1 or G-2 line. These data indicate that human bone tumour cells have specific EGF receptors unrelated to cell growth, and suggest that EGF may be involved in bone resorption through a PGE2-mediated process in human osseous tissues.     

Hormonal regulation of somatomedin secretion by fetal rat hepatocytes in primary culture

To determine which hormones might regulate somatomedin secretion in the fetus, we measured somatomedin levels in conditioned medium from primary cultures of fetal rat hepatocytes. We employed a bioassay [( 3H]thymidine incorporation into DNA of chick embryo fibroblasts), a displacement assay [competition for binding of radiolabeled multiplication-stimulating activity (rat insulin-like growth factor II) to the somatomedin-binding protein] for total somatomedin, and the RIA for somatomedin-C. Epidermal growth factor and dexamethasone were the most active hormones tested; total somatomedin levels were 2-3 times above control levels. Rat GH was much less stimulatory. Human placental lactogen, glucagon, and insulin had little or no effect. Stimulation of somatomedin secretion by both epidermal growth factor and dexamethasone was time and dose dependent. The maximal response occurred at 48 h at a concentration of about 1 X 10(-7) M of either hormone. In the bioassay, stimulation by epidermal growth factor, but not dexamethasone, was detected. The steroid enhanced the secretion of an inhibitor that completely masked the mitogenic activity of the increased somatomedin levels. The somatomedin secreted by fetal hepatocytes exhibited immunological cross-reactivity with human somatomedin-C, but the levels were 500-fold less than those measured by our displacement assay. This suggests that the predominant fetal rat somatomedin is not somatomedin-C. We conclude that epidermal growth factor and dexamethasone, but not GH or placental lactogen, stimulated the secretion by fetal hepatocytes of a somatomedin which resembled multiplication-stimulating activity.     

The binding of insulin and somatomedin A to human placental membrane.

A particulate membrane fraction from human placental membrane was shown to be rich in binding sites not only for insulin but also for somatomedin A. The binding of the 125I-labelled peptide was time and temperature dependent. Degrading activity present in the membrane fraction was negligible at +4 degrees C. The Scatchard plot for insulin binding revealed two types of binding sites with an apparent high affinity constant of 3.8 times 108 M(-1) and with 5.4 times 10(-9) moles of binding sites per mg of membrane protein. The Scatchard analysis of somatomedin A revealed two classes of binding sites with an apparent high affinity constant of 2.7 times 107 M(-1) and with 1.9 times 10(-8) moles of binding sites per mg of membrane protein. In high concentrations insulin interfered with the specific binding sites for somatomedin A and vice versa. In comparison with insulin the somatomedin A preparation was one million times more potent in displacing labelled somatomedin A than in displacing labelled insulin from their respective binding sites. A radioreceptor assay utilizing particulate placental membrane and labelled somatomedin A purified on the membrane enabled the determination of somatomedin in unextracted serum. The mean values of somatomedin A in sera from patients with pituitary dwarfism and acromegaly were 0.57 and 3.2 U/ml, respectively by radioreceptor assay and 0.41 and 1.61 U/ml, respectively by bioassay. Various causes of this discrepancy between the methods are discussed.     

Growth hormone receptors in rat liver membranes: effects of fasting and refeeding, and correlation with plasma somatomedin activity

The effects of fasting and refeeding on hepatic growth hormone receptors, on insulin receptors and on plasma somatomedin activity were studied. Female rats were either subjected to fasting for 4 days, refed for 3 days after a 4-day fasting, or allowed free access to food (controls). The specific binding of 125I-labelled bovine growth hormone was low in liver microsomal membranes (45% that of controls) and in plasma membranes (52% that of controls) of fasted rats. The number of somatotropic sites rather than the affinity of the binding was decreased. Lactogenic sites as judged by the binding of 125I-labelled human growth hormone were not significantly reduced in liver membranes of fasted rats. 125I-labelled insulin specific binding was enhanced in microsomal (184% that of controls) and plasma membranes (136% that of controls) of fasted rats; these modifications were associated with a decreased insulinemia. But immunoreactive rat growth hormone levels were not different in plasma of fasted, refed and control animals. Decreased plasma bioassayable somatomedin was associated with the low number of somatotropic binding sites in liver membranes of fasted rats. Somatomedin activity of refed animals was comparable to controls. A significant correlation between the plasma bioassayable somatomedin and the hepatic level of somatotropic binding sites was found. It is proposed that, in fasting, the loss of somatotropic binding sites in the liver is one of the possible causes of the decreased plasma somatomedin bioactivity.     

Receptors for insulin and insulin-like growth factor in cultured arterial smooth muscle cells depend on their growth state

The binding of 125I-labelled insulin and 125I-labelled insulin-like growth factor (IGF) to cultured arterial smooth muscle cells from rats was studied during various growth states of the cells. The level of binding of 125I-labelled insulin to the cells was low in growing cells and high in stationary cells. The level of 125I-labelled IGF binding to the cells was high in growing cells and low in stationary cells. In addition, the effect of unlabelled IGF and insulin on the binding of both 125I-labelled hormones to the cells was examined during various growth states. In growing cells insulin displaced 125I-labelled insulin from its binding sites; IGF competed weakly with 125I-labelled insulin for the binding sites. In parallel, IGF displaced 125I-labelled IGF binding whereas insulin competed weakly with 125I-labelled IGF for the binding sites. In stationary cells both hormones displaced 125I-labelled IGF binding. Insulin-like growth factor also displaced 125I-labelled insulin binding whereas insulin could not significantly displace 125I-labelled insulin from the binding sites. Insulin only competed with 125I-labelled insulin for the binding sites after removal of the fetal calf serum from the culture medium.     

Receptor binding and biological effect of insulin in human adipocytes

Summary The binding of¹²⁵I-labelled insulin to human adipocytes was studied at 37° C. The precipitability of the¹²⁵I-labelled insulin preparation (0.03 nmol/l) in trichloroacetic acid and the concentration of biologically active insulin (7.5 nmol/l) remained constant in buffer incubated with human adipocytes (100 l cells/ml suspension) for 30–60 minutes at 37° C, whereas more than half of the insulin was inactivated by rat fat cells under the same conditions. A constant level of binding of¹²⁵I-labelled insulin (0.03 nmol/l) to human adipocytes was obtained after 45 minutes. The apparent dissociation constant of receptor binding was about 0.2 nmol/l as compared to about 2 nmol/l for rat adipocytes. Conversion of [U-¹⁴C]glucose to lipids was stimulated half-maximally by about 0.05 nmol/l of insulin (similar to rat adipocytes). Thus, half-maximal stimulation of human adipocytes was obtained with a receptor occupancy of about 20–30 per cent.     

Insulin inhibits apolipoprotein B secretion in isolated human hepatocytes

The effect of insulin on apolipoprotein (apo) B secretion was investigated in human hepatocytes. Freshly isolated hepatocytes, prepared by collagenase dispersion of liver specimens, were incubated in serum-free media in the absence and presence of 100 nmol/L insulin for 2 hours. The media was then assayed for apo B content by radioimmunoassay. In hepatocytes incubated without insulin, the secretion of apo B (relative to human low-density lipoprotein [LDL]) was 125 +/- 37 ng/10(6) cells/2 hours. In the presence of insulin, apo B secretion was reduced to 83 +/- 29 ng/10(6) cells/2 hours (34% inhibition, P less than .05). These results using human hepatocytes are consistent with previous data from our laboratory describing insulin-dependent inhibition of apo B secretion in primary cultures of rat hepatocytes and studies by others employing the human-derived hepatoma cell line, Hep G2. We conclude that human hepatic apo B secretion is under insulin control. The role of more chronic insulin exposure requires further investigation.     

Insulin stimulates synthesis and release of human chorionic gonadotropin by choriocarcinoma cell lines

Recent studies have shown that insulin regulates placental lactogen, progesterone, and estrogen production from human trophoblast cells. This study was performed to examine whether insulin also regulates the production of hCG by this type of cell. After 24-36 h of preincubation, JEG-3 and JAR cells (2-3 x 10(5) cells/ml.well) or human term trophoblast cells (1 x 10(6) cells/ml.well) were exposed to the test hormone in serum-free Dulbecco's Modified Eagle's Medium for 24-96 h. Secretion of hCG from JEG-3 cells was stimulated by human insulin, human proinsulin, or porcine insulin in a dose-dependent manner, with lowest effective doses of 6.7, 96, and 53 mg/L, respectively. Time-course studies showed that hCG secretion peaked at 72-96 h with insulin exposure; in contrast, no decernable peak was seen without insulin in serum-free media. Exposure of JEG-3 cells for 24 h to 209 mg/liter insulin stimulated hCG synthesis, with 40 +/- 3% more immunoreactive intracellular hCG (P less than 0.05). Cells grown in the presence of insulin and [35S]methionine had 47 +/- 21% more labeled intracellular hCG and 56 +/- 13% more immunoprecipitable [35S]methionine-hCG secreted into the medium than the control cultures (P less than 0.05). During this time period, human placental lactogen release and total trichloroacetice acid-precipitable [35S]methionine protein were not increased. The insulin-induced stimulation of hCG synthesis was inhibited by cycloheximide. Additionally, insulin did not significantly affect total intracellular protein during 24-96 h of incubation. Insulin also increased hCG release from JAR cells, but not from human term trophoblast cells. A mouse monoclonal antibody to the IGF-I receptor inhibited the stimulation of insulin in JEG-3 cells. We conclude that insulin stimulates the synthesis and secretion of hCG from JEG-3 cells and JAR cells, and that hCG regulation in choriocarcinoma cells differs from that in primary human placental trophoblast cells. The effect of insulin on JEG-3 cells may be mediated in part through the insulin-like growth factor-I receptor.     

Secretion of insulin-like growth factor-I (IGF-I) and IGF-binding proteins from bovine mammary tissue in vitro.

In vitro, insulin-like growth factor-I (IGF-I) promotes both growth and development of bovine mammary tissue. In vivo, the effects of IGF-I may encompass endocrine, paracrine or autocrine mediation. We addressed the possibility of paracrine/autocrine effects of IGF-I in the mammary gland by examining the in-vitro secretion of IGF-I and IGF-binding proteins (IGFBPs) from bovine mammary tissue. Bovine mammary explants from pregnant non-lactating and lactating non-pregnant animals were found to synthesize and secrete IGF-I and IGFBPs. Mammary acini cultures, representative of mammary secretory epithelia, secreted both IGF-I and IGFBP, but synthesized only IGFBP. Concentrations of IGF-I in conditioned media from explants were 1.54 and 0.72 fmol/micrograms DNA for pregnant and lactating animals respectively. Concentrations of IGFBPs in conditioned media from explants were similar for both physiological states at 2529 pmol 125I-labelled IGF-I bound/micrograms DNA. Ligand/Western blotting procedures identified four IGFBPs of 29, 33, 37 and 44 kDa for acini cultures and five IGFBPs of 28, 31, 36, 44 and 46 kDa for explant cultures. Similar affinities for IGF-I and IGF-II were shown by IGFBP, using 125I-labelled recombinant human IGF-I as the competing ligand (median effective dose (ED50) of 0.085 pmol). When 125I-labelled bovine IGF-II was used as the ligand, only bovine IGF-II (ED50 of 0.25 pmol) inhibited binding. The addition of prolactin, insulin and cortisol, with or without GH, did not affect secretion of either IGF-I or IGFBP. This report describes the ability of normal mammary tissue to synthesize and secrete IGF-I and IGFBPs.     

Characterization of high affinity receptors for insulin-like growth factors I and II on rat anterior pituitary cells

Primary cultures of rat anterior pituitary cells were assessed for the presence of specific receptors for insulin and for the somatomedin peptides, insulin-like growth factors I and II (IGF-I and IGF-II). Specific binding per 100,000 pituitary cells averaged 9.45 +/- 1.69% (mean +/- SD) for [125I]IGF-II, 0.83 +/- 0.06% for [125I]IGF-I, and only 0.11% for [125I]insulin, IGF-II was twice as potent as IGF-I in displacing [125I]IGF-II, while insulin was totally nonreactive, IGF-I was 5-fold more potent than IGF-II at displacing [125I]IGF-I and 1000-fold more potent than insulin. Scatchard analysis of [125I]IGF-II binding revealed a curvilinear plot, which could be resolved into a high affinity receptor with a Ka of 7.0 X 10(8) M-1 and 120,000 receptor sites/cell, and a low affinity receptor with a Ka of 1.1 X 10(8) M-1 and 720,000 receptor sites/cell. The existence of abundant high affinity somatomedin receptors (especially for IGF-II) on rat anterior pituitary cells is consistent with a potential role for these peptides in the regulation of GH secretion.     

An autocrine/paracrine role for insulin-like growth factors in the regulation of human placental growth

Tissue derived from preterm (9-19 weeks gestation) and term (38-41 weeks gestation) human placentae were examined for their ability to synthesize and secrete insulin-like growth factors (IGFs) in organ culture. IGF-I was measured by a specific RIA, and IGF-II by a rat placental membrane radioreceptor assay. First, explants of placental tissue were maintained in organ culture. These explants secreted immunoreactive IGF-I (IR-IGF-I). There were no differences in the IR-IGF-I content of media conditioned by term and preterm placentae under these conditions. The similarity of this material to authentic human IGF-I was supported by parallel displacement in a specific RIA and coelution during Sephadex G-50 gel filtration. Second, monolayer cultures of fibroblasts from normal human preterm placentae (15-19 weeks gestation) were established. Confluent monolayers of these fibroblasts secreted IR-IGF-I (3-10 pg/10(5) cells X 40 h). IR-IGF-I secretion was reversibly inhibited by 5.3 microM cycloheximide, suggesting that the IR-IGF-I was the result of de novo protein synthesis. IR-IGF-I secretion was stimulated 5-fold by platelet-derived growth factor (0.6 U/ml). The response of monolayers of placental fibroblasts to IGF-I also was tested. IGF-I stimulated alpha-[3H]aminoisobutyric acid transport in these fibroblasts, with half-maximal stimulation occurring at 2-3 ng/ml. Stimulation of alpha-[3H]aminoisobutyric acid uptake by IGF-I correlated with specific binding of [125I]iodo-IGF-I. Half-maximal inhibition of [125I]iodo-IGF-I binding occurred at 2-3 ng/ml IGF-I. Placental tissue also secreted IGF-II-like activity, as measured by radioreceptor assay. Media conditioned by placental explants contained 15-20 ng/mg protein X 48 h, and media conditioned by placental fibroblasts contained 3-7 ng/10(5) cells X 40 h IGF-II determined by radioreceptor assay. These data support the hypothesis that the human placenta produces IGFs (IGF-II and/or IGF-I) that act locally to regulate placental growth.     

Immunological and insulin secretory studies on isolated porcine islets of Langerhans.

Since porcine islets are considered a likely tissue source for islet transplantation we have studied the insulin secretory responses to stimuli and some of the cell surface antigen characteristics of porcine islet cells. In a static incubation system, the threshold level of glucose required for the stimulation of insulin secretion from freshly isolated porcine islets was found to be between 2.8 and 4.2 mmol glucose/l. Arginine (5 mmol/l) and 3-isobutyl-l-methylxanthine (1 mmol/l) potentiated insulin release induced by 8.3 mmol glucose/l. Leucine (5 mmol/l) initiated release in the presence of 2 mmol glucose/l. Neither beta-hydroxybutyrate (10 mmol/l) nor octanoate (5 mmol/l) potentiated insulin release induced by 8.3 mmol glucose/l, but beta-hydroxybutyrate initiated release in the presence of 2 mmol glucose/l while octanoate did not. A 125I-labelled protein A binding assay and an enzyme-linked immunosorbent assay system were used to detect antibody binding to islet and non-islet cells. Monoclonal antibodies raised against intact rat islets were shown to bind to both porcine and rat islet cells but not to rat hepatoma tissue culture cells or rat insulinoma cells. The serum from recently diagnosed type I diabetics was shown to bind to rat islet cells in a 125I-labelled protein A binding assay, while serum from control subjects showed little, if any, binding. Porcine islet cells were unable to distinguish between the sera of recently diagnosed type I diabetics and controls in a similar assay. In conclusion, porcine islets respond to many of the major insulin secretagogues to which human islets are sensitive.(ABSTRACT TRUNCATED AT 250 WORDS)     

Stimulation of DNA synthesis in chicken muscle satellite cells by insulin and insulin-like growth factors: evidence for exclusive mediation by a type-I insulin-like growth factor receptor.

Insulin-like growth factors-I and -II (IGF-I and IGF-II) stimulate proliferation, differentiation, nutrient uptake and protein accretion in muscle cells. These effects are thought to be mediated through the type-I IGF receptor although a role for the type-II IGF receptor cannot be ruled out, since it has been found in most cells studied so far. Current evidence suggests that the chicken does not have a type-II IGF receptor and therefore provides a good model to study the function of IGF peptides. We have compared the effects of insulin and insulin-like growth factors on DNA synthesis with the binding of these peptides to receptors in primary chicken muscle satellite cells. Human IGF-I (hIGF-I), hIGF-II and porcine insulin increased thymidine incorporation into DNA by threefold in muscle satellite cells prepared from neonatal chickens. IGF-I and -II were almost equipotent, with half-maximum effective concentrations of 10 micrograms/l, and were 1000-fold more potent than insulin. A combination of maximum effective concentrations of all three peptides was not additive, suggesting that their effect was mediated by the same receptor. Receptor binding studies on satellite cells demonstrated the presence of specific IGF receptors. Human IGF-I inhibited the binding of 125I-labelled hIGF-I with a much higher potency than insulin, as usually observed for a type-IIGF receptor. However, unlabelled hIGF-II exhibited a higher potency than hIGF-I in displacing 125I-labelled hIGF-I. Affinity cross-linking of 125I-labelled hIGF-I and -II, followed by sodium dodecyl sulphate-polyacrylamide gel electrophoresis, showed that hIGF-I and -II bound to a receptor with the structural characteristics of a type-I IGF receptor and confirmed the lack of a type-II IGF receptor in these cells. The concentrations of IGF-I, -II and insulin required for biological action and to displace 125I-labelled hIGF-I binding were similar, and support the hypothesis that their effects on proliferation were mediated exclusively through a type-I IGF receptor.     

Autocrine growth induced by the insulin-related factor in the insulin-independent teratoma cell line 1246-3A.

An insulin-independent teratoma-derived cell line, called 1246-3A, has been isolated from the adipogenic cell line 1246, which stringently requires insulin for proliferation. The 1246-3A cell line, which can proliferate in the absence of exogenous insulin, produces in its conditioned medium a growth factor similar to pancreatic insulin by its biological and immunological properties. This factor, called "insulin-related factor" (IRF), was purified and iodinated to study its binding to cell surface receptors. 125I-labeled IRF binding to intact 1246-3A cells is lower than to 1246 cells. Cell surface binding can be restored by culturing the 1246-3A cells in the presence of an anti-porcine insulin monoclonal antibody or by acid prewash of the cells prior to performing the binding. Scatchard analysis of binding indicates that IRF secreted by the 1246-3A cells partially occupies high-affinity binding sites on the producer cells. Moreover, insulin monoclonal antibody inhibits the proliferation of the IRF-producing 1246-3A cells, suggesting that these cells are dependent on the secreted IRF for growth in culture. We conclude that the insulin-related factor secreted by the insulin-independent 1246-3A cells stimulates their proliferation in an autocrine fashion.     

Different binding and degradation of proinsulin,insulin and insulin-like growth factor-1 (IGF-1) in cultured renal proximal tubular cells

Recent studies have reported that elevated proinsulin levels are indicative of an increased cardiovascular risk. Renal proximal tubular cells represent a major site for the metabolism of insulin-like hormones after glomerular filtration into the tubular lumen. To determine the binding and degradation of proinsulin in comparison with insulin and insulin-like growth factor-1 (IGF-1), we have used a rabbit proximal tubular cell line (PT-1). As confirmed by electron microscopy, PT-1 cells exhibit bipolar differentiation, demonstrating apical microvilli and invaginations of the basolateral membrane. To allow selective incubation of both compartments, cells were grown on filter membranes. Performing equilibrium binding assays with¹²⁵I-labelled hormones, severalfold higher binding was found at the apical than at the basolateral cell membrane, with the capacity range IGF-1>insulin>proinsulin. Half-maximal displacement of¹²⁵I-labelled insulin and IGF-1 was observed at 0.6 and 2 nM, respectively, while crossover binding to the alternate receptor occurred with a 10- to 100-fold lower affinity. Half-maximal displacement of¹²⁵I-proinsulin binding was obtained at approx. 8 nM proinsulin and insulin, whereas IGF-1 was 10-fold less potent. The relative degradation of specifically bound tracer was lowest for proinsulin (apical: 10%, basolateral: 13%). IGF-1 was degraded by 20% at the apical cell membrane, and up to 78% at the basolateral membrane. In contrast, almost the total amount of insulin bound was degraded at both membrane sites (apical: 99%, basolateral: 83%). These results suggest separate insulin and IGF-1 receptors, while proinsulin binds with high affinity to a third insulin-like receptor on the apical membrane of PT-1 cells.     

Partial characterization of somatomedin C-like immunoreactivity secreted by breast cancer cells in vitro

The in vitro secretion of immunoreactive somatomedin C/insulin-like growth factor I (IR Sm-C/IGF-I) by two human breast cancer cell lines, MCF-7 and EVSA-T has been studied. IR Sm-C/IGF-I concentration showed a linear increase in serum-free culture media over 72 h of incubation for both cell lines, and a close correlation with cell number (P less than 0.001). To characterize this immunoreactivity, a pool of conditioned media collected after 72 h of incubation was dialyzed overnight against 1 M acetic acid, lyophilized, and gel filtered on a Sephadex G-50 column. Fractions were determined for Sm-C/IGF-I content and for the presence of a specific carrier for Sm-C/IGF-I. Two peaks of Sm-C/IGF-I-like immunoreactivity were evidenced, the first in the high molecular weight region and the second corresponding to the molecular weight of the free peptide. The first peak evidenced also a specific binding ability for radioiodinated Sm-C/IGF-I, suggesting that the activity found in this region could be interpreted as interference of the specific free binding sites in the immunoassay. Analysis of this peak by polyacrylamide gel electrophoresis demonstrated the presence of a specific binding for Sm-C/IGF-I in a molecular weight range between 35,000 and 45,000 Da, which was not modified in reducing conditions. The binding activity was competitively inhibited by addition of cold Sm-C/IGF-I but not by insulin excess.(ABSTRACT TRUNCATED AT 250 WORDS)     

Regulation of insulin and glucagon secretion from a human islet cell adenoma.

The regulation of insulin biosynthesis, and insulin and glucagon secretion have been investigated in a human islet cell adenoma, by incubation of tumour fragments. Both biosynthesis and secretion of insulin were strongly stimulated by incubation of islet tumour cells in the presence of increasing glucose concentrations in the range 2-8 mmol/1. However, 20 mM-glucose or 20 mM-glucose plus isobutyl methylxanthine (IBMX), both of which provide potent secretagogues for normal B cells, failed to stimulate proinsulin biosynthesis and secretion from the tumour cells. Overall rates of secretion, expressed as a proportion of total insulin content, were up to 20-fold higher than those expected for normal pancreatic tissue. Glucagon secretion from the tumour was stimulated by low glucose concentrations; normal A cells also respond in this way under these conditions. However, no stimulation of glucagon secretion occurred in the presence of IBMX. There was therefore a major alteration in the regulation both of insulin and glucagon secretion, in that release of neither hormone was stimulated by cyclic AMP. Ultrastructural examination showed the tumour to be rather heterogeneous. A and B cells with normal storage granule content and structure were seen, as well as a rather larger number of B cells containing some granules of atypical appearance. The insulin content of the tumour (13 i.u./g wet wt) was consistent with 6-8% of the tumour cells being B cells.