Effect of proteolytic enzymes on masked insulin receptors in rat submaxillary gland microsomes

Trypsin and alpha-chymotrypsin effects on masked insulin receptors were studied. Phospholipase C treatment, incubation in a high ionic strength buffer or solubilization were used as alternative procedures for the unmasking of insulin receptors. These three methods expose receptor structures which are inaccessible to insulin in the current experimental conditions of binding assays without any significant change in binding affinity. Both exposed and masked receptors proved to be equally sensitive to trypsin and alpha-chymotrypsin degradation. At 25 degrees C, about 5 micrograms trypsin/ml for 50 min or 80 micrograms alpha-chymotrypsin/ml for 200 min were necessary in each case to cause a 50% inhibition of the binding of 125I-iodo insulin to microsomes. The results suggest that masked receptors are only nonfunctional to bind insulin but they are not located in compartments inaccessible to molecules present in the medium.     

Characterization and Regulation of Insulin Receptors in Rat Brain

An in vitro receptor binding assay, using filtration to separate bound from free [125I]insulin, was developed and used to characterize insulin receptors on membranes isolated from specific areas of rat brain. The kinetic and equilibrium binding properties of central receptors were similar to those of hepatic receptors. The binding profiles in all tissues were complex and were consistent with binding in multiple steps or to multiple sites. Similar binding properties were found among receptors in olfactory tubercle/bulb, cerebral cortex, hippocampus, striatum, hypothalamus, and cerebellum. High affinity [125I]insulin binding sites (KD = 3-11 nM) were distributed evenly between membranes isolated from P1 and P2 fractions of these brain areas, with the exception of the olfactory tubercle in which binding to P2 membranes was four-fold greater (Bmax = 150 fmol/mg protein). One difference between insulin receptors in brain and peripheral target tissues, however, was observed. Following exposure to 0.17 microM insulin for 3 h at 37 degrees C, the number of specific [125I]insulin binding sites on adipocytes decreased by 40%, while the number of binding sites on minces of cerebral cortex/olfactory tubercle remained constant. The results suggest that although the binding characteristics of central and peripheral insulin receptors are similar, these receptors do not appear to be regulated in the same manner.     

Pharmacological characterization of tachykinin septide-sensitive binding sites in the rat submaxillary gland

Binding studies have shown that [125I]NKA is a selective ligand of tachykinin septide-sensitive binding sites from membranes of the rat submaxillary gland. Indeed, this ligand bound with high affinity to a single population of sites. In addition, competition studies indicated that natural tachykinins and tachykinin-related compounds had a similar affinity for these sites than for those labeled with [3H]ALIE-124, a selective ligand of septide-sensitive binding sites. Moreover, selective tachykinin NK2, or NK3 agonists or antagonists exhibited weak or no affinity for [125I]NKA binding sites. As indicated by Ki values of several compounds, the pharmacological characteristics of the septide-sensitive binding sites (labeled with [125I]NKA) largely differ from those of classic NK1 binding sites, as determined on crude synaptosomes from the rat brain using [125I]Bolton-Hunter substance P (SP) as ligand. Indeed, several tachykinins including neurokinin A (NKA), neuropeptide K (NPK), neuropeptide gamma (NKgamma), and neurokinin B, as well as some SP and NKA analogues or C-terminal fragments such as septide, ALIE-124, SP(6-11), NKA(4-10), which have a weak affinity for classic tachykinin NK1 binding sites exhibited a high affinity for the septide-sensitive binding sites. In contrast, SP, classic selective NK1 agonists, and antagonists had a high affinity for both types of binding sites. The presence of a large population of tachykinin septide-sensitive binding sites in the rat submaxillary gland may thus explain why NPK and NPgamma induce salivary secretion and may potentiate the SP-evoked response in spite of the absence of tachykinin NK2 receptors in this tissue.     

Characterization of insulin receptors in isolated epithelial cells of rat ventral prostate: effect of fasting

Insulin receptors have been characterized in rat prostatic epithelial cells by using [125I]insulin and a variety of physicochemical conditions. The binding data at equilibrium (2 h at 15 degrees C) could be interpreted in terms of two populations of insulin receptors: a class of receptors with high affinity (Kd = 2.16 nM) and low binding capacity (28.0 fmol mg-1 protein), and another class of receptors with low affinity (Kd = 0.29 microM) and high binding capacity (1.43 pmol mg-1 protein). Proinsulin exhibited a 63-fold lower affinity than insulin for binding sites whereas unrelated peptides were ineffective. The specific binding of insulin increased by about 50 per cent after 96 h of fasting; this increase could be explained by an increase of both the number of the high affinity-low capacity sites and the affinity of the low affinity-high capacity sites. These results together with previous studies on insulin action at the prostatic level strongly suggest that insulin may exert a physiological role on the prostatic epithelium.     

Insulin Binding to Human Astrocytoma Cells and Its Effect on Uridine Incorporation into Nucleic Acid

Binding of [125I]monoiodoinsulin to human astrocytoma cells (U-373 MG) was time dependent, reaching equilibrium after 1 h at 22 degrees C with equilibrium binding corresponding to 2.2 fmol/mg protein: this represents approximately 2,000 occupied binding sites per cell. The t1/2 of 125I-insulin dissociation at 22 degrees C was 10 min; the dissociation rate constant of 1.1 X 10(-2) s-1 was unaffected by a high concentration of unlabeled insulin (16.7 microM). Porcine insulin competed for specific 125I-insulin binding in a dose-dependent manner and Scatchard analysis suggested multiple affinity binding sites (higher affinity Ka = 4.4 X 10(8) M-1 and lower affinity Ka = 7.4 X 10(6) M-1). Glucagon and somatostatin did not compete for specific insulin binding. Incubation of cells with insulin (0.5 microM) for 2 h at 37 degrees C increased [2-14C]uridine incorporation into nucleic acid by 62 +/- 2% (n = 3) above basal. Cyclic AMP, in the absence of insulin, also stimulated nucleoside incorporation into nucleic acid [65 +/- 1% (n = 3)] above basal. Preincubation with cyclic AMP followed by insulin had an additive effect on nucleoside incorporation [160 +/- 4% (n = 3) above basal]. Dipyridamole (50 microM), a nucleoside transport inhibitor, blocked both basal and stimulated uridine incorporation. These studies confirm that human astrocytoma cells possess specific insulin receptors with a demonstrable effect of ligand binding on uridine incorporation into nucleic acid.     

Vasopressin and oxytocin receptors on plasma membranes from rat mammary gland. Demonstration of vasopressin receptors by stimulation of inositol phosphate formation, and oxytocin receptors by binding of a specific 125I-labeled oxytocin antagonist, d(CH2)5(1)[Tyr(Me)2, Thr4,Tyr-NH2(9)]OVT

The addition of oxytocin to minces of rat mammary gland preincubated with (3H)myo-inositol stimulated the formation of inositol phosphate (IP) in both lactating and regressed glands. Stimulation was about 4 times greater in regressed tissue, consistent with an oxytocin effect on myoepithelial cells, which are enriched relative to epithelial cells during regression. The stimulation of IP formation was agonist specific, as shown with several oxytocin analogs. Arginine vasopressin (AVP), however, was more than twice as potent as oxytocin in stimulating IP formation in regressed tissue. Both V1- and V2-selective AVP receptor antagonists inhibited the stimulation of IP formation by oxytocin. The V1-selective antagonist was about 10 times more inhibitory than the V2-selective antagonist. [3H]AVP was bound to plasma membranes from the mammary gland of the lactating rat with an apparent Kd of about 0.7 nM and Bmax of 54.6 fmol/mg protein. These values were comparable with those found for AVP receptors of kidney plasma membranes. Our results suggest that the stimulation of IP formation in rat mammary gland by oxytocin occurs through occupancy of AVP, and not oxytocin, receptor sites. A second aspect of these studies was to determine if a recently developed iodinated antagonist of oxytocin-induced uterine contractions could be used as a specific probe for oxytocin receptors in the rat mammary gland. Under steady state conditions, [125I]d(CH2)5(1)[Tyr(Me)2,Thr4,Tyr-NH2(9)]OVT was bound to a single class of independent binding sites in mammary gland plasma membrane from lactating rats with an apparent Kd of 65 pM and Bmax of 225 fmol/mg protein. Noniodinated antagonist had an affinity about 150 times less than the monoiodinated form. The affinity of binding sites for AVP was 10 times greater than the noniodinated antagonist and 2.4 times greater than oxytocin. In view of the presence of AVP receptors in mammary tissue, these findings suggested that the iodinated antagonist binds to AVP receptors. However, comparison of the binding of iodinated antagonist to plasma membranes from the lactating mammary gland with kidney medulla and liver, target sites for AVP, showed that binding was specific for the mammary gland and hence oxytocin receptors. The concentration of oxytocin receptors in mammary gland, as determined by [125I]d(CH2)5(1)[Tyr(Me)2,Thr4,Tyr-NH2(9)]OVT binding, was 4 times greater than the concentration of high-affinity AVP receptors, as determined by [3H]AVP binding.(ABSTRACT TRUNCATED AT 250 WORDS)     

Characterization of [125I]AR-M100613, a high-affinity radioligand for delta opioid receptors

AR-M100613 ([I]-Dmt-c[-D-Orn-2-Nal-D-Pro-D-Ala-]) is the iodinated analog of a cyclic casomorphin previously shown to be a potent antagonist at the delta opioid receptor. Specific [125I]AR-M100613 binding to rat whole brain membranes was saturable, reversible, and best fit to a one-site model (Kd = 0.080 +/- 0.008 nM, Bmax = 45.2 +/- 4.4 fmol/mg protein). [125I]AR-M100613 binding was displaced with high affinity by the delta opioid receptor ligands SNC-80, Deltorphin II and DPDPE but not the mu or kappa-selective receptor ligands DAMGO and U69593. Residual non-selective binding of [125I]AR-M 100613 to mu opioid receptors is blocked by the addition of CTOP to the assay buffer. [35S]GTPgammaS binding assays indicate that AR-M100613 is a potent, selective, and reversible antagonist for delta opioid receptors in rat brain membranes. The high-affinity, high specific activity, low nonspecific binding and antagonist profile of [125I]AR-M100613 favor its use as a radiochemical probe for delta opioid receptors.     

Direct demonstration of guanine nucleotide sensitive receptors for vasoactive intestinal peptide in the anterior lobe of the rat pituitary gland

The vasoactive intestinal peptide (VIP) receptors were identified on the membranes from the rat anterior pituitary gland with [125I]VIP. The dissociation constant (Kd) and the maximal binding capacity (Bmax) values were estimated from the competitive inhibition data. The Kd and Bmax values were 1.05 +/- 0.75 nM and 103 +/- 11 fmol/mg protein, respectively. The order of molar potency of related peptides to inhibit [125I]VIP binding was VIP greater than peptide histidine isoleucine (PHI) greater than secretin greater than glucagon. Glucagon was not effective to inhibit the binding. [125I]VIP binding was effectively inhibited by the addition of guanine nucleotides. The order of molar potency to inhibit the binding was Gpp(NH)p greater than GTP greater than GDP greater than GMP greater than ATP. These results directly suggest the coupling of VIP receptors with guanine nucleotide binding proteins in the anterior pituitary gland.     

Distribution of receptors for insulin and insulin-like growth factor I (somatomedin C) in the adrenal gland

Rat adrenal glands contain cell surface high-affinity receptors for several peptide hormones. Receptors for IGF-I were abundant in this tissue, but receptors for insulin were relatively scarce. The behavior of adrenal membrane IGF-I receptors in radioligand binding assays was similar to the behavior of IGF-I receptors from other tissues, with a KD congruent to 6.2 x 10(-9) M. Covalent cross-linking studies with [125I]IGF-I revealed an IGF-I receptor alpha-subunit with Mr congruent to 135,000 on dodecyl sulfate polyacrylamide gel electrophoresis under reducing conditions, as well as a smaller radiolabeled peptide, Mr = 116,000. In contrast, little binding of [125I]insulin to adrenal membranes was observed and no labeling occurred in cross-linking studies using [125I]insulin. These results contrast with the findings of whole-body autoradiographic studies that indicated substantial binding of [125I]insulin to adrenal glands and suggest that IGF-I, rather than insulin, may play a critical role in the growth and development of the adrenal gland.     

Insulin-like growth factor I (IGF-I) and insulin binding to erythrocytes of normal prepubertal children and adults.

Erythrocyte insulin-like growth factor I (IGF-I) and insulin receptors were characterized in 10 normal prepubertal children (5 girls and 5 boys) aged 4-11 yrs and 10 normal adults (4 women and 6 men) aged 32-47 yrs. erythrocytes were purified from 5 ml of blood by Ficoll-Paque gradient centrifugation. Reticulocytes count in the erythrocyte suspensions were lower than 1%. Insulin and IGF-I binding assays were performed simultaneously. Maximal percent binding of [125I] labelled IGF-I was significantly higher in prepubertal children than in adults (8.7 +/- 0.7% versus 6.2 +/- 0.5% at a concentration of 5 x 10(9) erythrocytes/ml). Scatchard analysis revealed the high affinity constant was better in prepubertal children (Ka = 4.6 +/- 1.3 nM-1 versus 1.8 +/- 0.2 nM-1), whereas the binding capacity was similar (5.8 +/- 1.1 versus 7.7 +/- 0.8 high affinity binding sites/cell). In both groups, unlabelled IGF-I inhibited tracer-binding half maximally at about 1 nM. Insulin was 100-fold less potent. In adults, specific binding of [125I] labelled IGF-I was higher in women (7.6 +/- 0.7%) than in men (5.3 +/- 0.4%). No significant difference was observed in maximal specific binding of [125I] labelled insulin between prepubertal children (8.2 +/- 0.5%) and adults (7.2 +/- 0.7%). In both groups, competition by unlabelled insulin for [125I] labelled insulin binding gave 50% displacement for approximately 0.25 nM and IGF-I was about 80-fold less potent. Both IGF-I and insulin binding parameters were not significantly correlated with plasma hormone levels. In prepubertal children, the high-affinity IGF-I receptors number decreased with increasing high-affinity insulin receptors number.(ABSTRACT TRUNCATED AT 250 WORDS)     

Pituitary somatostatin receptors. Characterization by binding with a nondegradable peptide analogue

Somatostatin receptors in the rat pituitary gland were characterized by binding analysis with a radioiodinated high affinity somatostatin analogue, 125I-Tyr1[D-Trp8]somatostatin. Receptor binding of this derivative reached equilibrium at 30 min and was maintained at a plateau for at least 60 min. Two L-Trp8- labeled somatostatin analogues. 125I-Tyr1- and [125I-Tyr11]somatostatin, displayed less stable and lower specific uptake and higher nonspecific binding. In contrast to the rapid degradation of the L-Trp8 ligands during binding assay, 125I-Tyr1]D-Trp8]somatostatin retained more than 80% of its binding activity after 90 min of incubation with pituitary particles. Pituitary particles bound 125I-Tyr1]D-Tyr8]somatostatin with high affinity (Ka = 8.6 +/- 1.2 X 10(9) M-1) and capacity of 54.4 +/- 2.6 fmol/mg. These binding sites showed specificity for the native peptide and its active analogues, and other peptide hormones, including angiotensin II, thyrotropin-releasing hormone, vasopressin, oxytocin, substance P, and gonadotropin-releasing hormone, did not inhibit tracer binding. A good correlation was observed between the binding affinities of several somatostatin analogues and their potencies as inhibitors of growth hormone release in rat pituitary cells. These findings emphasize the physiological importance of the pituitary somatostatin receptor in mediating the inhibitory action of the peptide on growth hormone release. The use of Tyr1[d-Trp8]somatostatin as a labeled ligand permits accurate determinations of the binding affinity and concentration of receptors for somatostatin in the normal pituitary gland and provides a basis for further studies of somatostatin receptor regulation and receptor-mediated cellular effects of the tetradecapeptide.     

Reciprocal changes of insulin and glucagon receptors in primary cultured hepatocytes

The specific [125I]insulin binding to primary cultured hepatocytes was significantly greater than that to freshly isolated hepatocytes. Low affinity insulin binding sites in cultured cells were 6-fold greater in number than those of freshly isolated cells without a significant change in high affinity sites. However, both sensitivity (insulin concentration for half maximum stimulation) and responsiveness (% of increase above the basal level) to insulin for the stimulation of ODC activity were similar for isolated and cultured cells indicating an important role of high affinity sites in the insulin action. On the other hand, the specific [125I]glucagon binding to cultured cells was significantly decreased. Low affinity glucagon binding sites in cultured cells decreased by about 50% in cultured cells without a significant change in high affinity sites. Both sensitivity and responsiveness to glucagon for the stimulation of ketogenesis from palmitate also decreased as compared with those of isolated cells, indicating an important role of low affinity sites in the glucagon action. These results indicate that insulin and glucagon receptors were reciprocally changed in cultured cells, as compared with isolated cells.     

Chicken Insulin Discriminates Between Receptors for Insulin and Insulin-Like Growth Factor I on Centrally-and Peripherally-Derived Glial Cells

Abstract

Insulin and IGF-I receptors in G26–20 cells, derived from a mouse oligodendroglioma, and in RN-2 cells, derived from a rat Schwannoma, were characterized by specific binding to [¹²⁵I]insulin and [¹²⁵I]IGF-I respectively. In both cell lines, the Kd for insulin was 1.5 nM. Insulin receptor number was 33,000/cell for RN-2 cells and 17,000 receptors/ cell for G26–20 cells. RN-2 cells have 700,000 IGF-I receptors/cell with a Kd of 2 nM while G26–20 cells have 60,000 receptors/cell with an affinity of 4.9 nM. However, the independence of these two receptor populations in each cell type was equivocal since the subunit structure of these receptors appears identical by electrophoresis. In both cell lines, competition with insulin analogs for [¹²⁵I]insulin binding demonstrated chicken insulin>insulin>IGF-I. Competition for [¹²⁵I]IGF-I binding showed that IGF-I was approximately 85-fold more potent than insulin. Chicken insulin was ineffective at all concentrations. Thus, chicken insulin can be used as a specific ligand to unequivocally discriminate between IGF-I and insulin receptors and effects.     

Comparison of two radiolabeled quinuclidinyl benzilate ligands for the characterization of the human peripheral lung muscarinic receptor

Quinuclidinyl benzilate, a muscarinic antagonist, has previously been used in its tritiated form ([3H]-QNB) to study the lung muscarinic receptor. We investigated whether a newer iodinated form of QNB ([125I]-QNB) of higher specific activity would be an appropriate ligand to study the human peripheral lung muscarinic receptor. Both the tritiated and iodinated ligands bound specifically to human lung at 23 degrees C. At 37 degrees C the specific binding of [3H]-QNB increased slightly, but no specific binding of [125I]-QNB was found. The data from multiple equilibrium binding experiments covering a wide range of radiolabeled QNB concentrations were combined and analyzed using the computer modeling program, LIGAND. The tritiated QNB identified a single affinity human lung binding site with a Kd of 46 +/- 9 pM and a receptor concentration of 34 +/- 3 fmol/mg protein. The iodinated QNB identified a single higher affinity human lung binding site (Kd = 0.27 +/- 0.32 pM) of much smaller quantity (0.62 +/- 0.06 fmol/mg protein). Competition studies comparing the binding of unlabeled QNB relative to labeled QNB indicated that unlabeled QNB had the same Kd as that measured for [3H]-QNB, but a 5 log greater Kd than that measured for [125I]-QNB. Other muscarinic receptor agonists and antagonists competed with [3H]-QNB, but not [125I]-QNB for binding to muscarinic receptors with the expected magnitude and rank order of potency. We conclude that of the 2 radiolabeled forms of QNB available, only the tritiated form should be used to study the human peripheral lung muscarinic receptor.     

Reconstitution of hormone-responsive detergent-solubilized follicle stimulating hormone receptors into liposomes

An FSH receptor-enriched fraction that responds to exogenous FSH by activation of adenylate cyclase was prepared by ultrafiltration of sucrose density gradient-purified light membranes derived from bovine calf testes homogenates and solubilized with Triton X-100. To further confirm the functional nature of the detergent-solubilized FSH receptor, the extract was incorporated by lipid hydration into large multilamellar vesicles composed of dioleoyl phosphatidylcholine and cholesterol, 2:1 molar ratio. Receptor incorporation was determined by measurement of specific binding of [125I] human FSH ([125I] hFSH). Substitution of dioleoyl phosphatidylcholine with dipalmitoyl phosphatidylcholine or increasing the cholesterol concentration of the vesicles reduced specific binding of [125I]hFSH. Under conditions favoring optimal incorporation of the receptor, specific binding of [125I]hFSH was time and temperature dependent and saturable when increasing concentrations of radioligand were added to a constant amount of proteoliposomes. Reconstituted proteoliposomes bound 1600 fmol FSH/mg protein with an affinity of 3.54 x 10(9) M-1. Inhibition of [125I] hFSH binding by hFSH was comparable to that seen with the membrane-bound receptor (ED50 = 10 ng). Equilibrium binding studies with [3H]Gpp(NH)p indicated that a single class of high affinity GTP binding sites with an association constant (Ka) of 3.33 x 10(7) m-1 which bound 2.19 fmol [3H]Gpp(NH)p/mg protein had also been incorporated into the proteoliposomes. Addition of FSH induced a 2-fold stimulation of [3H]Gpp(NH)p binding, supporting our earlier studies suggesting that the detergent-solubilized FSH receptor is complexed to the G protein. Of particular significance in the present study was the observation that both NaF and FSH stimulated cAMP production in the reconstituted system. In addition to belonging to a class of membrane receptors functionally and physically associated with G protein, this observation suggests that FSH receptors in bovine calf testicular membranes may be associated, at least in part, with adenylate cyclase as well.     

Down-regulation of mt1 melatonin receptors in rat ovary following estrogen exposure.

In this study, we have demonstrated that 2-[125I]-iodomelatonin binds specifically to rat ovarian granulosa cell (GC) membranes with high affinity (KD=83 pM; Bmax=3.28 fmol/mg protein). Using immunoblot analysis and an anti-mt1 melatonin receptor antibody, we have also detected mt1 melatonin receptors in rat ovary. Because melatonin has been reported to alter the steroidogenic responses of ovarian tissues to gonadotropins, a physiological role for intra-ovarian melatonin may exist. Thus, in order to investigate a possible intra-ovarian role for melatonin, we have used both an in vivo and in vitro model of follicular development. Treatment of immature (day 21) female rats with estradiol (E; 0.2 mg/d x 3 d; subcutaneous) was used to induce follicular growth. Membranes from both untreated (U) and E-treated animals' ovaries contained high-affinity 2-[125I]-iodomelatonin (I-MEL) binding sites (Kd=83 and 23 pM, respectively). Estradiol treatment in vivo caused a significant decrease (P<0.05) in binding of 2-[125I]-iodomelatonin to ovarian membranes with untreated animals' ovaries having a Bmax=3.28 fmol/mg protein vs. estradiol-treated animals' ovaries having a Bmax=0.92 fmol/mg protein. In addition, following Estradiol treatment, mt1 melatonin receptors in rat ovary were down-regulated (approximately 95%) using immunoblot analysis. Granulosa cells isolated from E-treated rats were further matured in vitro with testosterone (T) and the pituitary gonadotropin follicle-stimulating hormone (FSH). Granulosa cells were cultured with either T (10 ng/ml) or FSH (5.71 ng ovine FSH-20/ml) alone, or both FSH and T for 48 h. There was no statistically significant specific binding of 2-[125I]-iodomelatonin to GC membranes cultured with T or FSH alone. However, following a 48-h exposure to FSH and T in vitro specific 2-[125I]-iodomelatonin binding occurred with total 2-[125I]-iodomelatonin binding =3.15 [corrected] fmol/mg protein. Therefore, the existence of hormonally-regulated expression of high-affinity melatonin binding sites suggests that melatonin may have an important intra-ovarian physiological role.     

Characterization of epidermal growth factor receptor in rat buccal mucosal cells

1. Receptor binding for epidermal growth factor (EGF) in rat buccal mucosa was characterized. Binding of [125I]EGF to rat buccal mucosa was time, temperature, cell number and [125I]EGF concentration dependent. 2. The [125I]EGF binding was reversible and specific. Unlabeled EGF competed for binding to buccal mucosal cells with an IC50 of 1.25 nM, whereas insulin failed to compete. 3. Scatchard analysis of the binding data revealed a curvilinear plot with dissociation constants of 3.39 nM and 2.14 microM, and binding capacities of 1.23 x 10(4) and 3.38 x 10(5) receptors per cell for high and low affinity sites, respectively. 4. Crosslinking of [125I]EGF to buccal mucosa followed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis showed one major protein with Mw 170,000 which shares similar molecular weight with other known EGF receptors from different tissues and species. 5. The study is the first report to provide biochemical parameters of the specific EGF receptors in rat buccal mucosa.     

Effect of hydrocortisone on beta-adrenergic receptors in lung membranes.

It has been observed that glucocorticoids potentiate beta-adrenergic stimulation of cardiovascular and airway tissues. In order to investigate the mechanism of this potentiating action, we examined the effect of glucocorticoids on the number and affinity of beta-adrenergic receptors in animal lung tissues, by a direct binding technique using [125]I-Iodohydroxybenzylpindolol ([125]I-HYP), a potent beta-adrenergic receptor antagonist. Specific binding of [125]I-HYP to rat lung membranes was saturable with 386 fmol of [125]I-HYP/mg protein at saturation. The apparent equilibrium dissociation constant of [125]I-HYP for beta-receptors was 221 nM. Chronic administration of hydrocortisone increased the density of beta-adrenergic receptors by 70% from 386 fmol to 657 fmol/mg with some decrease in the affinity of [125]I-HYP for beta-adrenergic receptors. By contrast, adrenalectomy produced a 29% fall in the number of beta-adrenergic receptors without altering the affinity of [125]I-HYP for beta-receptors, and this change was reversed by exogenous adminstration of hydrocortisone. The present study suggests that glucocorticoids may participate in regulating the density of beta-adrenergic receptors, and may potentiate beta-adrenergic receptors stimulation, at least in part by increasing beta-receptor density in tissue membranes.     

Design of an Affinity Matrix for Purification of the Histamine H1 Receptor from Guinea Pig Cerebellum

H1 receptors from guinea pig cerebellum were solubilized using digitonin, and [125I]iodobolpyramine was used as a probe. [125I]Iodobolpyramine binding to this solubilized preparation occurred with a KD of 0.1 nM and a Bmax of 220 fmol/mg of protein and was inhibited by various H1 ligands with the expected potencies. Using a gel filtration procedure, a very sensitive radioassay was set up for detecting H1 activity in the solubilized preparation: 0.1 nM [125I]iodobolpyramine specific binding represented greater than 90% of total binding. Moreover, the synthesis is described of potent H1 antagonists that are mepyramine derivatives with an amino alkyl acylamido alkyl spacer arm. One of them, UCL 1057 (Ki = 0.5 nM), has been coupled to a Sepharose epoxy-activated resin. The resulting affinity matrix adsorbed selectively [125I]iodobolpyramine binding sites from the guinea pig cerebellum soluble preparation. In contrast, a Sepharose-glycine matrix was not able to adsorb these sites.     

Insulin-like growth factor I (IGF-I) receptors and IGF-I action in oligodendrocytes from rat brains.

Oligodendrocyte progenitor cells were prepared by mechanical dissociation of 1-day-old rat brain cultures. These cells undergo proliferation and differentiation into oligodendrocytes as demonstrated by the expression of proliferation and differentiation-related specific antigens. We have used this unique culture system to characterize insulin-like growth factor I (IGF-I) receptors and their action in the central nervous system (CNS). 125I-IGF-I specifically binds to these cultures with high affinity. Competition-inhibition data suggest that IGF-I is most potent in competing for 125I-IGF-I binding, followed by IGF-II and insulin. Scatchard analyses of the binding data indicate a curvilinear plot with a Kd for high affinity of 0.2 nM, and a Bmax of 247 fmol/mg, and a Kd for low affinity of 3.2 nM and Bmax of 1213 fmol/mg protein. Covalent cross-linking followed by SDS-PAGE analysis demonstrated a radioactive band of Mr 135,000 which corresponds to the alpha subunit of the IGF-I receptor. Solution hybridization/RNase protection assay produced a single protected band corresponding to IGF-I receptor messenger RNA, further confirming the presence of these receptors. Incubation of progenitor cells with IGF-I resulted in a time- and concentration-dependent increase in [3H]thymidine incorporation and cell numbers. This effect appears to be mediated by IGF-I receptors since IGF-II and insulin were proportionately less potent. In addition to its effect on proliferation, IGF-I also increased the number of 4E7- and GC-antigen positive cells. These observations indicate that oligodendrocytes in primary culture express specific IGF-I receptors and that the interaction of IGF-I with these receptors results in the proliferation as well as differentiation of oligodendrocytes.