Identification of somatostatin receptors by covalent labeling with a novel photoreactive somatostatin analog

We have synthesized two photoreactive derivatives of somatostatin, namely [125I-Tyr11,azidonitrobenzoyl (ANB)-Lys4]somatostatin and [125I-Tyr11,ANB-Lys9]somatostatin, and used them to characterize somatostatin receptors biochemically in several cell types. Saturation binding experiments carried out in the dark demonstrated that [125I-Tyr11,ANB-Lys4]somatostatin bound with high affinity (KD = 126 +/- 39 pM) to a single class of binding sites in GH4C1 pituitary cell membranes. The affinity of this analog was similar to that of the unsubstituted peptide [125I-Tyr11]somatostatin (207 +/- 3 pM). In contrast, specific binding was not observed with [125I-Tyr11,ANB-Lys9]somatostatin. The binding of both [125I-Tyr11,ANB-Lys4]somatostatin and [125I-Tyr11]somatostatin was potently inhibited by somatostatin (EC50 = 300 pM) whereas at 100 nM unrelated peptides had no effect. Furthermore, both pertussis toxin treatment and guanyl-5'yl imidophosphate (Gpp(NH)p) markedly reduced [125I-Tyr11,ANB-Lys4]somatostatin binding. Thus, [125I-Tyr11,ANB-Lys4]somatostatin binds to G-protein coupled somatostatin receptors with high affinity. To characterize these receptors biochemically, GH4C1 cell membranes were irradiated with ultraviolet light following the binding incubation, and the labeled proteins were identified by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography. A major band of 85 kDa was specifically labeled with [125I-Tyr11,ANB-Lys4]somatostatin but not with [125I-Tyr11,ANB-Lys9]somatostatin or [125I-Tyr11]somatostatin. The binding affinity of the 85-kDa protein for [125I-Tyr11,ANB-Lys4]somatostatin was very high (Kd = 34 pM). Labeling of this protein was inhibited competitively by somatostatin (EC50 = 140 +/- 80 pM) but not by unrelated peptides. Furthermore, this band was not labeled in pertussis toxin-treated membranes or in untreated membranes incubated with Gpp(NH)p. Finally, [125I-Tyr11,ANB-Lys4]somatostatin specifically labeled bands of 82, 75, and 72 kDa in membranes prepared from mouse pituitary AtT-20 cells, rat pancreatic acinar AR4-2J cells, and HIT hamster islet cells, respectively. Thus, [125I-Tyr11,ANB-Lys4]somatostatin represents the first photolabile somatostatin analog able to bind to receptors with high affinity. Our studies demonstrate that this novel peptide covalently labels specific somatostatin receptors in a variety of target cell types.     

Characterization of bombesin receptors in a rat pituitary cell line

Bombesin is a tetradecapeptide which stimulates prolactin secretion in rats and man and in cultures of GH4C1 cells, a clonal strain of rat pituitary tumor cells. We have utilized [125I-Tyr4]bombesin to identify and characterize specific high affinity receptors in GH4C1 cells. Scatchard analysis of equilibrium binding data at 4 degrees C indicated the presence of a single class of non-interacting binding sites for bombesin (RT = 3600 +/- 500 sites/cell). The value for the equilibrium dissociation constant (Kd = 1.2 +/- 0.4 nM) agreed closely with the ED50 (0.5 nM) for bombesin stimulation of prolactin release. [125I-Tyr4]Bombesin binding at steady state at 37 degrees C was inhibited by increasing concentrations of unlabeled bombesin in a dose-dependent manner, with an ID50 = 1.4 +/- 0.2 nM. However, binding of [125I-Tyr4] bombesin was not inhibited by 100 nM thyrotropin-releasing hormone, vasoactive intestinal peptide, epidermal growth factor, or somatostatin. Therefore, [125I-Tyr4]bombesin binds to a receptor distinct from the receptors for other peptides which regulate hormone secretion by GH4C1 cells. The analog specificity for high affinity binding showed that the receptors for bombesin recognize the COOH-terminal octapeptide sequence in the molecule. Among five pituitary cell strains tested, two which contained saturable binding sites for [125I-Tyr4]bombesin (GH4C1 and GH3) had previously been shown to respond to bombesin with increased hormone secretion, whereas three which lacked receptors (GC, F4C1, and AtT20/D16v) were unresponsive. Therefore, the [125I-Tyr4]bombesin binding sites appear to be necessary for the biological actions of bombesin. Examination of the processing and metabolism of receptor-bound peptide demonstrated that at 4 degrees C [125I-Tyr4]bombesin binds to receptors on the surface of GH4C1 cells. At 37 degrees C, receptor-bound peptide is rapidly internalized and subsequently degraded in lysosomes. In summary, we have characterized for the first time specific, high affinity pituitary bombesin receptors which are necessary for the biological action of bombesin.     

The processing of receptor-bound [125I-Tyr11]somatostatin by RINm5F insulinoma cells

The peptide somatostatin (SRIF) is secreted by delta cells of the endocrine pancreas and inhibits the secretion of insulin from pancreatic beta cells. We have previously shown that [125I-Tyr11]SRIF binds to specific, high affinity receptors on RINm5F insulinoma cells and that these receptors mediate the action of SRIF to inhibit insulin release. In the present study we investigated the processing of receptor-bound [125I-Tyr11]SRIF in this clonal cell line. Surface-bound and internalized peptides were distinguished by the ability of an acid/salt solution (0.2 M acetic acid, 0.5 M NaCl, pH 2.5) to dissociate only exposed ligand-receptor complexes. Surprisingly, greater than 80% of saturably bound [125I-Tyr11]SRIF was removed by this acid wash independent of the time or temperature of the binding incubation. In contrast, the processing of receptor-bound [125I]EGF (epidermal growth factor) in RINm5F cells was markedly temperature-dependent. Although over 90% of saturably bound [125I]EGF was dissociated by acid after a 4 degrees C binding incubation, less than 10% was removed by acid treatment after 37 degrees C binding. The radioactivity released upon dissociation of receptor-bound [125I-Tyr11]SRIF was analyzed by high performance liquid chromatography and shown to consist of a mixture of intact peptide (40%) and [125I]tyrosine (60%). However, neither the rate of [125I-Tyr11]SRIF dissociation nor its degradation were affected by NH4Cl, methylamine, or leupeptin at concentrations which inhibited the lysosomal degradation of [125I] EGF. Of 11 other protease inhibitors tested, only the metalloendoprotease inhibitor, phosphoramidon, substantially reduced the degradation of receptor-bound [125I-Tyr11]SRIF. These data indicate that, unlike [125I] EGF, receptor-bound [125I-Tyr11]SRIF is not rapidly internalized by RINm5F cells and is degraded by a nonlysosomal process which may involve a metalloendoprotease.     

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.     

Specific, high affinity relaxin-like factor receptors.

The relaxin-like factor (RLF) is a circulating hormone that binds to specific membrane-bound uterine receptors in the mouse. Mono-iodinated RLF tracers were produced and characterized specifically to study the properties of the RLF receptor. The tracers bound to the RLF receptor in uterine crude membrane preparations with high affinity (73 nM for (125)I-Tyr(A9) RLF and 90 nM for (125)I-Tyr(A26) RLF) as determined by Scatchard analysis. The specificity of binding was confirmed by chemical cross-linking experiments. Binding of (125)I-Tyr(A9) RLF to the putative receptor was inhibited in the presence of a 640-fold excess of unlabeled human RLF but not by the same excess of human relaxin. SDS-gel electrophoresis of the RLF-receptor complex revealed a molecular mass of >200 kDa, which remained unchanged upon reduction. The size and the lack of subunit structure of the receptor is similar to the features reported for the relaxin receptor. In this regard both, the RLF and the relaxin receptor are different from the insulin- and the insulin-like growth factor-type 1 receptors. This observation supports the relaxin-likeness of this new factor not only toward potential target tissues but also as regards receptor features.     

The binding of bombesin and somatostatin and their analogs to human colon cancers.

Specific receptors for bombesin/gastrin-releasing peptide, somatostatin, and EGF were investigated in 15 human colon cancer specimens. Eight of 15 clinical specimens (15%) of colon cancer showed the presence of somatostatin receptors. Octapeptide somatostatin analogs, RC-160 and RC-121, showed 10 times higher binding affinity for somatostatin receptors on colon cancer membranes than somatostatin. Analysis of 125I-Tyr4-bombesin binding data revealed the presence of specific binding sites in six (40%) specimens of human colon cancer. Scatchard analysis of 125I-labeled bombesin indicated a single class of receptors in three specimens with an apparent Kd value of 2.5 nM and two classes of receptors with high (Kd = 0.4 +/- 0.2 nM) and low affinity (Kd = 1.6 +/- 0.4 microM) in three other specimens. The 125I-Tyr4-bombesin binding capacities in the colon cancers for high affinity binding sites were from 6 to 228 fmol/mg protein and for low affinity binding sites 76 +/- 15 pmol/mg protein. None of the membrane preparations made from normal colonic mucosa specimens showed specific binding for 125I-Tyr4-bombesin. Five pseudononapeptide (psi 13-14) bombesin (6-14) antagonists, with different modifications at Positions 6 and 14, synthesized in our laboratory, inhibited the binding of 125I-Tyr4-bombesin in nanomolar concentrations. No correlation was found between the degree of differentiation and the presence of binding sites for somatostatin or bombesin. Specific binding of EGF was detected in 80% of colon cancer specimens. EGF binding capacity in colon cancer membranes was on average twice as high as in normal colon mucosa (50 +/- 21 vs 28 +/- 14 fmol/mg protein, respectively). Specific binding sites for somatostatin and EGF, but not bombesin, were also demonstrated in human colon cancer cell line HT-29. In HCT-116 colon cancer line only EGF receptors were found. These receptor findings and our in vivo studies on inhibition of colon cancer growth support the merit of continued evaluation of somatostatin analogs and bombesin/gastrin-releasing peptide antagonists in the management of colonic carcinoma.     

High affinity receptors for bombesin/GRP-like peptides on human small cell lung cancer

The binding of a radiolabeled bombesin analogue to human small cell lung cancer (SCLC) cell lines was investigated. (125I-Tyr4)bombesin bound with high affinity (Kd = 0.5 nM) to a single class of sites (2,000/cell) using SCLC line NCI-H446. Binding was reversible, saturable and specific. The pharmacology of binding was investigated using NCI-H466 and SCLC line NCI-H345. Bombesin and structurally related peptides, such as gastrin releasing peptide (GRP), but not other peptides, such as substance P or vasopressin, inhibited high affinity (125I-Tyr4)BN binding activity. Finally, the putative receptor, a 78,000 dalton polypeptide, was identified by purifying radiolabeled cell lysates on bombesin or GRP affinity resins and then displaying the bound polypeptides on sodium dodecylsulfate polyacrylamide gels. Because SCLC both produces bombesin/GRP-like peptides and contains high affinity receptors for these peptides, they may function as important autocrine regulatory factors for human SCLC.     

Characterization of functional receptors for somatostatin in rat pituitary cells in culture.

GH4C1 cells are a clonal strain of rat pituitary tumor cells which synthesize and secrete prolactin and growth hormone. Somatostatin, a hypothalamic tetradecapeptide, inhibits the release of growth hormone and, under certain circumstances, also prolactin from normal pituitary cells. We have prepared [125I-Tyr1]somatostatin (approximately 2200 C1/mmol) and have shown that this ligand binds to a limited number of high affinity sites on GH4C1 cells. Half-maximal binding of somatostatin occurred at a concentration of 6 x 10(-10) M. A maximum of 0.11 pmol of [125I-Tyr1]somatostatin was bound per mg of cell protein, equivalent to 13,000 receptor sites per cell. The rate constant for binding (kon) was 8 x 10(7) M(-1) min(-1). The rate constant for dissociation (koff) was determined by direct measurement to be 0.02 min(-1) both in the presence and absence of excess nonradioactive somatostatin. Binding of [125I-Tyr1]somatostatin was not inhibited by 10(-7) M thyrotropin-releasing hormones. Substance P, neurotensin, luteinizing hormone-releasing hormone, calcitonin, adrenocorticotropin, or insulin. Of seven nonpituitary cell lines tested, none had specific receptors for somatostatin. Somatostatin was shown to inhibit prolactin and growth hormone production by CH4C1 cells. The dose-response characteristics for binding and the biological actions of somatostatin were essentially coincident. Furthermore, among several clonal pituitary cell strains tested, only those which had receptors for somatostatin showed a biological response to the hormone. We conclude that the characterized somatostatin receptor is necessary for the biological actions of somatostatin on GH4C1 cells.     

Characterization of specific somatostatin binding sites in guinea pig lung

Somatostatin binding sites have been demonstrated in the cytosolic fraction of guinea-pig lung. Binding of 125I-Tyr11-somatostatin was dependent on time and temperature, saturable, reversible and highly specific. Under equilibrium condition, i.e. 60 min at 25 degrees C, native somatostatin inhibited tracer binding in a dose-dependent manner. Two types of somatostatin binding sites were defined by Scatchard analysis: a small population with a high affinity (Kd = 23.4 nM) and a large population with a low affinity (Kd = 253.5 nM) for somatostatin. The biphasic nature of the dissociation process confirmed the heterogeneity of somatostatin binding sites. Apart from somatostatin, no peptide (1 microM) tested influenced the binding of 125I-Tyr11-somatostatin. The present data represent the first analysis of somatostatin binding sites in lung.     

Chemical cross-linking of somatostatin receptors in rat adrenal cortex

Adrenocortical somatostatin receptors have been shown to interact with somatostatin-14 (S-14) and somatostatin-28 (S-28). To determine whether these peptides interact with the same or different receptor proteins, we chemically cross-linked these receptors using disuccinimidyl suberate to radioligands prepared from tyrosinated S-14 and S-28 analogs. Sodium dodecylsulfate-polyacrylamide gel electrophoresis and subsequent autoradiography of [125I-Tyr11] S-14 and [Leu8, D-Trp22, 125I-Tyr25] S-28 cross-linked to their binding sites following solubilization in the presence of 50 mM DTT revealed the presence of a single labelled protein of Mr = 200,000. When the cross-linked material was treated under non-reducing conditions, this band was not observed. Furthermore, addition of excess S-14 and S-28 at the time of binding inhibited the incorporation of both radioligands into the receptor protein. These results demonstrate that adrenocortical membrane receptors for somatostatin contain a single receptor protein sub-unit or sub-units of identical size which interact with both S-14 and S-28.     

Accessible hyaluronan receptors identical to ICAM-1 in mouse mast-cell tumours

Immunohistochemical studies of the hyaluronan (HA)-receptor (R), originally found on liver endothelial cells (LEC) and related to the intercellular adhesion molecule 1 (ICAM-1), showed that polyclonal antibodies against HARLEC (HA receptor on LEC) also stain structures in mouse mastocytomas, mainly vessels. To test if intravenously administered HA might target the tumour receptorsin vivo, mice carrying an inoculated mastocytoma in one hind leg muscle were injected in the tail vein with¹²⁵I-tyrosine (T)-labelled HA and killed 75 min after injection when organs and tissues were checked for radioactivity. When doses exceeding the binding capacity of the liver were injected, a significant increase in radioactivity (up to five-fold) within the tumour tissue was found. The weight adjusted difference between control and tumour tissue was greater for smaller tumours, probably due to necrosis in the larger. HA-staining of tumours from animals receiving¹²⁵I-T-HA, showed HA in areas that also stained weakly for ICAM-1 using monoclonal antibodies. ICAM-1 staining was dramatically increased after hyaluronidase treatment of the sections, indicating that the HA is bound to these receptors and thereby blocks antibody recognition.Abbreviations ICAM-1 intercellular adhesion molecule 1 - HA hyaluronan - HARLEC hyaluronan receptor on liver endothelial cells - MW molecular weight     

B2 bradykinin receptor-like binding in rat renomedullary interstitial cells

A particulate fraction from cultured rat renomedullary interstitial cells (RRIC) was prepared for bradykinin (BK) binding studies. Incubation of three radiolabeled BK analogs, [125I-Tyr1]kallidin, [125I-Tyr5]-BK, and [125I-Tyr8]-BK, with the particulate fraction resulted in degradation of these peptides. Assay conditions which prevented hydrolysis of these radiolabeled kinins were determined. Under these conditions, direct binding studies were performed with [125I-Tyr1]kallidin (TlK) as the radioligand. BK binding affinity, apparent Kassoc. = 1.3 X 10(9) M-1, and specificity, determined with 51 BK analogs, were consistent with those expected of a B2 BK receptor.     

High-affinity receptors for bombesin-like peptides in normal guinea pig lung membranes.

The binding of the radiolabelled bombesin analogue [125I-Tyr4]bombesin to guinea-pig lung membranes was investigated. Binding of [125I-Tyr4]bombesin was specific, saturable, reversible and linearly related to the protein concentration. Scatchard analysis of equilibrium binding data at 25 degrees C indicated the presence of a single class of non-interacting binding sites for bombesin (Bmax = 7.7 fmol/mg protein). The value of the equilibrium dissociation constant (KD = 90 pM) agrees with a high-affinity binding site. Bombesin and structurally related peptides such as [Tyr4]bombesin, neuromedin B and neuromedin C inhibited the binding of [125I-Tyr4]bombesin in an order of potencies as follows: [Tyr4]bombesin greater than bombesin greater than or equal to neuromedin C much greater than neuromedin B. These results indicate that guinea-pig lung membranes possess a single class of bombesin receptors with a high affinity for bombesin and a lower one for neuromedin B.     

Calcitonin receptors of human osteoclastoma

Osteoclast-rich cultures were prepared by disaggregation of osteoclastomas (giant cell tumour of bone) and settlement onto glass or plastic surfaces. Autoradiography using [125I]-salmon calcitonin ([125I]-sCT) revealed specific binding only to multinucleate giant cells (osteoclasts) and a minor population of mononuclear cells. [125I]-sCT competitive binding studies indicated a Kd of 5 x 10(-10) M and receptor number of approximately 1 million sites/osteoclast. sCT treatment resulted in a dose-dependent rise in cAMP (EC50 10(-10) M). Homogenates of an osteoclastoma also demonstrated specific binding of [125I]-sCT. Chemical cross-linking of a labelled synthetic sCT derivative. [125I]-[Arg11,18,Lys14]-sCT, using disuccinimidyl suberate, resulted in labelling of a receptor component of approximate Mr 85-90,000. The multinucleate giant cells (osteoclasts) of human osteoclastomas possess large number of CT receptors which exhibit the same binding kinetics and apparent Mr as those of other CT target cells.     

Characterization of ligand binding and processing by bombesin receptors in an insulin-secreting cell line.

Bombesin is a tetradecapeptide which stimulates insulin secretion in vivo by isolated islets and by HIT-T15 cells, a clonal line of hamster pancreatic-islet cells. In the present study we have used [125I-Tyr4]bombesin to characterize bombesin receptors in HIT-T15 cells. [125I-Tyr4]Bombesin binding was time- and temperature-dependent: maximum binding occurred after 45 min, 90 min and 10 h at 37, 22 and 4 degrees C respectively. Thereafter, cell-associated radioactivity declined at 37 degrees C and 22 degrees C but not at 4 degrees C. Scatchard analysis of [125I-Tyr4]bombesin binding measured at 4 degrees C showed that HIT-T15 cells contain a single class of binding sites (approximately equal to 85000/cell) with an apparent Kd of 0.9 +/- 0.11 nM. Structurally unrelated neuropeptides did not compete for [125I-Tyr4]bombesin binding. However, the relative potencies of bombesin and four bombesin analogues in inhibiting the binding of [125I-Tyr4]bombesin correlated with their ability to stimulate insulin release. Receptor-mediated processing of [125I-Tyr4]bombesin was examined by using an acid wash (0.2 M-acetic acid/0.5 M-NaCl, pH 2.5) to dissociate surface-bound peptide from the cells. Following [125I-Tyr4]bombesin binding at 4 degrees C, more than 85% of the cell-associated radioactivity could be released by acid. When the temperature was then increased to 37 degrees C, the bound radioactivity was rapidly (t1/2 less than 3 min) converted into an acid-resistant state. These results indicate that receptor-bound [125I-Tyr4]bombesin is internalized in a temperature-dependent manner. In fact, the entire ligand-receptor complex appeared to be internalized, since pretreatment of cells with 100 nM-bombesin for 90 min at 37 degrees C decreased the subsequent binding of [125I-Tyr4]bombesin by 90%. The chemical nature of the cell-associated radioactivity was determined by reverse-phase chromatography of the material extracted from cells after a 30 min binding incubation at 37 degrees C. Although 70% of the saturably bound radioactivity was co-eluted with intact [125I-Tyr4]bombesin 90% of the radioactivity subsequently dissociated from cells chromatographed as free iodide. At least some of the degradation of receptor-bound [125I-Tyr4]bombesin appeared to occur in lysosomes, since chloroquine increased the cellular accumulation of [125I-Tyr4]bombesin at 37 degrees C and slowed the release of radioactivity.(ABSTRACT TRUNCATED AT 400 WORDS)     

(Tyr(0),Bpa(4))bombesin is a GRP receptor agonist

(Tyr(0),Bpa(4))bombesin, (YB)BB was synthesized and its biologic activity evaluated using T47D breast cancer cells. ((125)I-Tyr(0), Bpa(4))BB bound with high affinity (K(d) = 5 nM) to T47D cells. Specific ((125)I-Tyr(0),Bpa(4))BB binding was inhibited with high affinity by BB, BW2258U89, GRP, GRP(14-27) and NMB (IC(50) values of 10, 2, 15, 20, and 150 nM)but not GRP(1-16) (IC(50) value of > 1000 nM). ((125)I-Tyr(0),Bpa(4))BB bound to the surface of T47D cells at 4 degrees C but was internalized at 37 degrees C. After binding at 4 degrees C followed by irradiation using ultraviolet light, ((125)I-Tyr(0),Bpa(4))BB labeled a 75 kDa protein using T47D cells. (Tyr(0),Bpa(4))BB, 10 nM, elevated cytosolic calcium using T47D cells within 10 s. Also (Tyr(0),Bpa(4))BB, 10 nM, elevated c-fos mRNA after 45 min. These results indicate that (Tyr(0),Bpa(4))BB is an agonist for GRP receptors.     

Analogues of Somatostatin Bind Selectively to Brain Somatostatin Receptor Subtypes

Somatostatin (SRIF) is a neurotransmitter that produces its multiple effects in the CNS through interactions with membrane-bound receptors. Subtypes of SRIF receptors are found in the CNS that are distinguished by their sensitivities to the cyclic hexapeptide MK-678, such that SRIF1 receptors are sensitive to MK-678 and SRIF2 receptors are insensitive to MK-678. In the present study, we further examined the selectivities of a series of structurally diverse SRIF analogues for SRIF receptor subtypes. SRIF receptors were labeled by 125I-Tyr11-SRIF, which has indistinguishable affinities for SRIF receptor subtypes. The inhibition by MK-678 was incomplete, indicating this peptide is highly selective for a subtype of SRIF receptor that we have termed the SRIF1 receptor. The binding of 125I-MK-678 to SRIF1 receptors was monophasically inhibited by SRIF, the octapeptides (such as SMS-201-995), and the hexapeptides (such as MK-678), consistent with the highly selective labeling of a subtype of SRIF receptor. In contrast, the smaller CGP-23996-like analogues did not inhibit 125I-MK-678 binding to SRIF1 receptors. The binding of 125I-CGP-23996 to SRIF receptors was inhibited by SRIF and the octapeptides with Hill coefficients of less than 1, indicating that 125I-CGP-23996 labels multiple SRIF receptor subtypes. The hexapeptides and CGP-23996-like compounds produced only partial inhibitions of 125I-CGP-23996 binding, which were additive, indicating selective interactions of these compounds with the different receptor subpopulations labeled by 125I-CGP-23996. 125I-Tyr11-SRIF binding and 125I-CGP-23996 binding to SRIF receptors were likewise only partially affected by 100 microM guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S), a concentration that completely abolishes specific 125I-MK-678 binding to SRIF1 receptors. The component of 125I-CGP-23996 labeling that was sensitive to GTP gamma S was also MK-678 sensitive. Thus, two subpopulations of SRIF receptors exist in the CNS. The SRIF1 receptor is sensitive to cyclic hexapeptides such as MK-678 and to GTP gamma S but insensitive to smaller CGP-23996-like compounds. The SRIF2 receptor is sensitive to the CGP-23996-like compounds and can be selectively labeled by 125I-CGP-23996 in the presence of high concentrations of the hexapeptides or GTP gamma S because, unlike the SRIF1 receptor, the SRIF2 receptor is insensitive to these agents. The SRIF receptor subtype-selective peptide analogues will be useful in the future characterization of the functions mediated by SRIF receptor subtypes in the CNS.     

Characterization of an intracellular hyaluronic acid binding site in isolated rat hepatocytes.

125I-HA, prepared by chemical modification at the reducing sugar, specifically binds to rat hepatocytes in suspension or culture. Intact hepatocytes have relatively few surface 125I-HA binding sites and show low specific binding. However, permeabilization of hepatocytes with the nonionic detergent digitonin results in increased specific 125I-HA binding (45-65%) and a very large increase in the number of specific 125I-HA binding sites. Scatchard analysis of equilibrium 125I-HA binding to permeabilized hepatocytes in suspension at 4 degrees C indicates a Kd = 1.8 x 10(-7) M and 1.3 x 10(6) molecules of HA (Mr approximately 30,000) bound per cell at saturation. Hepatocytes in primary culture for 24 h show the same affinity but the total number of HA molecules bound per cell at saturation decreases to approximately 6.2 x 10(5). Increasing the ionic strength above physiologic concentrations decreases 125I-HA binding to permeable cells, whereas decreasing the ionic strength above causes an approximately 4-fold increase. The divalent cation chelator EGTA does not prevent binding nor does it release 125I-HA bound in the presence of 2 mM CaCl2, although higher divalent cation concentrations stimulate 125I-HA binding. Ten millimolar CaCl2 or MnCl2 increases HA binding 3-6-fold compared to EGTA-treated cells. Ten millimolar MgCl2, SrCl2, or BaCl2 increased HA binding by 2-fold. The specific binding of 125I-HA to digitonin-treated hepatocytes at 4 degrees C increased greater than 10-fold at pH 5.0 as compared to pH 7.(ABSTRACT TRUNCATED AT 250 WORDS)     

New specific radioligand for one subpopulation of brain somatostatin receptors

Cyclic octapeptide analogues of somatostatin (SS) like SMS 201-995 [H-(D) Phe-Cys-Phe-(D) Trp-Lys-Thr-Cys-Thr(ol)] or its Tyr3-derivative 204-090, displaced [125I-Tyr11]-SS 100% from pancreatic membranes but only 62-75% from brain membranes; the remaining sites were displaced by SS. These data indicate that some mini-somatostatins bind to a subpopulation of SS receptors in rat brain. The iodinated Tyr3-derivative (125I-204-090) can be considered a selective radioligand for one rat brain SS receptor subpopulation: It shows saturable and high affinity binding (KD = 0.29 nM; Bmax = 350 fmoles/mg protein) to rat cortex. The pharmacological properties of 125I-204-090 binding sites are similar to those of [125I-Tyr11]-SS sites. Distribution of these sites correspond to SS receptor-rich areas such as cortex, hippocampus, striatum, pituitary, pancreatic beta-cell. SS as well as SMS 201-995 bind to these sites with high affinity. The stability and high specific vs non-specific binding ratio makes 204-090 a radioligand of choice to measure this SS receptor subpopulation in CNS but also the SS receptors in pituitary and pancreas.