Cyclic GMP Regulates Nicotine-Induced Secretion from Cultured Bovine Adrenal Chromaffin Cells: Effects of 8–Bromo–Cyclic GMP, Atrial Natriuretic Peptide, and Nitroprusside (Nitric Oxide)

Methacholine, atrial natriuretic peptide (ANP), nitroprusside (nitric oxide), angiotensin II, and bradykinin raised cyclic GMP (cGMP) levels in cultured bovine adrenal chromaffin cells. The role of cGMP in secretion from chromaffin cells was examined using 8-bromo-cGMP. This analogue had no effect on basal secretion or secretion due to angiotensin II, bradykinin, or a high K+ level but potentiated secretion due to low doses of nicotine. At supramaximal doses of nicotine, 8-bromo-cGMP inhibited secretion. These effects of 8-bromo-cGMP were not due to changes in the nicotine-induced rise in cytosolic calcium concentration. A potentiation of secretion due to low doses of nicotine was also found following simultaneous addition of ANP or nitroprusside, a result suggesting that ANP and nitric oxide (endothelium-derived relaxing factor) could be important regulators of secretion from adrenal chromaffin cells.     

HS-142-1, a novel polysaccharide of microbial origin, specifically recognizes guanylyl cyclase-linked ANP receptor in rat glomeruli.

HS-142-1, a novel polysaccharide, of microbial origin had been characterized as a specific antagonist of guanylyl cyclase-linked atrial natriuretic peptide (ANP) receptors (ANP-GC receptor) in bovine adrenal cortex. The effect of HS-142-1 on ANP receptors of rat glomeruli were examined. HS-142-1 blocked rat ANP (r-ANP)-stimulated cGMP production in a concentration-dependent manner, although it caused only slight inhibition in the specific binding of [125I]-rANP to the glomeruli where only a small portion of the binding sites are coupled to guanylyl cyclase. HS-142-1 recognized the 135K ANP receptor which is thought to be ANP-GC receptors but did not recognized 60K receptor, guanylyl cyclase-free type from affinity cross-linking studies with glomerular membranes. These results indicate that HS-142-1 is a specific antagonist for the ANP-GC receptor in rat glomeruli, and that it will be a powerful tool for understanding the physiological roles of ANP in renal responses.     

The Slow Cyclic GMP Increase Caused by Serotonin in NG108-15 Cells Is Not Inhibited by Antagonists of Known Serotonin Receptors: Possible Existence of a New Receptor Subtype Coupled with Membrane-Bound Guanylate Cyclase

Characterization of the serotonin (5-HT)-induced cyclic GMP (cGMP) elevation was investigated in comparison with bradykinin- and ANP-induced elevations in NG108-15 cells. At 20 s, 1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid tetraacetoxymethyl ester (BAPTA-AM, 100 microM), a membrane-permeabilized Ca2+ chelator, or N-monomethyl-L-arginine (NMMA, 300 microM), an inhibitor of L-arginine-derived nitric oxide (NO) synthesis, inhibited 5-HT-induced elevation by approximately 40%, and completely inhibited bradykinin-induced response. Neither 5-HT- nor ANP-induced cGMP elevation at 10 min was affected by BAPTA-AM or NMMA. The cGMP elevated by 5-HT as well as by ANP was effluxed to the extracellular medium. These results and our previous report suggest that 5-HT stimulates two subtypes of 5-HT receptors in NG108-15: first, 5-HT3 subtype stimulating Ca(2+)-sensitive cytosolic guanylate cyclase through NO derived from L-arginine and second, a probably novel 5-HT receptor subtype involved in activation of membrane-bound guanylate cyclase.     

Opioid Receptor and Calcium Channel Regulation of Adenylyl Cyclase,Modulated By GM1, in NG108-15 Cells: Competitive Interactions

GM1 ganglioside was previously shown to function as a specific regulator of excitatory opioid activity in dorsal root ganglion neurons and F11 hybrid cells, as seen in its facilitation of opioid-induced activation of adenylyl cyclase and its ability to dramatically reduce the threshold opioid concentration required to prolong the action potential duration. The elevated levels of GM1 resulting from chronic opioid exposure of F11 cells were postulated to cause the ensuing opioid excitatory supersensitivity. We now show that GM1 promotes opioid (DADLE)-induced activation of adenylyl cyclase in NG108-15 cells which possess the -type of receptor. In keeping with previous studies of other systems, this can be envisioned as conformational interaction of GM1 with the receptor that results in uncoupling of the receptor from G_i and facilitated coupling to G_s. This would also account for the observation that DADLE-induced attenuation of forskolin-stimulated adenylyl cyclase was reversed by GM1, provided the cells were not pretreated with pertussis toxin. When the cells were so pretreated, GM1 evoked an unexpected attenuation of forskolin-stimulated adenylyl cyclase attributed to GM1-promoted influx of calcium which was postulated to inhibit a calcium-sensitive form of adenylyl cyclase. This is concordant with several studies showing GM1 to be a potent modulator of calcium flux. Pertussis toxin in these experiments exerted dual effects, one being to promote interaction of the -opioid receptor with G_s through inactivation of G_i, and the other to enhance the GM1-promoted influx of calcium by inactivation of G_o; the latter is postulated to function as constitutive inhibitor of the relevant calcium channel. NG108-15 cells thus provide an interesting example of competitive interaction between two GM1-regulated systems involving enhancement of both opioid receptor excitatory activity and calcium influx.     

HS-142-1, a novel antagonist for natriuretic peptides,has no effect on the third member of membrane bound guanylate cyclases (GC-C) in T84 cells

HS-142-1, a novel non-peptide antagonist for natriuretic peptide, exerts antagonistic actions almost equally on two similar guanylate cyclase-linked natriuretic peptide receptors (GC-A and GC-B), but has little or no effect on the binding of natriuretic peptides to a membrane protein, the so-called “clearance receptor”, which binds all natriuretic peptides. The third mammalian form of membrane bound guanylate cyclases (GC-C) was identified not as a natriuretic peptide receptor, but as a receptor for heat-stable enterotoxins (STa). In this study, we examined effects of HS-142-1 on GC-C (STaR) in T84 cells and showed that HS-142-1 exerts neither agonistic nor antagonistic activity for GC-C, indicating that HS-142-1 is not a common antagonist for a family of membrane bound guanylate cyclase receptors, but a specific antagonist for the guanylate cyclase-linked natriuretic peptide receptors.     

A Novel Small Molecule FL118 That Selectively Inhibits Survivin,Mcl-1, XIAP and cIAP2 in a p53-Independent Manner,Shows Superior Antitumor Activity

Drug/radiation resistance to treatment and tumor relapse are major obstacles in identifying a cure for cancer. Development of novel agents that address these challenges would therefore be of the upmost importance in the fight against cancer. In this regard, studies show that the antiapoptotic protein survivin is a central molecule involved in both hurdles. Using cancer cell-based survivin-reporter systems (US 7,569,221 B2) via high throughput screening (HTS) of compound libraries, followed by in vitro and in vivo analyses of HTS-derived hit-lead compounds, we identified a novel anticancer compound (designated FL118). FL118 shows structural similarity to irinotecan. However, while the inhibition of DNA topoisomerase 1 activity by FL118 was no better than the active form of irinotecan, SN-38 at 1 µM, FL118 effectively inhibited cancer cell growth at less than nM levels in a p53 status-independent manner. Moreover, FL118 selectively inhibited survivin promoter activity and gene expression also in a p53 status-independent manner. Although the survivin promoter-reporter system was used for the identification of FL118, our studies revealed that FL118 not only inhibits survivin expression but also selectively and independently inhibits three additional cancer-associated survival genes (Mcl-1, XIAP and cIAP2) in a p53 status-independent manner, while showing no inhibitory effects on control genes. Genetic silencing or overexpression of FL118 targets demonstrated a role for these targets in FL118’s effects. Follow-up in vivo studies revealed that FL118 exhibits superior antitumor efficacy in human tumor xenograft models in comparison with irinotecan, topotecan, doxorubicin, 5-FU, gemcitabine, docetaxel, oxaliplatin, cytoxan and cisplatin, and a majority of mice treated with FL118 showed tumor regression with a weekly × 4 schedule. FL118 induced favorable body-weight-loss profiles (temporary and reversible) and was able to eliminate large tumors. Together, the molecular targeting features of FL118 plus its superior antitumor activity warrant its further development toward clinical trials.     

Characterization of the Binding of a Novel Non-Xanthine Adenosine Antagonist Radioligand, [3H]CGS 15943, to Multiple Affinity States of the Adenosine A1 Receptor in the Rat Cortex

Abstract

The use of xanthine adenosine receptor antagonists such as 1,3-dipropyl-8-phenylxanthine (DPX) as radioligands for the characterization of adenosine receptor Pharmacology have been limited by their high lipophilicity, low specific activity, and their general lack of selectivity and affinity for adenosine receptors. Recent attempts to address the technical problems associated with this class of compounds has resulted in the development of several xanthine derivatives (e.g. the functionalized xanthine congeners [³H]XCC and [³H]XAC², and [³H]CPX³) which bind with high and selective affinity to the adenosine A₁ receptor subtype. Based on efforts to optimize non-xanthine adenosine receptor antagonists, CGS 15943, a derivative of the pyrazoloquinazoline benzodiazepine receptor inverse agonist CGS 8216⁵, represents the first reported non-xanthine structure that potently blocks adenosine receptors⁶. CGS 15943 has nanomolar affinity for both A₁ and A₂ receptor subtypes⁶. However, in contrast to many of the xanthine adenosine receptor antagonists, CGS 15943 is not a phosphodiesterase inhibitor and does not interact with adenosine transporter sites⁶. This compound is a potent and selective adenosine receptor antagonist in vivo ⁷ with a solubility/affinity ratio of greater than 1000⁷. In the present studies, the binding of [³H]CGS 15943 to the adenosine A₁ receptor was characterized.     

The Ectodomain of a Novel Member of the Immunoglobulin Subfamily Related to the Poliovirus Receptor Has the Attributes of a Bona Fide Receptor for Herpes Simplex Virus Types 1 and 2 in Human Cells

We report on the functional cloning of a hitherto unknown member of the immunoglobulin (Ig) superfamily selected for its ability to confer susceptibility to herpes simplex virus (HSV) infection on a highly resistant cell line (J1.1-2 cells), derived by exposure of BHKtk− cells to a recombinant HSV-1 expressing tumor necrosis factor alpha (TNF-α). The sequence of herpesvirus Ig-like receptor (HIgR) predicts a transmembrane protein with an ectodomain consisting of three cysteine-bracketed domains, one V-like and two C-like. HIgR shares its ectodomain with and appears to be an alternative splice variant of the previously described protein PRR-1 (poliovirus receptor-related protein). Both HIgR and PRR-1 conferred on J1.1-2 cells susceptibility to HSV-1, HSV-2, and bovine herpesvirus 1. The viral ligand of HIgR and PRR-1 is glycoprotein D, a constituent of the virion envelope long known to mediate viral entry into cells through interaction with cellular receptor molecules. Recently, PRR-1, renamed HveC (herpesvirus entry mediator C), and the related PRR-2, renamed HveB, were reported to mediate the entry of HSV-1, HSV-2, and bovine herpesvirus 1, and the homologous poliovirus receptor was reported to mediate the entry of pseudorabies virus (R. J. Geraghty, C. Krummenacher, G. H. Cohen, R. J. Eisenberg, and P. G. Spear, Science 280:1618–1620, 1998; M. S. Warner, R. J. Geraghty, W. M. Martinez, R. I. Montgomery, J. C. Whitbeck, R. Xu, R. J. Eisenberg, G. H. Cohen, and P. G. Spear, Virology 246:179–189, 1998). Here we further show that HIgR or PRR-1 proteins detected by using a monoclonal antibody to PRR-1 are widely distributed among human cell lines susceptible to HSV infection and commonly used for HSV studies. The monoclonal antibody neutralized virion infectivity in cells transfected with HIgR or PRR-1 cDNA, as well as in the human cell lines, indicating a direct interaction of virions with the receptor molecule, and preliminarily mapping this function to the ectodomain of HIgR and PRR-1. Northern blot analysis showed that HIgR or PRR-1 mRNAs were expressed in human tissues, with the highest expression being detected in nervous system samples. HIgR adds a novel member to the cluster of Ig superfamily members able to mediate the entry of alphaherpesviruses into cells. The wide distribution of HIgR or PRR-1 proteins among human cell lines susceptible to HSV infection, coupled with the neutralizing activity of the antibody in the same cells, provides direct demonstration of the actual use of this cluster of molecules as HSV-1 and HSV-2 entry receptors in human cell lines. The high level of expression in samples from nervous system makes the use of these proteins in human tissues very likely. This cluster of molecules may therefore be considered to constitute bona fide receptors for HSV-1 and HSV-2.     

RACK1, a Receptor for Activated C Kinase and a Homolog of the β Subunit of G Proteins, Inhibits Activity of Src Tyrosine Kinases and Growth of NIH 3T3 Cells

To isolate and characterize proteins that interact with the unique domain and SH3 and SH2 domains of Src and potentially regulate Src activity, we used the yeast two-hybrid assay to screen a human lung fibroblast cDNA library. We identified RACK1, a receptor for activated C kinase and a homolog of the β subunit of G proteins, as a Src-binding protein. Using GST-Src fusion proteins, we determined that RACK1 binds to the SH2 domain of Src. Coimmunoprecipitation of Src and RACK1 was demonstrated with NIH 3T3 cells. Purified GST-RACK1 inhibited the in vitro kinase activity of Src in a concentration-dependent manner. GST-RACK1 (2 μM) inhibited the activities of purified Src and Lck tyrosine kinases by 40 to 50% but did not inhibit the activities of three serine/threonine kinases that we tested. Tyrosine phosphorylation on many cellular proteins decreased in 293T cells that transiently overexpressed RACK1. Src activity and cell growth rates decreased by 40 to 50% in NIH 3T3 cells that stably overexpressed RACK1. Flow cytometric analyses revealed that RACK1-overexpressing cells do not show an increased rate of necrosis or apoptosis but do spend significantly more time in G₀/G₁ than do wild-type cells. Prolongation of G₀/G₁ could account for the increased doubling time of RACK1-overexpressing cells. We suggest that RACK1 exerts its effect on the NIH 3T3 cell cycle in part by inhibiting Src activity.     

C端截短突变体mCCL21-a(1-57)可拮抗CCL21介导的ERK磷酸化及细胞迁移

趋化因子CCL21(CC-chemokine ligand 21,CCL21)与其受体CCR7(CC-chemokine receptor 7,CCR7)的结合可以促进肿瘤的侵袭和转移.本研究旨在构建人趋化因子CCL21的截短突变体,竞争性抑制CCL21与CCR7的结合,从而抑制肿瘤的转移.本研究构建了CCL21的10...     

Colocalization of Glucagon-Like Peptide-1 (GLP-1) Receptors, Glucose Transporter GLUT-2, and Glucokinase mRNAs in Rat Hypothalamic Cells: Evidence for a Role of GLP-1 Receptor Agonists as an Inhibitory Signal for Food and Water Intake

Abstract: This study was designed to determine the possible role of brain glucagon-like peptide-1 (GLP-1) receptors in feeding behavior. In situ hybridization showed colocalization of the mRNAs for GLP-1 receptors, glucokinase, and GLUT-2 in the third ventricle wall and adjacent arcuate nucleus, median eminence, and supraoptic nucleus. These brain areas are considered to contain glucose-sensitive neurons mediating feeding behavior. Because GLP-1 receptors, GLUT-2, and glucokinase are proteins involved in the multistep process of glucose sensing in pancreatic β cells, the colocalization of specific GLP-1 receptors and glucose sensing-related proteins in hypothalamic neurons supports a role of this peptide in the hypothalamic regulation of macronutrient and water intake. This hypothesis was confirmed by analyzing the effects of both systemic and central administration of GLP-1 receptor ligands. Acute or subchronic intraperitoneal administration of GLP-1 (7–36) amide did not modify food and water intake, although a dose-dependent loss of body weight gain was observed 24 h after acute administration of the higher dose of the peptide. By contrast, the intracerebroventricular (i.c.v.) administration of GLP-1 (7–36) amide produced a biphasic effect on food intake characterized by an increase in the amount of food intake after acute i.c.v. delivery of 100 ng of the peptide. There was a marked reduction of food ingestion with the 1,000 and 2,000 ng doses of the peptide, which also produced a significant decrease of water intake. These effects seemed to be specific because i.c.v. administration of GLP-1 (1–37), a peptide with lower biological activity than GLP-1 (7–36) amide, did not change feeding behavior in food-deprived animals. Exendin-4, when given by i.c.v. administration in a broad range of doses (0.2, 1, 5, 25, 100, and 500 ng), proved to be a potent agonist of GLP-1 (7–36) amide. It decreased, in a dose-dependent manner, both food and water intake, starting at the dose of 25 ng per injection. Pretreatment with an i.c.v. dose of a GLP-1 receptor antagonist [exendin (9–39); 2,500 ng] reversed the inhibitory effects of GLP-1 (7–36) amide (1,000 ng dose) and exendin-4 (25 ng dose) on food and water ingestion. These findings suggest that GLP-1 (7–36) amide may modulate both food and drink intake in the rat through a central mechanism.