Your search keyword '"Seamon KB"' showing total 54 results

1. Photoaffinity labeling of adenylyl cyclase.

Author

Sievert MK, Pilli G, Liu Y, Sutkowski EM, Seamon KB, and Ruoho AE

Subjects

Adenylyl Cyclases chemistry, Animals, Azides chemical synthesis, Azides chemistry, Cattle, Colforsin chemical synthesis, Colforsin chemistry, Diterpenes, In Vitro Techniques, Peptide Fragments chemistry, Peptide Fragments metabolism, Recombinant Proteins chemistry, Recombinant Proteins metabolism, Solubility, Adenylyl Cyclases metabolism, Affinity Labels chemical synthesis, Affinity Labels chemistry, Colforsin analogs & derivatives

Published

2002

2. Specifications for biotechnology-derived protein drugs.

Author

Seamon KB

Subjects

Humans, International Cooperation, Recombinant Proteins standards, Recombinant Proteins therapeutic use, Biotechnology standards, Pharmaceutical Preparations standards

Abstract

Specifications are the regulatory and legal standards that a product must meet to be suitable for use in humans. Specifications evolve in parallel with drug development and are refined prior to marketing authorization and, in some cases, after marketing. Recent changes in regulatory procedures for biotechnology-derived protein products have placed much emphasis on the use of characterization and final product specifications to provide assurance of overall quality of these products. In addition, harmonized guidelines for the testing and specifications for biotechnology products have been developed through the International Conference on Harmonization process. The availability of sensitive, quantitative, and specific analytical methods for characterization has made this possible, thus providing regulatory flexibility in the development of biotechnology-derived protein products. Further refinement of these analytical tools will undoubtedly enhance this regulatory flexibility.

Published

1998

3. Irreversible inhibition of forskolin interactions with type I adenylyl cyclase by a 6-isothiocyanate derivative of forskolin.

Author

Sutkowski EM, Robbins JD, Tang WJ, and Seamon KB

Subjects

Affinity Labels, Animals, Binding Sites, Colforsin analogs & derivatives, Dithiothreitol pharmacology, Enzyme Activation drug effects, Spodoptera, Adenylyl Cyclases metabolism, Colforsin metabolism, Isothiocyanates pharmacology

Abstract

Forskolin (Fsk) has been demonstrated to interact directly with the enzyme adenylyl cyclase (EC 4.6.1.1) in diverse tissues. However, the ability of Fsk to bind to and activate adenylyl cyclase varies depending on the tissue being studied. Different adenylyl cyclase subtypes have been cloned and expressed in a recombinant Sf9 expression system. This provides an opportunity to study the effects of chemically reactive derivatives of Fsk on individual adenylyl cyclase subtypes in the absence of Gs alpha. Reaction of type I adenylyl cyclase with an isothiocyanate derivative of Fsk (6-[[N-(2-isothiocyanatoethyl)amino]carbonyl]forskolin) causes irreversible inhibition of Fsk binding with an IC50 of 300 nM and irreversible inhibition of Fsk activation with an IC50 of 10 microM, suggesting that there are two sites of 6-[[N-(2-isothiocyanatoethyl)amino]carbonyl]forskolin interaction. These studies establish the usefulness of the isothiocyanate derivative of Fsk in localizing the site(s) of Fsk interaction with type I adenylyl cyclase.

Published

1996

4. Forskolin carbamates: binding and activation studies with type I adenylyl cyclase.

Author

Robbins JD, Boring DL, Tang WJ, Shank R, and Seamon KB

Subjects

Adenylyl Cyclases genetics, Adenylyl Cyclases metabolism, Animals, Carbamates pharmacology, Cell Line, Colforsin pharmacology, Enzyme Activation, Spodoptera, Adenylyl Cyclases drug effects, Carbamates chemical synthesis, Colforsin analogs & derivatives

Abstract

Three series of analogs were regioselectively prepared from a protected forskolin precursor to afford 7-carbamoyl-7-desacetylforskolins (series 1), 6-carbamoyl-7-desacetylforskolins (series 2), and 6-carbamoylforskolins (series 3). The analogs were pharmacologically evaluated for binding (IC50) to and activation (EC50) of type I adenylyl cyclase in membranes from stably transfected Sf9 cell lines expressing a single adenylate cyclase subtype. The following ranges were determined for the IC50's and EC50's of each individual series: series 1, IC50 = 43-1600 nM, EC50 = 0.5-9.6 microM; series 2, IC50 = 65-680 nM, EC50 = 0.63-6.5 microM; series 3, IC50 = 21-271 nM, EC50 = 0.5-8.1 microM (forskolin IC50 = 41 nM and EC50 = 0.5 microM). Activation paralleled binding; however, some analogs exhibited poor binding and good activation whereas others demonstrated good binding but poor activation. Steric bulk tended to diminish binding and activation when at the 6- or 7-position, although bulk was accommodated at the 6-position if the 7-site was reacetylated. Acylation of the 7-position by the carbamoyl linker or acetyl was important for obtaining good binding and activation; however, the effect was more pronounced with binding. For both binding and activation, small, linear, lipophilic substituents (propyl, allyl, isopropyl) are well tolerated at the 7-position but less so in the 6-position, even when the 7-site is reacetylated. Planar aromatic moieties (phenyl and 2-pyridinyl) demonstrated moderate to good potency for binding and activation when located at either the 6- or 7-positions. There is an overall trend toward increasing potency for both binding and activation with polar substituents.

Published

1996

5. Purification of bovine brain adenylyl cyclase with a novel derivative of forskolin: evidence for a high specific activity form of the enzyme.

Author

Moos M Jr, Morris DI, Robbins J, Appel L, and Seamon KB

Subjects

Adsorption, Animals, Cattle, Diterpenes, Molecular Structure, Osmolar Concentration, Reproducibility of Results, Time Factors, Adenylyl Cyclases isolation & purification, Brain enzymology, Colforsin analogs & derivatives

Abstract

An improved affinity support for the purification of adenylyl cyclase was prepared from 7-desacetyl-7-aminoethylaminocarbonyl forskolin. This analog allows convenient synthesis of an affinity matrix that is chemically stable, with-standing repeated use for up to two years, and efficient, yielding purifications of adenylyl cyclase from solubilized bovine brain membranes of 2,000-6,000 fold in a single step. Immunoblotting data suggest that the majority of the enzyme purified in this fashion differs from forms described previously. Since the specific activity of this preparation is substantially higher than that described in previous reports, it is possible that the purification described here selects, presumably on the basis of affinity for forskolin, for a form of adenylyl cyclase with higher specific activity than any described previously.

Published

1996

6. Interaction of an estramustine photoaffinity analogue with cytoskeletal proteins in prostate carcinoma cells.

Author

Speicher LA, Laing N, Barone LR, Robbins JD, Seamon KB, and Tew KD

Subjects

Affinity Labels chemical synthesis, Animals, Azides chemical synthesis, Cattle, Drug Resistance physiology, Estramustine chemical synthesis, Estramustine metabolism, Estramustine pharmacology, Humans, Male, Microtubule-Associated Proteins metabolism, Photochemistry, Protein Binding, Tubulin metabolism, Tumor Cells, Cultured, Affinity Labels metabolism, Azides metabolism, Estramustine analogs & derivatives, Microtubule Proteins metabolism, Neoplasm Proteins metabolism, Prostatic Neoplasms metabolism

Abstract

To identify specific drug targets of the antimitotic drug estramustine, a photoaffinity analogue, 17-O-[[2-[3-(4-azido-3-[125I] iodophenyl)propionamido]ethyl]carbamyl]estradiol-3-N-bis(2- chloroethyl)carbamate, was synthesized and reacted in competition assays with cytoskeletal protein preparations. By attaching the photoaffinity ligand to the 17 beta-position of the steroid D-ring, the cytotoxic properties of the drug were maintained. In cytoskeletal protein preparations from human prostate carcinoma cells (DU 145) or a clonally selected, estramustine-resistant cell line (E4), the major microtubule-associated protein (MAP) present was MAP4. In both cytoskeletal fractions and reconstituted microtubules, 17-O-[[2-[3-(4-azido-3-[125I]iodophenyl)propionamido] ethyl]carbamyl]estradiol-3-N-bis(2-chloroethyl)carbamate bound to both MAP4 and tubulin. From competition assays, the apparent binding constant for MAP4 from DU 145 cells was 15 microM. Similar calculations for tubulin gave values of 13 microM (bovine brain), 19 microM (DU 145 wild-type cells), and 25 microM (E4 cells). The identification of these cytoskeletal proteins as specific drug targets provides a direct explanation for the antimicrotubule and antimitotic effects of estramustine.

Published

1994

7. Regulation of forskolin interactions with type I, II, V, and VI adenylyl cyclases by Gs alpha.

Author

Sutkowski EM, Tang WJ, Broome CW, Robbins JD, and Seamon KB

Subjects

Adenylyl Cyclases genetics, Affinity Labels, Animals, Azides pharmacology, Baculoviridae genetics, Cell Line, Cell Membrane enzymology, Colforsin analogs & derivatives, Diterpenes, Drug Synergism, Enzyme Activation drug effects, Gene Expression, Iodine Radioisotopes, Photochemistry, Recombinant Proteins metabolism, Spodoptera enzymology, Adenylyl Cyclases metabolism, Colforsin pharmacology, GTP-Binding Proteins physiology

Abstract

Several forms of adenylyl cyclase (types I, II, V, and VI) have been expressed using the recombinant baculovirus expression system in Sf9 cells. The activation of type I adenylyl cyclase by forskolin and Gs alpha was not greater than additive. In contrast, there was synergistic activation of type II, V, and VI adenylyl cyclases by Gs alpha and forskolin. Gs alpha potentiated the effect of forskolin on type II adenylyl cyclase to the greatest extent. Type I and II adenylyl cyclases were photolabeled specifically by an iodinated photoaffinity derivative of forskolin ([125I]-6-AIPP-Fsk). Type I adenylyl cyclase was photolabeled efficiently in the absence of Gs alpha, and the addition of Gs alpha only slightly increased the labeling efficiency. In contrast, type II adenylyl cyclase was not photolabeled efficiently in the absence of Gs alpha, and the addition of Gs alpha greatly enhanced the labeling efficiency. Photolabeling of type V and VI adenylyl cyclases was detected only in the presence of Gs alpha. Neither calcium/calmodulin nor G protein beta gamma subunits modulated the photolabeling of type I or II adenylyl cyclases. Another iodinated derivative of forskolin, [125I]-6-IHPP-fsk, bound to Sf9 cell membranes expressing type I adenylyl cyclase with high affinity in a filtration binding assay, and the specific binding was not enhanced by the addition of Gs alpha. In contrast, specific binding of [125I]-6-IHPP-Fsk to membranes expressing type II adenylyl cyclase was detected only in the presence of Gs alpha.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1994

8. Forskolin specifically inhibits the bacterial galactose-H+ transport protein, GalP.

Author

Martin GE, Seamon KB, Brown FM, Shanahan MF, Roberts PE, and Henderson PJ

Subjects

Affinity Labels, Carrier Proteins metabolism, Colforsin metabolism, Escherichia coli metabolism, Glucose Transporter Type 1, Monosaccharide Transport Proteins antagonists & inhibitors, Bacterial Proteins antagonists & inhibitors, Calcium-Binding Proteins, Carrier Proteins antagonists & inhibitors, Colforsin pharmacology, Galactose metabolism, Periplasmic Binding Proteins

Abstract

Forskolin is a potent inhibitor of mammalian passive glucose transporters. Here we show that forskolin is a remarkably specific inhibitor of energized D-galactose transport by the GalP sugar-H+ symport protein of Escherichia coli. Surprisingly, it does not inhibit transport of L-arabinose or D-xylose by the related E. coli AraE and XylE transporters, even though the amino acid sequences of their proteins are 30-64% identical to GalP and to the mammalian GLUT family. However, unlike GLUT1, photoactivation of the [3H]forskolin-GalP complex fails to incorporate radioactivity covalently into the protein, in contrast to the effective incorporation of radioactivity from [3H]cytochalasin B into both proteins. However, 3-[125I]iodo-4-azidophenethylamido-7-O-succinyldesacetylforskol in ([125I]APS-forskolin), which labels GLUT1, is a potent labeling reagent for GalP and, to a lesser extent, for AraE. The appropriate sugar substrates of each transporter protect it against the [125I]APS-forskolin. Equilibrium binding studies using membranes from an E. coli strain that overexpresses GalP reveal a single set of high affinity binding sites for [3H]forskolin with a Kd of 1.3-1.4 microM, probably forming a 1:1 complex, compared with a value of 7.5 microM for GLUT1. Sugar substrates of GalP and cytochalasin B displace forskolin from the protein. The nonhomologous sugar-H+ symporters for L-rhamnose (RhaT), L-fucose (FucP) and lactose (LacY) in E. coli are insensitive to forskolin. Forskolin and [125I]APS-forskolin, therefore, constitute novel probes for exploring the structure-activity relationship of the bacterial GalP protein. GalP will provide an excellent model for the human glucose transporters and for elucidating the molecular basis of subtle differences in substrate and inhibitor recognition by individual members of this widespread family of transport proteins.

Published

1994

9. Localization of the forskolin labeling sites to both halves of P-glycoprotein: similarity of the sites labeled by forskolin and prazosin.

Author

Morris DI, Greenberger LM, Bruggemann EP, Cardarelli C, Gottesman MM, Pastan I, and Seamon KB

Subjects

ATP Binding Cassette Transporter, Subfamily B, Member 1, Amino Acid Sequence, Binding Sites, Carrier Proteins chemistry, Carrier Proteins immunology, Cell Line, Humans, Immune Sera, Iodine Radioisotopes, Membrane Glycoproteins chemistry, Membrane Glycoproteins immunology, Molecular Sequence Data, Peptide Fragments metabolism, Prazosin analogs & derivatives, Precipitin Tests, Protein Conformation, Trypsin, Tumor Cells, Cultured, Carrier Proteins metabolism, Colforsin metabolism, Membrane Glycoproteins metabolism, Prazosin metabolism

Abstract

An iodinated derivative of forskolin, 6-O-[[2-[3-(4-azido-3-[125I] iodophenyl)propionamido]ethyl]carbamyl]forskolin ([125I]6-AIPP-Fsk), photolabels the multidrug efflux pump P-glycoprotein in membranes prepared from the multidrug-resistant cell lines KB-V1 and KB-C1. The labeling site for [125I]6-AIPP-Fsk was localized by immunoprecipitation of tryptic fragments of P-glycoprotein labeled in KB-C1 membranes. A 6-kDa, photolabeled, tryptic fragment was immunoprecipitated by antiserum raised against residues 348-419 of P-glycoprotein, PEPG9, but not by antisera raised against flanking regions PEPG7 and PEPG11. A peptide that corresponds to residues 343-359 of P-glycoprotein inhibited immunoprecipitation of the 6-kDa fragment by antiserum against PEPG9 but had no effect on the immunoprecipitation of photolabeled fragments by antiserum against PEPG7. A second peptide, corresponding to residues 360-376, had no effect on the immunoprecipitation by antiserum against PEPG9. [125I]6-AIPP-Fsk labels the carboxyl-terminal half of P-glycoprotein, because low molecular mass tryptic fragments were immunoprecipitated by three carboxyl-terminal antisera. Therefore, [125I]6-AIPP-Fsk labels both halves of P-glycoprotein, and labeling in the amino-terminal half can be localized to residues 291-359, which span proposed transmembrane regions 5 and 6. KB-V1 membranes photolabeled with [125I]6-AIPP-Fsk and [125I]iodoarylazidoprazosin were digested with either Staphylococcus aureus V8 protease or chymotrypsin and had similar digestion patterns, suggesting that the two drugs label the same sites on P-glycoprotein.

Published

1994

10. Homologous sugar-transport proteins in microbes and man.

Author

Henderson PJ, Roberts PE, Martin GE, Seamon KB, Walmsley AR, Rutherford NG, Varela MF, and Griffith JK

Subjects

Animals, Bacteria genetics, Carrier Proteins genetics, Humans, Mammals, Monosaccharide Transport Proteins genetics, Substrate Specificity, Yeasts genetics, Yeasts metabolism, Bacteria metabolism, Biological Evolution, Carrier Proteins metabolism, Monosaccharide Transport Proteins metabolism

Published

1993

11. Evaluation of genetic stability.

Author

Seamon KB

Subjects

DNA, Recombinant, Drug Stability, Humans, Recombinant Proteins standards, Recombinant Proteins genetics

Published

1993

12. Interaction of 7-bromoacetyl-7-desacetylforskolin, and alkylating derivative of forskolin, with bovine brain adenylyl cyclase and human erythrocyte glucose transporter.

Author

Sutkowski EM, Maher F, Laurenza A, Simpson IA, and Seamon KB

Subjects

Adenylyl Cyclases chemistry, Affinity Labels, Alkylating Agents metabolism, Animals, Binding Sites, Biological Transport, Cattle, Colforsin antagonists & inhibitors, Colforsin chemistry, Colforsin metabolism, Humans, Photochemistry, Adenylyl Cyclases metabolism, Brain enzymology, Colforsin analogs & derivatives, Erythrocyte Membrane metabolism, Glucose metabolism, Monosaccharide Transport Proteins metabolism

Abstract

7-Bromoacetyl-7-desacetylforskolin (BrAcFsk), an alkylating derivative of forskolin, activated adenylyl cyclase and irreversibly blocked high affinity forskolin binding sites in human platelet membranes and rat brain membranes (Laurenza et al., 1990). Photoincorporation of an iodinated arylazido derivative of forskolin, 125I-6-AIPP-Fsk, into adenylyl cyclase in bovine brain membranes was irreversibly inhibited by BrAcFsk but not by 1,9-dideoxy-BrAcFsk, suggesting that BrAcFsk was reacting specifically with a nucleophilic group(s) at the forskolin binding site of adenylyl cyclase. Immunoblotting with antiforskolin antiserum demonstrated that partially purified bovine brain adenylyl cyclase had incorporated BrAcFsk. The interaction of BrAcFsk with the glucose transporter in human erythrocyte membranes was examined in a similar manner. Photoincorporation of 125I-7-AIPP-Fsk, an iodinated arylazido derivative of forskolin which is specific for the glucose transporter, into the glucose transporter was not irreversibly inhibited by BrAcFsk, suggesting that, in contrast to adenylyl cyclase, there is no reactive nucleophilic group at the forskolin binding site on the human erythrocyte glucose transporter. The immunoblotting procedure with antiforskolin antiserum confirmed that BrAcFsk was not covalently attached to human erythrocyte glucose transporter.

Published

1993

13. Identification of single amino acid substitutions in the staphylococcal nuclease protein that enhance and diminish T cell clone recognition of naturally processed peptides.

Author

Finnegan A, Regan J, Seamon KB, and Lindholm C

Subjects

Amino Acids immunology, Animals, Clone Cells, Immunodominant Epitopes immunology, Male, Mice, Mice, Inbred C57BL, Micrococcal Nuclease chemistry, Mutation, Peptide Fragments immunology, Micrococcal Nuclease immunology, T-Lymphocytes immunology

Abstract

It has been inferred that residue changes that affect T cell recognition of synthetic peptides will have a similar effect in the intact protein. However, since small peptides do not require antigen processing it is possible that residue changes in synthetic peptides will not have an equivalent effect in the intact protein. Mutant proteins of staphylococcal nuclease (Nase) and 15mer synthetic peptides with corresponding substitutions were compared to determine if residue changes within an immunodominant epitope have an effect on the generation of naturally processed peptides. Five different substitutions in the synthetic peptide resulted in loss of reactivity of individual Nase-specific clones. When the same single amino acid changes were made in the intact protein, the naturally-processed peptides were also unable to stimulate the Nase-specific clones. However, two other substitutions in the synthetic peptide were stimulatory for a T cell clone even though the same changes in the intact protein were non-stimulatory. These results suggest that certain residue changes affect recognition of the naturally processed peptide but not the synthetic peptide with the same amino acid change. In addition, these results demonstrate that the effects of amino acid substitutions in synthetic peptides on T cell recognition may not always reflect the effects of these substitutions in the intact protein. Substitutions located outside Nase-specific T cell epitopes were also examined. Thirty different mutant proteins were all stimulatory. Moreover, a number of these mutants proteins were 50- to 100-fold more efficient in their stimulatory capacity than the native Nase protein.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1992

14. [125I]-labeled forskolin analogs which discriminate adenylyl cyclase and a glucose transporter: pharmacological characterization and localization of binding sites in rat brain by in vitro receptor autoradiography.

Author

Appel NM, Robbins JD, De Souza EB, and Seamon KB

Subjects

Animals, Autoradiography, Binding Sites, Diterpenes, In Vitro Techniques, Iodine Radioisotopes, Male, Rats, Rats, Sprague-Dawley, Adenylyl Cyclases analysis, Brain Chemistry, Colforsin analogs & derivatives, Colforsin metabolism, Monosaccharide Transport Proteins analysis

Abstract

Aminoalkylcarbamate derivatives of forskolin have been synthesized at the 6- and 7-hydroxyl positions which have different selectivity for adenylyl cyclase and a glucose transporter, respectively. They were radioiodinated using the Bolton-Hunter reagent to yield [125I]-2-[3-(4-hydroxy-3-iodophenyl)propanamido]-N-ethyl-6- (aminocarbonyl)forskolin ([125I]6-IHPP-Fsk) and [125I]-2-[3-(4-hydroxy-3-iodophenyl)(propanamidol]-N-ethyl-7- (aminocarbonyl)-7-desacetylforskolin ([125I]7-IHPP-Fsk) and tested as autoradiographic probes for adenylyl cyclase and a glucose transporter. In slide-mounted rat brain sections [125I]6-IHPP-Fsk binding was potently inhibited by 1 microM 6-HPP-Fsk (95%) but unaffected by 500 mM D-glucose. In contrast, [125I]7-IHPP-Fsk was only partially inhibited by 1 microM 6-HPP-Fsk (37%), but residual [125I]7-IHPP-Fsk binding was further inhibited 56% by 500 mM D-glucose. These data suggest that while [125I]6-IHPP-Fsk binds exclusively to adenylyl cyclase, a significant fraction of [125I]7-IHPP-Fsk is binding to a glucose transporter in brain. Autoradiographic patterns of [125I]6-IHPP-Fsk and glucose-sensitive [125I]7-IHPP-Fsk binding were different. [125I]6-IHPP-Fsk binding was heterogeneously distributed and resembled [3H] forskolin binding. Highest densities of binding sites were noted in olfactory tubercle, caudate putamen, nucleus accumbens, pyramidal and granule cell layers of hippocampus, molecular layer of cerebellum and substantia nigra. In contrast, of glucose-sensitive [125I]7-IHPP-Fsk, binding appeared more homogeneous and similar to [3H]cytochalasin B, a compound which inhibits glucose transport. Highest densities of binding were noted in caudate putamen, nucleus accumbens, cerebral cortex and molecular layer of cerebellum.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1992

15. Frog secretions and hunting magic in the upper Amazon: identification of a peptide that interacts with an adenosine receptor.

Author

Daly JW, Caceres J, Moni RW, Gusovsky F, Moos M Jr, Seamon KB, Milton K, and Myers CW

Subjects

Amino Acid Sequence, Animals, Binding, Competitive, Brain metabolism, Brazil, Cell Membrane metabolism, Chromatography, High Pressure Liquid, Humans, Molecular Sequence Data, Peptides chemical synthesis, Peptides isolation & purification, Peptides metabolism, Peru, Phenylisopropyladenosine metabolism, Rats, Receptors, Purinergic metabolism, Amphibian Proteins, Antimicrobial Cationic Peptides, Anura physiology, Indians, South American, Magic, Peptides pharmacology, Receptors, Purinergic drug effects, Skin metabolism

Abstract

A frog used for "hunting magic" by several groups of Panoan-speaking Indians in the borderline between Brazil and Peru is identified as Phyllomedusa bicolor. This frog's skin secretion, which the Indians introduce into the body through fresh burns, is rich in peptides. These include vasoactive peptides, opioid peptides, and a peptide that we have named adenoregulin, with the sequence GLWSKIKEVGKEAAKAAAKAAGKAALGAVSEAV as determined from mass spectrometry and Edman degradation. The natural peptide may contain a D amino acid residue, since it is not identical in chromatographic properties to the synthetic peptide. Adenoregulin enhances binding of agonists to A1 adenosine receptors; it is accompanied in the skin secretion by peptides that inhibit binding. The vasoactive peptide sauvagine, the opioid peptides, and adenoregulin and related peptides affect behavior in mice and presumably contribute to the behavioral sequelae observed in humans.

Published

1992

16. Differential identification and localization of adenylyl cyclase and glucose transporter in brain using iodinated derivatives of forskolin.

Author

Robbins JD, Appel NM, Laurenza A, Simpson IA, De Souza EB, and Seamon KB

Subjects

Animals, Brain enzymology, Cattle, Colforsin analogs & derivatives, Colforsin metabolism, Cytochalasin B pharmacology, Glucose pharmacology, Iodine Radioisotopes, Molecular Structure, Radioligand Assay, Adenylyl Cyclases analysis, Brain Chemistry physiology, Colforsin pharmacology, Monosaccharide Transport Proteins analysis

Abstract

Two radioiodinated derivatives of forskolin, [125I]6-IHPP-Fsk and [125I]7-IHPP-Fsk, were synthesized as specific ligands for adenylyl cyclase and glucose transporter, respectively. [125I]6-IHPP-Fsk bound to bovine brain homogenates with a Kd of 9 nM and binding was inhibited by forskolin but not 1,9-dideoxyforskolin, cytochalasin B, or D-glucose. [125I]7-IHPP-Fsk bound to bovine brain homogenates at two classes of binding sites with Kd's of 56 nM and 4.7 microM; cytochalasin B and D-glucose inhibited 75% of the high affinity binding while having no effect on the low affinity binding. [125I]6-IHPP-Fsk and [125I]7-IHPP-Fsk were used to localize adenylyl cyclase and glucose transporter in rat brain by receptor autoradiography. The pattern of binding obtained with [125I]6-IHPP-Fsk was similar to that observed using [3H]forskolin to detect adenylyl cyclase. In contrast, the pattern of binding obtained with [125I]7-IHPP-Fsk was similar to that observed by others using [3H]cytochalasin B to detect glucose transporter. These iodinated ligands are selective for adenylyl cyclase and glucose transporter and require significantly shorter exposure times to yield autoradiographs than tritiated ligands.

Published

1992

17. Interaction of aminoalkylcarbamates of forskolin with adenylyl cyclase: synthesis of an iodinated derivative of forskolin with high affinity for adenylyl cyclase.

Author

Laurenza A, Robbins JD, and Seamon KB

Subjects

Adenylyl Cyclases drug effects, Animals, Blood Platelets metabolism, Blood Platelets ultrastructure, Brain metabolism, Brain ultrastructure, Carbamates metabolism, Carbamates pharmacology, Cattle, Cell Membrane metabolism, Colforsin metabolism, Colforsin pharmacology, Diterpenes, Drug Interactions, Enzyme Activation, Humans, Iodine Radioisotopes, Membranes metabolism, Tritium, Adenylyl Cyclases metabolism, Carbamates chemical synthesis, Colforsin analogs & derivatives, Colforsin chemical synthesis

Abstract

7-(2-Aminoethyl)aminocarbonyl-7-desacetylforskolin (7-AEC-Fsk) and 6-(2-aminoethyl)aminocarbonylforskolin (6-AEC-Fsk) were synthesized and tested for their ability to activate adenylyl cyclase and inhibit the high affinity binding of [3H]forskolin to bovine brain membranes. Forskolin and 7-AEC-Fsk were equipotent in activating adenylyl cyclase, with EC50 values of about 4 microM, whereas 6-AEC-Fsk had an EC50 of about 2 microM. 6-AEC-Fsk and 7-AEC-Fsk stimulated adenylyl cyclase about 7-fold over basal levels at 100 microM, whereas forskolin produced a 5-fold stimulation. Forskolin and 6-AEC-Fsk inhibited the binding of [3H]forskolin to bovine brain membranes with Kd values of 41 nM and 28 nM, respectively, whereas 7-AEC-Fsk had a Kd of 83 nM. The 3-(3-iodo-4-hydroxyphenyl)propionamide derivative of 6-AEC-Fsk (6-I-HPP-Fsk) was more potent than forskolin in inhibiting [3H]forskolin binding to bovine brain membranes, with a Kd of 14 nM. 6-AEC-Fsk was reacted with 125I-labeled Bolton-Hunter reagent to produce 6-125I-HPP-Fsk with a specific activity of 2175 Ci/mmol. 6-125I-HPP-Fsk bound to bovine brain membranes with a Kd of 13 nM and a Bmax of 3.8 pmol/mg of protein. Forskolin inhibited the binding of 6-125I-HPP-Fsk to bovine brain membranes with a Kd of 31 nM, whereas 1,9-dideoxyforskolin only slightly inhibited the binding at 10 microM. The binding of 6-125I-HPP-Fsk was not inhibited by agents that inhibit forskolin binding to the glucose transporter, such as D-glucose or cytochalasin B. There was no displaceable binding of 6-125I-HPP-Fsk to red blood cell membranes, which contain a large concentration of the glucose transporter. Pretreatment of bovine brain membranes with an alkylating derivative of forskolin, 7-bromoacetyl-7-desacetylforskolin (BrAcFsk), led to an irreversible decrease in the binding of [3H]forskolin and 6-125I-HPP-Fsk. The time dependence and concentration dependence for the BrAcFsk-induced decrease in [3H]forskolin binding sites were identical to those observed for the decrease in 6-125I-HPP-Fsk binding sites. 6-125I-HPP-Fsk binding was determined in human platelet membranes in the presence of Mg2+ alone and in combination with guanosine 5'-O-(3-thio)triphosphate (GTP gamma S) or AIF4-. The presence of GTP gamma S or AIF4- increased the binding of 6-125I-HPP-Fsk by 4.5-fold and 4-fold, respectively.(ABSTRACT TRUNCATED AT 400 WORDS)

Published

1992

18. Genetic and biochemical factors affecting product consistency: introduction to the issues.

Author

Seamon KB

Subjects

Animals, Biological Products chemistry, Biological Products genetics, Biotechnology, DNA, Recombinant, Glycoproteins chemistry, Glycoproteins genetics, Glycoproteins standards, Glycosylation, Humans, Oligosaccharides chemistry, Quality Control, United States, United States Food and Drug Administration, Biological Products standards

Published

1992

19. (Aminoalkyl)carbamates of forskolin: intermediates for the synthesis of functionalized derivatives of forskolin with different specificities for adenylyl cyclase and the glucose transporter.

Author

Robbins JD, Laurenza A, Kosley RW Jr, O'Malley GJ, Spahl B, and Seamon KB

Subjects

Animals, Binding Sites, Brain drug effects, Brain metabolism, Carbamates metabolism, Carbamates pharmacology, Cattle, Cell Membrane drug effects, Cell Membrane metabolism, Colforsin metabolism, Colforsin pharmacology, Glucose metabolism, Structure-Activity Relationship, Adenylyl Cyclases metabolism, Carbamates chemical synthesis, Colforsin analogs & derivatives, Monosaccharide Transport Proteins metabolism

Abstract

(Aminoalkyl)carbamates of forskolin were synthesized at the 6- and 7-hydroxyl positions of forskolin with the length of the alkyl chain varying from ethyl to heptyl. Two of these derivatives, 7-[[(2-aminoethyl)amino]carbonyl]-7-desacetylforskolin (2) and 6-[[(2-aminoethyl)amino]carbonyl]forskolin (3), were used to synthesize iodinated derivatives of forskolin that bind with high affinity to adenylyl cyclase in bovine brain membranes and the glucose transporter in human erythrocyte membranes, respectively. Hydroxyphenyl derivatives of forskolin were prepared from the (aminoalkyl)carbamates and tested for their ability to bind to adenylyl cyclase in bovine brain membranes and the glucose transporter in human erythrocyte membranes. The 6-derivative (18) of forskolin had a Kd of 9 nM at adenylyl cyclase and was more potent than either the 7-derivatives or the 6-derivatives of 7-desacetylforskolin. The 7-derivatives were more potent at binding to the glucose transporter than forskolin. In contrast, the 6-derivatives had Kd's greater than 100 microM at the glucose transporter. Isothiocyanates and N-bromoacetyl derivatives were synthesized from 2 and 3 as potential alkylating agents for forskolin binding sites. The alkylating agents produced an irreversible loss of forskolin binding to adenylyl cyclase. In contrast, the alkylating agents bound reversibly to the glucose transporter.

Published

1991

20. High prevalence of antibodies to the gp120 V3 region principal neutralizing determinant of HIV-1MN in sera from Africa and the Americas.

Author

Carrow EW, Vujcic LK, Glass WL, Seamon KB, Rastogi SC, Hendry RM, Boulos R, Nzila N, and Quinnan GV Jr

Subjects

Africa, Americas, Amino Acid Sequence, Binding, Competitive, Epitopes, HIV Infections immunology, Humans, Molecular Sequence Data, Neutralization Tests, Peptides chemical synthesis, Peptides chemistry, Peptides immunology, HIV Antibodies blood, HIV Envelope Protein gp120 immunology, HIV-1 immunology

Abstract

Neutralizing antibodies (NA) against HIV-1MN and HIV-1IIIB, and antibodies binding to synthetic peptides (BA) derived from the gp120 envelope V3 region principal neutralizing determinants (PND) of the HIV-1MN, HIV-1IIIB, and HIV-1Z3 virus strains were assayed in HIV-1 antibody-positive sera from the United States, Haiti, Brazil, Zaire, and Zimbabwe. The ability of soluble PND peptide to block neutralization of the corresponding virus by representative sera was also tested. In each country, NA and BA titers were highest against the HIV-1MN strain, and compared with other countries, NA and BA titers against HIV-1MN were higher in sera from the United States and Haiti. When NA titers were compared with BA titers against either HIV-1MN or HIV-1IIIB, no correlation was found for the HIV-1IIIB strain, but there was a significant correlation for HIV-1MN. Addition of the HIV-1MN strain peptide to a neutralization assay for HIV-1MN resulted in a four- to tenfold reduction in NA titers in sera from the United States, Zaire, and Brazil. The results suggest that HIV-1MN and closely related variants are prevalent in many parts of the world, and that antibodies directed against the PND account for most of the neutralizing activity in sera of infected individuals.

Published

1991

21. Interaction of forskolin with the P-glycoprotein multidrug transporter.

Author

Morris DI, Speicher LA, Ruoho AE, Tew KD, and Seamon KB

Subjects

ATP Binding Cassette Transporter, Subfamily B, Member 1, Affinity Labels, Amino Acid Sequence, Cell Line, Cell Membrane chemistry, Colforsin analogs & derivatives, Colforsin pharmacology, Doxorubicin toxicity, Drug Interactions, Drug Resistance, Female, Humans, Molecular Sequence Data, Molecular Weight, Tumor Cells, Cultured, Carrier Proteins metabolism, Colforsin metabolism, Membrane Glycoproteins metabolism, Neoplasm Proteins metabolism

Abstract

Forskolin and 1,9-dideoxyforskolin, an analogue that does not activate adenylyl cyclase, were tested for their ability to enhance the cytotoxic effects of adriamycin in human ovarian carcinoma cells, SKOV3, which are sensitive to adriamycin and express low levels of P-glycoprotein, and a variant cell line, SKVLB, which overexpresses the P-glycoprotein and has the multidrug resistance (MDR) phenotype. Forskolin and 1,9-dideoxyforskolin both increased the cytotoxic effects of adriamycin in SKVLB cells, yet had no effect on SKOV3 cells. Two photoactive derivatives of forskolin have been synthesized, 7-O-[[2-[3-(4-azido-3- [125I]iodophenyl)propionamido]ethyl] carbamyl]-7-deacetylforskolin, 125I-7-AIPP-Fsk, and 6-O-[[2-[3-(4-azido-3- [125I]iodophenyl)propionamido]ethyl]carbamyl]forskolin, 125I-6-AIPP-Fsk, which exhibit specificity for labeling the glucose transporter and adenylyl cyclase, respectively (Morris et al., 1991). Both photolabels identified a 140-kDa protein in membranes from SKVLB cells whose labeling was inhibited by forskolin and 1,9-dideoxyforskolin. There was no specific labeling of proteins in membranes from the SKOV3 cells. The overexpressed 140-kDa protein in SKVLB membranes was identified as the P-glycoprotein by immunoblot analysis and immunoprecipitation using anti-P-glycoprotein antiserum. Total inhibition of photolabeling of the P-glycoprotein was observed with verapamil, nifedipine, diltiazem, and vinbalastine, and partial inhibition was observed with colchicine and cytochalasin B. Forskolin was less effective at inhibiting the photolabeling of the P-glycoprotein than 1,9-dideoxyforskolin or a lipophilic derivative of forskolin. The data are consistent with forskolin binding to the P-glycoprotein analogous to that of other chemosensitizing drugs that have been shown to partially reverse MDR.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1991

22. Forskolin photoaffinity labels with specificity for adenylyl cyclase and the glucose transporter.

Author

Morris DI, Robbins JD, Ruoho AE, Sutkowski EM, and Seamon KB

Subjects

Adenylyl Cyclases isolation & purification, Animals, Azides metabolism, Cattle, Cell Membrane metabolism, Colforsin chemical synthesis, Diterpenes, Electrophoresis, Polyacrylamide Gel, Iodine Radioisotopes metabolism, Kinetics, Molecular Structure, Molecular Weight, Monosaccharide Transport Proteins isolation & purification, Protein Binding, Adenylyl Cyclases metabolism, Affinity Labels chemical synthesis, Azides chemical synthesis, Brain metabolism, Colforsin analogs & derivatives, Colforsin metabolism, Monosaccharide Transport Proteins metabolism

Abstract

Two photolabels, N-(3-(4-azido-3-125I-phenyl)-propionamide)-6- aminoethylcarbamylforskolin(125I-6-AIPP-Fsk) and N-(3-(4-azido-3-125I-phenyl)propionamide)-7-aminoethylcarbamyl-7- desacetylforskolin (125I-7-AIPP-Fsk) were synthesized with specific activities of 2200 Ci/mmol and used to label adenylyl cyclase and the glucose transporter. The affinities of the photolabels for adenylyl cyclase were determined by their inhibition of [3H]forskolin binding to bovine brain membranes. 6-AIPP-Fsk and 7-AIPP-Fsk inhibited [3H]forskolin binding with IC50 values of 15 nM and 200 nM, respectively. 125I-6-AIPP-Fsk labeled a 115-kDa protein in control and GTP gamma S-preactivated bovine brain membranes. This labeling was inhibited by forskolin but not by 1,9-dideoxyforskolin or cytochalasin B. 125I-6-AIPP-Fsk labeling of partially purified adenylyl cyclase was inhibited by forskolin but not by 1,9-dideoxyforskolin. 125I-7-AIPP-Fsk specifically labeled a 45-kDa protein and not a 115-kDa protein in control and GTP gamma S-preactivated brain membranes. This labeling was inhibited by forskolin, 1,9-dideoxyforskolin, cytochalasin B, and D-glucose but not cytochalasin E or L-glucose. Human erythrocyte membranes were photolyzed with 125I-6-AIPP-Fsk and 125I-7-AIPP-Fsk. 125I-7-AIPP-Fsk, but not 125I-6-AIPP-Fsk, strongly labeled a broad 45-70-kDa band. Forskolin, 7-bromoacetyl-7-desacetylforskolin, 1,9-dideoxyforskolin, cytochalasin B, and D-glucose, but not cytochalasin E or L-glucose, inhibited 125I-7-AIPP-Fsk labeling of the 45-70-kDa band. 125I-6-AIPP-Fsk and 125I-7-AIPP-Fsk are high affinity photolabels with specificity for adenylyl cyclase and the glucose transporter, respectively.

Published

1991

23. Forskolin inhibits and reverses the effects of brefeldin A on Golgi morphology by a cAMP-independent mechanism.

Author

Lippincott-Schwartz J, Glickman J, Donaldson JG, Robbins J, Kreis TE, Seamon KB, Sheetz MP, and Klausner RD

Subjects

4-Chloro-7-nitrobenzofurazan analogs & derivatives, Animals, Brefeldin A, Cells, Cultured, Ceramides, Fluorescent Dyes, Intracellular Membranes metabolism, Mannosidases analysis, Molecular Structure, Oligosaccharides metabolism, Colforsin pharmacology, Cyclic AMP physiology, Cyclopentanes antagonists & inhibitors, Golgi Apparatus drug effects

Abstract

Brefeldin A (BFA) causes rapid redistribution of Golgi proteins into the ER, leaving no definable Golgi apparatus, and blocks transport of proteins into post-Golgi compartments in the cell. In this study we follow the disassembly of the Golgi apparatus in BFA-treated, living cells labeled with NBD-ceramide and demonstrate that forskolin can both inhibit and reverse this process. Long, tubular processes labeled with NBD-ceramide were observed emerging from Golgi elements and extending out to the cell periphery in cells treated with BFA for 5 min. With longer incubations in BFA, the NBD label was dispersed in a fine reticular pattern characteristic of the ER. Treatment with forskolin inhibited these effects of BFA as well as BFA's earliest morphologic effect on the Golgi apparatus: the redistribution to the cytosol of a 110-kD Golgi peripheral membrane protein. In addition, forskolin could reverse BFA's block in protein secretion. Forskolin inhibition of BFA's effects was dose dependent and reversible. High concentrations of BFA could overcome forskolin's inhibitory effect, suggesting forskolin and BFA interact in a competitive fashion. Remarkably, in cells already exposed to BFA, forskolin could reverse BFA's effects causing the 110-kD Golgi peripheral membrane protein to reassociate with Golgi membrane and juxtanuclear Golgi complexes to reassemble. Neither membrane permeant cAMP analogues nor cAMP phosphodiesterase inhibitors could replicate or enhance forskolin's inhibition of BFA. 1,9-Dideoxyforskolin, which does not activate adenylyl cyclase, was equally as effective as forskolin in antagonizing BFA. A derivative of forskolin, 7-HPP-forskolin, that is less potent than forskolin at binding to adenylyl cyclase, was also equally effective as forskolin in antagonizing BFA. In contrast a similar derivative, 6-HPP-forskolin, that is equipotent with forskolin at binding to adenylyl cyclase, did not inhibit BFA's effects. These results suggest that forskolin acts as a competitive antagonist to BFA, using a cAMP-independent mechanism to prevent and reverse the morphologic effects induced by BFA.

Published

1991

24. High-affinity binding sites for [3H]forskolin.

Author

Laurenza A and Seamon KB

Subjects

Animals, Binding Sites, Binding, Competitive, Blood Platelets metabolism, Brain metabolism, Cell Membrane metabolism, Humans, Isotope Labeling methods, Kinetics, Radioisotope Dilution Technique, Rats, Tritium, Colforsin metabolism

Published

1991

25. cAMP and human neutrophil chemotaxis. Elevation of cAMP differentially affects chemotactic responsiveness.

Author

Harvath L, Robbins JD, Russell AA, and Seamon KB

Subjects

1-Methyl-3-isobutylxanthine pharmacology, Alprostadil pharmacology, Biological Transport, Colforsin analogs & derivatives, Colforsin pharmacology, Humans, In Vitro Techniques, Isoproterenol pharmacology, N-Formylmethionine Leucyl-Phenylalanine pharmacology, Time Factors, Chemotaxis, Leukocyte drug effects, Cyclic AMP metabolism, Leukotriene B4 pharmacology, Neutrophils physiology

Abstract

Neutrophils (PMN) treated with cAMP elevating agents were evaluated for their chemotactic responsiveness to FMLP and leukotriene B4 (LTB4). PGE1 and isoproterenol, increased PMN cyclic AMP production and inhibited chemotaxis to both FMLP and LTB4. In contrast, forskolin, which activates adenylate cyclase directly, inhibited chemotaxis to FMLP but not to LTB4. The phosphodiesterase inhibitor, 3-isobutyl-1-methylxanthine (IBMX), was required for inhibition of PMN chemotaxis to FMLP by forskolin, PGE1, and isoproterenol. Isoproterenol and PGE1 inhibited PMN chemotaxis to LTB4 in the absence of IBMX and chemotaxis was further inhibited in the presence of IBMX. PMN cAMP levels were stimulated 2- to 3-fold with isoproterenol, 6- to 10-fold with PGE1, and 5- to 7-fold with forskolin over basal levels in the presence of IBMX. These observations demonstrate that total cellular cAMP concentration is not correlated with inhibition of PMN chemotaxis to all stimuli; forskolin, which increased cyclic AMP 5- to 7-fold over basal levels, did not inhibit chemotaxis to LTB4, whereas isoproterenol, which increased cyclic AMP only 2- to 3-fold over basal levels, inhibited chemotaxis to LTB4. PMN cAMP extrusion was determined under basal conditions and in the presence of PGE1, isoproterenol, or forskolin. PMN extruded cAMP under all conditions examined.

Published

1991

26. Localization of the forskolin photolabelling site within the monosaccharide transporter of human erythrocytes.

Author

Wadzinski BE, Shanahan MF, Seamon KB, and Ruoho AE

Subjects

Amino Acid Sequence, Azides chemical synthesis, Binding Sites, Colforsin chemical synthesis, Colforsin metabolism, Cytochalasin B metabolism, Diterpenes, Electrophoresis, Polyacrylamide Gel, Models, Molecular, Molecular Sequence Data, Molecular Weight, Peptide Fragments isolation & purification, Protein Conformation, Affinity Labels metabolism, Azides metabolism, Colforsin analogs & derivatives, Erythrocyte Membrane metabolism, Monosaccharide Transport Proteins blood

Abstract

Chemical and proteolytic digestion of intact erythrocyte glucose transporter as well as purified transporter protein has been used to localize the derivatization site for the photoaffinity agent 3-[125I]iodo-4-azido-phenethylamino-7-O-succinyldeacetylforskol in [( 125I]IAPS-forskolin). Comparison of the partial amino acid sequence of the labelled 18 kDa tryptic fragment with the known amino acid sequence for the HepG2 glucose transporter confirmed that the binding site for IAPS-forskolin is between the amino acid residues Glu254 and Tyr456. Digestion of intact glucose transporter with Pronase suggests that this site is within the membrane bilayer. Digestion of labelled transporter with CNBr generated a major radiolabelled fragment of Mr approximately 5800 putatively identified as residues 365-420. Isoelectric focusing of Staphylococcus aureus V8 proteinase-treated purified labelled tryptic fragment identified two peptides which likely correspond to amino acid residues 360-380 and 381-393. The common region for these radiolabelled peptides is the tenth putative transmembrane helix of the erythrocyte glucose transporter, comprising amino acid residues 369-389. Additional support for this conclusion comes from studies in which [125I]APS-forskolin was photoincorporated into the L-arabinose/H(+)-transport protein of Escherichia coli. Labelling of this transport protein was protected by both cytochalasin B and D-glucose. The region of the erythrocyte glucose transporter thought to be derivatized with IAPS-forskolin contains a tryptophan residue (Trp388) that is conserved in the sequence of the E. coli arabinose-transport protein.

Published

1990

27. Immunoprecipitation of adenylate cyclase with an antibody to a carboxyl-terminal peptide from Gs alpha.

Author

Morris D, McHugh-Sutkowski E, Moos M Jr, Simonds WF, Spiegel AM, and Seamon KB

Subjects

Adenylyl Cyclases immunology, Animals, Antibodies immunology, Brain Chemistry, Cattle, Cell Membrane, Chromatography, Affinity, Colforsin, GTP-Binding Proteins immunology, Precipitin Tests, Solubility, Adenylyl Cyclases chemistry, GTP-Binding Proteins chemistry

Abstract

An antibody (RM) raised against the carboxyl-terminal decapeptide of the alpha subunit of the stimulatory guanine nucleotide regulatory protein (Gs alpha) has been used to study the interaction of Gs alpha with bovine brain adenylate cyclase [ATP pyrophosphate-lyase (cyclizing), EC 4.6.1.1]. RM antibody immunoprecipitated about 60% of the solubilized adenylate cyclase preactivated with either GTP-gamma-S or AlF4-. In contrast, RM antibody immunoprecipitated about 5% of the adenylate cyclase not preactivated (control) and 15% of the adenylate cyclase pretreated with forskolin. Adenylate cyclase solubilized from control membranes or GTP-gamma-S preactivated membranes was partially purified by using forskolin-agarose affinity chromatography. The amount of Gs alpha protein in the partially purified preparations was determined by immunoblotting with RM antibody. There was 3-fold more Gs alpha detected in partially purified adenylate cyclase from preactivated membranes than in the partially purified adenylate cyclase from control membranes. Partially purified adenylate cyclase from preactivated membranes was immunoprecipitated with RM antibody and the amount of adenylate cyclase activity immunoprecipitated (65% of total) corresponded to the amount of Gs alpha protein immunoprecipitated. Only 15% of the partially purified adenylate cyclase from control membranes was immunoprecipitated. The presence of other G proteins in the partially purified preparations of adenylate cyclase was investigated by using specific antisera that detect Go alpha, Gi alpha, and G beta. The G beta protein was the only subunit detected in the partially purified preparations of adenylate cyclase and the amount of G beta was about the same in adenylate cyclase from preactivated membranes and from control membranes.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1990

28. Effects of forskolin and analogues on nicotinic receptor-mediated sodium flux, voltage-dependent calcium flux, and voltage-dependent rubidium efflux in pheochromocytoma PC12 cells.

Author

Nishizawa Y, Seamon KB, Daly JW, and Aronstam RS

Subjects

Adrenal Gland Neoplasms pathology, Animals, Carbachol pharmacology, Neurotoxins pharmacology, Pheochromocytoma pathology, Potassium metabolism, Rats, Receptors, Nicotinic physiology, Tumor Cells, Cultured drug effects, Tumor Cells, Cultured metabolism, Calcium metabolism, Colforsin analogs & derivatives, Colforsin pharmacology, Ion Channel Gating drug effects, Ion Channels drug effects, Receptors, Nicotinic drug effects, Rubidium metabolism, Sodium metabolism

Abstract

1. Forskolin, a naturally occurring diterpene that activates adenylate cyclase, HL706, a water-soluble derivative of forskolin (6 beta-[(piperidino)acetoxy]-7-desacetylforskolin) that is less potent than forskolin in activating adenylate cyclase, and 1,9-dideoxyforskolin, an analogue that does not activate adenylate cyclase, were examined for effects on the nicotinic receptor-mediated 22Na+ flux, a high potassium-induced 45Ca2+ flux through L-type calcium channels, and a high potassium-induced 86Rb+ efflux through a calcium-dependent potassium channels in PC12 cells. 2. Forskolin and analogues at 30 microM completely blocked carbamylcholine-elicited flux of 22Na+ through the nicotinic receptor-gated channel. 1,9-Dideoxyforskolin had an IC50 value of 1.6 microM with forskolin and HL706 being two- to three fold less potent. 3. Forskolin and its analogues appear to be noncompetitive blockers of the neuronal nicotinic receptor-channel complex in PC12 cells, but unlike many noncompetitive blockers, did not markedly enhance desensitization. Instead, forskolin, but not HL706 or 1,9-dideoxyforskolin, slightly antagonized the desensitization evoked by high concentrations of carbamylcholine. N-Ethylcarboxamidoadenosine, an adenosine analogue that elevates cyclic AMP and 8-bromo-cyclic AMP had no effect on desensitization. 4. Forskolin, HL706, and 1,9-dideoxyforskolin in the presence of carbamylcholine inhibited the binding of a noncompetitive blocker, [3H]perhydrohistrionicotoxin, to the muscle-type nicotinic receptor-channel complex in Torpedo electroplax membranes with IC50 values of 20 microM. Forskolin had no effect on [3H]perhydrohistrionicotoxin binding in the absence of carbamylcholine, while HL706 and 1,9-dideoxyforskolin still inhibited binding in the absence of carbamylcholine. 5. Forskolin, but not HL706 or 1,9-dideoxyforskolin had a slight inhibitory effect on the binding of [125I]alpha-bungarotoxin to acetylcholine recognition sites in Torpedo membranes. 1,9-Dideoxyforskolin at 30 microM, but not forskolin or HL706, markedly inhibited depolarization-evoked 45Ca+ flux and 86Rb+ efflux in PC12 cells, suggesting that 1,9-dideoxyforskolin has nonspecific inhibitory effects on a variety of ion channels.

Published

1990

29. Identification of cell surface receptors for the Act-2 cytokine.

Author

Napolitano M, Seamon KB, and Leonard WJ

Subjects

Amino Acid Sequence, Animals, Binding, Competitive immunology, Biological Factors genetics, Cell Line, Cell Membrane metabolism, Chemokine CCL4, Chemokines, CC, Chromatography, High Pressure Liquid, Cytokines, Humans, Kinetics, Lymphocytes immunology, Lymphocytes metabolism, Macrophage Inflammatory Proteins, Molecular Sequence Data, Proteins genetics, Proteins isolation & purification, Rabbits, Biological Factors metabolism, Proteins metabolism, Receptors, Cytokine, Receptors, Immunologic analysis

Abstract

We have identified cell surface receptors for Act-2, a secreted protein expressed upon activation of T cells, B cells, and monocytes. Although 125I-Act-2 showed little, if any, specific binding to resting peripheral blood lymphocytes (PBL) receptors were readily detected on PHA/PMA-activated PBL and a variety of cell lines including MT-2, HL60, DMSO differentiated HL60, HeLa, and K562 cells. The equilibrium dissociation constant (Kd) is 3-12 nM for MT-2, K562, and PBL activated with PHA/PMA for 40-80 h. We have also identified a rabbit polyclonal antiserum that can block Act-2 binding to its receptors. The ability to detect specific Act-2 receptors and the development of a blocking antiserum should prove valuable in efforts to molecularly clone the Act-2 receptor and to dissect the biological actions of Act-2.

Published

1990

30. Irreversible loss of [3H]forskolin binding sites in human platelets by alpha-haloacetyl analogs of forskolin.

Author

Laurenza A, Morris D, and Seamon KB

Subjects

Alkylating Agents, Alprostadil pharmacology, Aluminum pharmacology, Cell Membrane metabolism, Colforsin metabolism, Cyclic AMP metabolism, Enzyme Activation drug effects, Fluorine pharmacology, Humans, In Vitro Techniques, Adenylyl Cyclases metabolism, Aluminum Compounds, Blood Platelets metabolism, Colforsin analogs & derivatives, Fluorides

Abstract

The 7-bromoacetyl-7-desacetyl (BrAcFsk) and 7-chloroacetyl-7-desacetyl (CIAcFsk) analogs of forskolin were synthesized as alkylating agents to study the high affinity binding sites for forskolin. BrAcFsk and CIAcFsk activated adenylate cyclase in human platelet membranes with EC50 values of about 20 and 12 microM, respectively. Both analogs increased cyclic AMP in human platelets; however, they were less potent that forskolin. Forskolin inhibited [3H]forskolin binding to human platelet membranes with an IC50 of 20 nM, whereas BrAcFsk and CIAcFsk inhibited [3H] forskolin binding with IC50 values of 0.1 microM. Pretreatment of intact platelets with 10 microM BrAcFsk caused a 90% irreversible loss in [3H]forskolin binding sites, whereas pretreatment with 10 microM CIAcFsk led to a loss of 55% of the binding sites. The loss of binding sites occurred within 5 min for BrAcFsk and within 30 min for CIAcFsk. The time required for the loss of binding sites produced by either alkylating agent was increased by the inclusion of 200 microM forskolin in the pretreatment buffer. The inactive bromoacetyl analog of forskolin 7-bromoacetyl-7-desacetyl-1.9-dideoxyforskolin (1,9-dideoxy-BrAcFsk) did not activate adenylate cyclase, inhibit [3H]forskolin binding, or cause an irreversible loss of [3H]forskolin binding sites. Adenylate cyclase was assayed in membranes from platelets treated with either 10 microM BrAcFsk or 10 microM 1,9-dideoxy-BrAcFsk. The stimulation of adenylate cyclase by prostaglandin E1, guanosine-5'-O-(3-thio)triphosphate, and AIF4 was inhibited by about 50% in membranes from platelets treated with BrAcFsk. However, the stimulation of adenylate cyclase by forskolin was unaffected by preincubation with BrAcFsk. Pretreatment of human platelets with 1,9-dideoxy-BrAcFsk had no effect on the stimulation of adenylate cyclase by prostaglandin E1, AIF4, or forskolin.

Published

1990

31. Calcium- and magnesium-dependent conformational states of calmodulin as determined by nuclear magnetic resonance.

Author

Seamon KB

Subjects

Animals, Brain Chemistry, Cattle, Magnetic Resonance Spectroscopy, Protein Binding, Protein Conformation, Calcium, Calcium-Binding Proteins, Calmodulin, Magnesium

Published

1980

32. Activation of cyclic AMP-generating systems in brain membranes and slices by the diterpene forskolin: augmentation of receptor-mediated responses.

Author

Daly JW, Padgett W, and Seamon KB

Subjects

Adenylyl Cyclases metabolism, Animals, Brain drug effects, Cerebral Cortex metabolism, Colforsin, Dose-Response Relationship, Drug, Histamine pharmacology, Isoproterenol pharmacology, Male, Neurotransmitter Agents pharmacology, Norepinephrine pharmacology, Rats, Vasoactive Intestinal Peptide pharmacology, Brain metabolism, Cyclic AMP metabolism, Diterpenes pharmacology

Abstract

The diterpene forskolin markedly activates adenylate cyclase in membranes from various rat brain regions and elicits marked accumulations of radioactive cyclic AMP in adenine-labeled slices from cerebral cortex, cerebellum, hippocampus, striatum, superior colliculi, hypothalamus, thalamus, and medulla-pons. In cerebral cortical slices, forskolin has half-maximal effects at 20-30 microM on cyclic AMP levels, both alone and in the presence of the phosphodiesterase inhibitor ZK 62771. The presence of a very low dose of forskolin (1 microM) can augment the response of brain cyclic AMP-generating systems to norepinephrine, isoproterenol, histamine, serotonin, dopamine, adenosine, prostaglandin E2, and vasoactive intestinal peptide. Forskolin does not augment responses to combinations of histamine-norepinephrine adenosine-norepinephrine, or histamine-adenosine. For norepinephrine and isoproterenol in rat cerebral cortical slices and for histamine in guinea pig cerebral cortical slices, the presence of 1 microM-forskolin augments the apparent efficacy of the amine, whereas for adenosine, prostaglandin E2, and vasoactive intestinal peptide, the major effect of 1 microM-forskolin is to increase the apparent potency of the stimulatory agent. In rat striatal slices, forskolin reveals a significant response of cyclic AMP systems to dopamine and augments the dopamine-elicited activation of adenylate cyclase in rat striatal membranes. The activation of cyclic AMP systems by forskolin is rapid and reversible, and appears to involve both direct activation of adenylate cyclase and facilitation and/or enhancement of receptor-mediated activation of the enzyme.

Published

1982

33. Ca2+ and Mg2+ dependent conformations of troponin C as determined by 1H and 19F nuclear magnetic resonance.

Author

Seamon KB, Hartshorne DJ, and Bothner-By AA

Subjects

Alkylation, Binding Sites, Calcium metabolism, Fluorine, Histidine, Hydrogen-Ion Concentration, Kinetics, Magnesium metabolism, Magnetic Resonance Spectroscopy, Phenylalanine, Protein Binding, Protein Conformation drug effects, Tyrosine, Calcium pharmacology, Magnesium pharmacology, Muscle Proteins metabolism, Troponin metabolism

Published

1977

34. Modulation of forskolin binding to rat brain membranes.

Author

Seamon KB, Vaillancourt R, and Daly JW

Subjects

Adenylyl Cyclases metabolism, Animals, Binding Sites, Cations, Divalent, Cations, Monovalent, Cell Membrane metabolism, Chymotrypsin pharmacology, Ethylmaleimide pharmacology, Guanylyl Imidodiphosphate pharmacology, Kinetics, Rats, Sodium Fluoride pharmacology, Trypsin pharmacology, Brain metabolism, Colforsin metabolism

Abstract

High affinity binding sites for [3H]forskolin have been identified in rat brain membranes. These sites have a Kd of 15 nM and a Bmax of about 200 fmol/mg protein. The binding of [3H]forskolin to those high affinity sites in rat brain membranes is increased about two-fold by addition of MgCl2 or MnCl2. Smaller increases are observed in the presence of calcium, sodium, or potassium. The binding of [3H]forskolin is also increased in the presence of NaF or GppNHp, agents that are known to activate adenylate cyclase through the stimulatory guanine nucleotide regulatory protein (Ns). The increase in [3H]forskolin binding in the presence of NaF or GppNHp is due to an increase in the number of binding sites with no change in the apparent Kd for the binding sites. The NaF- and GppNHp-stimulated binding requires the presence of magnesium or manganese. The binding of [3H]forskolin to rat brain membranes is reduced in membranes that are heated or pretreated with chymotrypsin, trypsin, or N-ethylmaleimide. NaF stabilizes the binding sites to thermal denaturation. The data demonstrate that the number of high affinity forskolin binding sites are increased under conditions that promote the activation of the catalytic protein of adenylate cyclase by the Ns protein. It is suggested that the high affinity forskolin binding sites are associated with a complex of the catalytic protein and the activated Ns protein.

Published

1985

35. Forskolin: a unique diterpene activator of cyclic AMP-generating systems.

Author

Seamon KB and Daly JW

Subjects

Animals, Biological Assay, Cerebral Cortex enzymology, Colforsin, Enzyme Activation, Guanine Nucleotides pharmacology, Guinea Pigs, Heart drug effects, Kinetics, Macromolecular Substances, Myocardial Contraction drug effects, Plant Extracts pharmacology, Plants, Medicinal, Rats, Sodium Fluoride pharmacology, Tissue Distribution, Adenylyl Cyclases metabolism, Cyclic AMP metabolism, Diterpenes pharmacology

Abstract

Forskolin, a diterpene of the labdane family, activates adenylate cyclase in broken cell preparations as well as in intact tissues. This activation does not require the guanine nucleotide regulatory subunit of the enzyme and probably occurs via an interaction with the catalytic subunit of adenylate cyclase. Activation of adenylate cyclase by forskolin results in marked increases in levels of intracellular cyclic AMP in a variety of eukaryotic cells. Low concentrations of forskolin which alone elicit small increases in intracellular cyclic AMP greatly potentiate hormonal activation of adenylate cyclase in a number of intact cells. Forskolin elicits cellular responses which have been proposed to be dependent o cyclic AMP as a second messenger. Forskolin, thus provides an invaluable tool for the investigation of the role of cyclic AMP in physiological responses to hormones, both through it direct activation of adenylate cyclase and through its ability to potentiate hormonal activation of adenylate cyclase.

Published

1981

36. Calmodulin stimulation of adenylate cyclase in rat brain membranes does not require GTP.

Author

Seamon KB and Daly JW

Subjects

Animals, Calcium Chloride pharmacology, Cell Membrane enzymology, Dopamine pharmacology, Enzyme Activation, Guanine Nucleotides pharmacology, Kinetics, Male, Rats, Rats, Inbred Strains, Adenylyl Cyclases metabolism, Calcium-Binding Proteins pharmacology, Calmodulin pharmacology, Cerebral Cortex enzymology, Corpus Striatum enzymology, Guanosine Triphosphate pharmacology

Abstract

Calcium stimulates adenylate cyclase activity in rat cerebral cortical membranes with either ATP or AppNHp as substrate. In contrast, isoproterenol stimulates the cerebral cortical enzyme with ATP as substrate but not with AppNHp as substrate unless exogenous GTP is added. In rat striatal membranes, calcium or dopamine stimulate adenylate cyclase activity with ATP as substrate, but not with AppNHp as substrate. GTP restores the dopamine but not the calcium response. The inhibitory guanine nucleotide GDP-beta S antagonizes dopamine and GppNHp stimulation of the brain adenylate cyclases, but not stimulation by calcium of either rat cerebral cortical or striatal enzymes. Results indicate that GTP is not requisite to calcium-calmodulin activation of adenylate cyclases in brain membranes. In addition, calcium-calmodulin cannot activate striatal adenylate cyclases with a nonphosphorylating nucleotide, AppNHp, as substrate.

Published

1982

37. Octopus calmodulin. Structural comparison with bovine brain calmodulin.

Author

Seamon KB and Moore BW

Subjects

3',5'-Cyclic-AMP Phosphodiesterases metabolism, Amino Acids analysis, Animals, Calcium pharmacology, Cattle, Enzyme Activation, Octopodiformes, Brain Chemistry, Calcium-Binding Proteins pharmacology, Calmodulin pharmacology, Optic Lobe, Nonmammalian analysis

Abstract

A protein previously isolated from octopus optic lobe is shown to have the biochemical characteristics of a calmodulin-like protein. The amino acid composition of the octopus calmodulin is similar to that of another sea invertebrate calmodulin, from Renilla reniformis, in that both contain a single residue of tyrosine which distinguishes them from the vertebrate calmodulins which contain two tyrosines. The 1H NMR spectra of the octopus calmodulin and bovine brain calmodulin are compared in their apo- and calcium-saturated conformations. A comparison of these spectra indicates that the single tyrosine of the octopus calmodulin is in a structurally homologous position to tyrosine-138 of bovine brain calmodulin. 1H NMR and UV difference spectroscopy also demonstrate that the solution conformations of the apo- and calcium-saturated forms of octopus calmodulin are very similar to those of bovine brain calmodulin. It is concluded that both proteins undergo similar calcium-induced changes in tertiary structure, which result in near identical solution conformations.

Published

1980

38. Structure-activity relationships for activation of adenylate cyclase by the diterpene forskolin and its derivatives.

Author

Seamon KB, Daly JW, Metzger H, de Souza NJ, and Reden J

Subjects

Animals, Cerebral Cortex enzymology, Colforsin, Enzyme Activation, Male, Rats, Rats, Inbred Strains, Structure-Activity Relationship, Adenylyl Cyclases metabolism, Diterpenes pharmacology

Abstract

Forskolin (7 beta-acetoxy-8,13-epoxy-1 alpha, 6 beta, 9 alpha-trihydroxylabd-14-en-11-one), a diterpene from the Indian plant Coleus forskohlii, activates cyclic AMP generating systems in a number of mammalian tissues in a rapid and reversible fashion. Derivatives of forskolin have been tested for their ability to stimulate membrane adenylate cyclase from rat brain and rabbit heart, as well as cyclic AMP generation in guinea pig brain vesicular preparations, a model system for intact cells. Derivatives at the 6 beta- and 7 beta-hydroxy functions retain activity, but none have greater activity than that of forskolin. Reduction of the 11-keto function affords an active 11 beta-hydroxy derivative. Reduction of the 14,15-vinyl (alpha) substituent reduces activity, while epoxidation abolishes activity. Derivatization or lack of the 1 alpha- and 9 alpha-hydroxy functions results in a marked reduction in activity, emphasizing the importance of the alpha aspect of the molecule. However, the 1 alpha, 6 beta-di-O-acetyl derivative does retain activity. None of the inactive derivatives, which include the 14,15-epoxy, the 1,9-dideoxy, and the 1,6-diketo derivatives, antagonize the stimulatory effects of forskolin.

Published

1983

39. Forskolin: unique diterpene activator of adenylate cyclase in membranes and in intact cells.

Author

Seamon KB, Padgett W, and Daly JW

Subjects

Animals, Brain enzymology, Colforsin, Cyclic AMP metabolism, Enzyme Activation drug effects, Fluorides pharmacology, Guanine Nucleotides pharmacology, Hormones pharmacology, Male, Manganese pharmacology, Membranes enzymology, Rats, Tissue Distribution, Adenylyl Cyclases metabolism, Diterpenes pharmacology

Abstract

The diterpene, forskolin [half-maximal effective concentration (EC50), 5-10 microM] activates adenylate cyclase [ATP pyrophosphate-lyase (cyclizing), EC 4.6.1.1] in rat cerebral cortical membranes in a rapid and reversible manner. Activation is not dependent on exogenous guanyl nucleotides and is not inhibited by guanosine 5'-O-(2-thiodiphosphate) when assayed with adenosine 5'-[beta, gamma-imido]triphosphate as substrate. GTP and GDP potentiate responses to forskolin. The activations of adenylate cyclase by forskolin and guanosine 5'-[beta, gamma-imido]triphosphate p[NH]ppG are not additive, whereas activations by forskolin and fluoride are additive or partially additive. The responses of adenylate cyclase to forskolin or fluoride are not inhibited by manganese ions, whereas the response to p[NH]ppG is completely blocked. Activation of adenylate cyclase by forskolin is considerably greater than the activation by fluoride in membranes from rat cerebellum, striatum, heart, and liver, while being about equal or less than the activation by fluoride in other tissues. Forskolin (EC50, 25 microM) causes a rapid and readily reversible 35-fold elevation of cyclic AMP in rat cerebral cortical slices that is not blocked by a variety of neurotransmitter antagonists. Low concentrations of forskolin (1 microM) augment the response of cyclic AMP-generating systems in brain slices to norepinephrine, isoproterenol, histamine, adenosine, prostaglandin E2, and vasoactive intestinal peptide. Forskolin would appear to activate adenylate cyclase through a unique mechanism involving both direct activation of the enzyme and facilitation or potentiation of the modulation of enzyme activity by receptors or the guanyl nucleotide-binding subunit, or both.

Published

1981

40. Interaction of forskolin with dually regulated adenylate cyclase.

Author

Seamon KB and Wetzel B

Subjects

Adenylyl Cyclase Inhibitors, Animals, Blood Platelets metabolism, Cell Line, Colforsin, Diterpenes antagonists & inhibitors, Drug Interactions, Enzyme Activation drug effects, Ethylmaleimide pharmacology, GTP-Binding Proteins, Guanylyl Imidodiphosphate pharmacology, Hormones pharmacology, Humans, Lymphoma, Manganese metabolism, Mice, Receptors, Cell Surface drug effects, Receptors, Cell Surface physiology, Adenylyl Cyclases metabolism, Diterpenes pharmacology

Abstract

Forskolin clearly has effects on all three known components of adenylate cyclase, Ni, Ns, and the catalytic subunit (C). Forskolin can activate the catalytic activity of adenylate cyclase directly in the absence of the Ni or Ns subunit, and, therefore, forskolin is acting at a site that is on the catalytic subunit or a closely associated protein. A lack of forskolin stimulation of cyclic AMP in intact cells does not necessarily imply that it requires or acts via the Ns protein, since, as shown for the cyc- S49 cells, the enzyme may be in an inhibited state because of the presence of Ni. The presence of a site on adenylate cyclase that can regulate not only the absolute activity of the enzyme but also its sensitivity to hormones raises the possibility that there may be substances endogenous to the cell that can functionally interact at this site. It is too early to speculate as to the nature of these substances. However, they could be extracellular, originating from other cells, or they could be intracellular. The final determination will rely on the identification and physical disposition of the forskolin-binding site and also the identification of endogenous compounds with forskolin-like activities.

Published

1984

41. Quantitation and characterization of the trifluoroacetonyl derivative of cysteine: a useful NMR probe.

Author

Brown WE and Seamon KB

Subjects

Alkylating Agents, Chemical Phenomena, Chemistry, Drug Stability, Evaluation Studies as Topic, Glutathione, Magnetic Resonance Spectroscopy methods, Peptides, Acetone analogs & derivatives, Cysteine analogs & derivatives, Proteins, Sulfhydryl Reagents

Published

1978

42. Binding of [3H]forskolin to rat brain membranes.

Author

Seamon KB, Vaillancourt R, Edwards M, and Daly JW

Subjects

Adenylyl Cyclases metabolism, Animals, Binding, Competitive, Cations, Divalent, Cell Membrane metabolism, Colforsin, Edetic Acid pharmacology, Kinetics, Male, Rats, Spermatozoa metabolism, Tritium, Brain metabolism, Carrier Proteins metabolism, Diterpenes metabolism

Abstract

[12-3H]Forskolin (27 Ci/mmol) has been used to study binding sites in rat brain tissue by using both centrifugation and filtration assays. The binding isotherm measured in the presence of 5 mM MgCl2 by using the centrifugation assay is described best by a two-site model: Kd1 = 15 nM, Bmax1 (maximal binding) = 270 fmol/mg of protein; Kd2 = 1.1 microM; Bmax2 = 4.2 pmol/mg of protein. Only the high-affinity binding sites are detected when the binding is determined by using a filtration assay; Kd = 26 nM, Bmax = 400 fmol/mg of protein. Analogs of forskolin that do not activate adenylate cyclase (EC 4.6.1.1) do not compete effectively for [3H]forskolin binding sites. Analogs of forskolin that are less potent than forskolin in activating adenylate cyclase are also less potent in competing for forskolin binding sites. The presence of 5 mM MgCl2 or MnCl2 was found to enhance binding. In the presence of 1 mM EDTA the amount of high-affinity binding is reduced to 110 fmol/mg of protein with no change in Kd. There is no effect of CaCl2 (20 mM) or NaCl (100 mM) on the binding. No high-affinity binding can be detected in membranes from ram sperm, which contains an adenylate cyclase that is not activated by forskolin. It is proposed that the high-affinity binding sites for forskolin are associated with the activated complex of catalytic subunit and stimulatory guanine nucleotide binding protein.

Published

1984

43. Stimulation of adenylate cyclase by water-soluble analogues of forskolin.

Author

Laurenza A, Khandelwal Y, De Souza NJ, Rupp RH, Metzger H, and Seamon KB

Subjects

Animals, Brain enzymology, Cell Membrane enzymology, Kinetics, Rats, Solubility, Structure-Activity Relationship, Adenylyl Cyclases metabolism, Colforsin analogs & derivatives, Colforsin pharmacology

Abstract

Analogues of forskolin that are more soluble in water than forskolin have been synthesized and tested for their ability to interact with adenylate cyclase. These analogues are esterified with various heterocyclic amino acids at the 6 beta-hydroxyl position of forskolin or at the 6 beta-hydroxyl or 7 beta-hydroxyl position of 7-desacetyl forskolin. Analogues were tested for their ability to activate rat brain adenylate cyclase, activate detergent-solubilized rat brain adenylate cyclase, increase cyclic AMP in intact S49 wild-type cells, and inhibit the binding of 3H-forskolin to rat brain membranes. Forskolin activated rat brain adenylate cyclase with an EC50 of 4 microM and increased cyclic AMP in intact S49 cells with an EC50 of 5 microM. Analogues esterified at the 7 beta-hydroxyl position had EC50 values that ranged from 4 microM to 15 microM for activating adenylate cyclase in membranes and solubilized preparations, and for increasing cyclic AMP in S49 cells. Analogues esterified at the 6 beta-hydroxyl position with no acyl group at the 7 beta-hydroxyl position were generally less potent than the corresponding 7-acyl analogues with EC50 values that ranged from 30 microM to 100 microM. Interestingly, the diacyl analogues of forskolin containing an acetate group at the 7 beta-hydroxyl position and esterified with heterocyclic amino acids at the 6 beta-hydroxyl position were very potent at stimulating adenylate cyclase, with EC50 values that ranged from 1 microM to 25 microM. The 7-acyl analogues and the 6,7-diacyl analogues inhibited the binding of 3H-forskolin to rat brain membranes with IC50 values that ranged from 20 microM to 70 microM, while the 6-acyl analogues had much higher IC50 values that ranged from 100 nM to 375 nM. Aqueous solutions of forskolin were also produced by dissolving forskolin in solutions of hydroxypropyl-gamma-cyclodextrin. These aqueous solutions of forskolin were equipotent with alcoholic solutions of forskolin in stimulating adenylate cyclase. In conclusion, water-soluble derivatives of forskolin may be useful for increasing cyclic AMP in broken cell preparations or in intact cell preparations where the presence of organic solvents, which are necessary to solubilize forskolin, are detrimental. Alternatively, aqueous solutions of forskolin can be produced by dissolving forskolin in solutions of hydroxypropyl-gamma-cyclodextrin.

Published

1987

44. Binding of [3H]forskolin to solubilized preparations of adenylate cyclase.

Author

Nelson CA and Seamon KB

Subjects

Animals, Binding, Competitive, Cattle, Cell Membrane enzymology, Colforsin analogs & derivatives, Enzyme Activation drug effects, Guanylyl Imidodiphosphate pharmacology, Adenylyl Cyclases metabolism, Brain enzymology, Colforsin metabolism

Abstract

The binding of [3H]forskolin to proteins solubilized from bovine brain membranes was studied by precipitating proteins with polyethylene glycol and separating [3H]forskolin bound to protein from free [3H]forskolin by rapid filtration. The Kd for [3H]forskolin binding to solubilized proteins was 14 nM which was similar to that for [3H]forskolin binding sites in membranes from rat brain and human platelets. Forskolin analogs competed for [3H]forskolin binding sites with the same rank potency in both brain membranes and in proteins solubilized from brain membranes. [3H]forskolin bound to proteins solubilized from membranes with a Bmax of 38 fmol/mg protein which increased to 94 fmol/mg protein when GppNHp was included in the binding assay. In contrast, GppNHp had no effect on [3H]forskolin binding to proteins solubilized from membranes preactivated with GppNHp. Solubilized adenylate cyclase from non-preactivated membranes had a basal activity of 130 pmol/mg/min which was increased 7-fold by GppNHp. In contrast, adenylate cyclase from preactivated membranes had a basal activity of 850 pmol/mg/min which was not stimulated by GppNHp or forskolin. Thus, the number of high affinity binding sites for [3H]forskolin in solubilized preparations correlated with the activation of adenylate cyclase by GppNHp via the guanine nucleotide binding protein (GS).

Published

1988

45. Activation of adenylate cyclase and inhibition of glucose transport in rat adipocytes by forskolin analogues: structural determinants for distinct sites of action.

Author

Joost HG, Habberfield AD, Simpson IA, Laurenza A, and Seamon KB

Subjects

Adipose Tissue drug effects, Animals, Biological Transport, Active drug effects, Colforsin pharmacology, Cytochalasin B metabolism, Diterpenes, Enzyme Activation, Male, Rats, Adenylyl Cyclases metabolism, Adipose Tissue enzymology, Colforsin analogs & derivatives, Glucose metabolism

Abstract

Forskolin and four analogues of forskolin, 7-beta-[gamma-(N'-methylpiperazino)-butyryloxy]-7-desacet ylforskolin, 7-desacetylforskolin, 7-tosyl-7-desacetylforskolin, and 1,9-dideoxyforskolin, were tested for their ability to activate adenylate cyclase, inhibit glucose transport, and inhibit cytochalasin B binding in rat adipocyte membranes. Forskolin was the most potent analogue in activating adenylate cyclase with an EC50 of 2 microM, whereas 7-beta-[gamma-(N'-methylpiperazino)butyryloxy]-7-desacety lforskolin and 7-desacetylforskolin were less potent, with EC50 values of 3 microM and 20 microM, respectively. The 7-tosyl-7-desacetylforskolin and 1,9-dideoxyforskolin did not stimulate adenylate cyclase even at the highest concentrations tested (100 microM). In contrast, forskolin and all of the analogues were able to fully inhibit glucose transport in adipocyte plasma membranes. The order of potency for the inhibition was forskolin greater than 7-beta-[gamma-(N'-methylpiperazino)butyryloxy]-7-desacety lforskolin greater than 7-desacetylforskolin greater than 7-tosyl-7-desacetylforskolin greater than 1,9-dideoxyforskolin, and the EC50 values were 0.24 microM, 1.8 microM, 7.1 microM, 8.8 microM, and 12.8 microM, respectively. Cytochalasin B binding to rat adipocyte membranes was inhibited by forskolin and the four analogues with the same order of potency as observed for the inhibition of glucose transport. Thus, the site of action of forskolin which is responsible for the inhibition of glucose transport and cytochasin B binding exhibits structural requirements for forskolin and its analogues that are different from those of the site responsible for the activation of adenylate cyclase.

Published

1988

46. Regulation of [3H]forskolin binding to human platelet membranes by GppNHp, NaF, and prostaglandin E1.

Author

Nelson CA and Seamon KB

Subjects

Alprostadil, Binding Sites, Blood Platelets drug effects, Cell Membrane metabolism, Colforsin, Dose-Response Relationship, Drug, Humans, In Vitro Techniques, Kinetics, Blood Platelets metabolism, Diterpenes metabolism, Guanosine Triphosphate analogs & derivatives, Guanylyl Imidodiphosphate pharmacology, Prostaglandins E pharmacology, Sodium Fluoride pharmacology

Abstract

Displaceable binding of [3H]forskolin to human platelet membranes can be detected in the presence of magnesium. There is an increase in the number of [3H]forskolin binding sites when membranes are incubated with GppNHp or NaF in the presence of magnesium. Prostaglandin E1, which stimulates human platelet adenylate cyclase, does not affect the binding of [3H]forskolin in the absence of GppNHp. However, the dose-response curve for the GppNHp-dependent increase in [3H]forskolin binding sites is shifted to lower concentrations in the presence of prostaglandin E1. Prostaglandin E1 potentiates the effect of GppNHp on [3H]forskolin binding most likely by facilitating the binding of the guanine nucleotide at the stimulatory quanine nucleotide regulatory protein of adenylate cyclase.

Published

1985

47. Monocyte-derived human B-cell growth factor identified as interferon-beta 2 (BSF-2, IL-6).

Author

Tosato G, Seamon KB, Goldman ND, Sehgal PB, May LT, Washington GC, Jones KD, and Pike SE

Subjects

B-Lymphocytes microbiology, Cell Count, Cell Division, Cells, Cultured, Electrophoresis, Polyacrylamide Gel, Humans, Immunoassay, Interleukin-6, Interleukins isolation & purification, B-Lymphocytes cytology, Herpesvirus 4, Human physiology, Interleukins pharmacology, Monocytes metabolism

Abstract

Soluble products of either Epstein-Barr virus (EBV)-infected B cells or activated monocytes promote the proliferation of EBV-infected B cells and permit their growth at low cell densities. This suggests that growth factors are important for B-cell immortalization by EBV. In this study, a monocyte-derived factor that promotes the growth of EBV-infected b cells was purified and identified as interferon-beta 2 (IFN-beta 2), which is also known as 26-kilodalton protein, B-cell differentiation factor (BSF-2), and interleukin-6 (IL-6). The purified protein has a specific activity of approximately 4 X 10(7) units per milligram of protein in assays of B-cell growth. Thus, IFN-beta 2/BSF-2 is a B-cell growth factor that promotes the proliferation of human B cells infected with EBV.

Published

1988

48. Forskolin: a specific stimulator of adenylyl cyclase or a diterpene with multiple sites of action?

Author

Laurenza A, Sutkowski EM, and Seamon KB

Subjects

Animals, Humans, Stimulation, Chemical, Adenylyl Cyclases metabolism, Colforsin pharmacology, Diterpenes pharmacology

Abstract

Forskolin, a naturally occurring diterpene, directly stimulates adenylyl cyclase and has been used extensively to increase cAMP and to elicit cAMP-dependent physiological responses. More recently, forskolin has been shown to inhibit a number of membrane transport proteins and channel proteins through a mechanism that does not involve the production of cAMP. Many of these channel proteins are predicted to have similar topographies in the membrane bilayer and it is tempting to speculate that forskolin may be binding at structurally homologous sites. Kenneth Seamon and colleagues discuss the cAMP-independent effects of forskolin and the structural similarity between forskolin and other physiologically important substances such as hexoses and steroids with respect to potential forskolin binding sites.

Published

1989

49. High-affinity binding of forskolin to rat brain membranes.

Author

Seamon KB and Daly JW

Subjects

Animals, Cations, Divalent pharmacology, Colforsin, Edetic Acid pharmacology, Enzyme Activation, Fluorides pharmacology, GTP-Binding Proteins metabolism, Guanylyl Imidodiphosphate pharmacology, Kinetics, Protein Binding drug effects, Rats, Structure-Activity Relationship, Synaptosomes metabolism, Temperature, Adenylyl Cyclases metabolism, Brain metabolism, Diterpenes metabolism

Abstract

High-affinity forskolin binding sites in brain membranes have been identified that have structure-activity characteristics compatible with forskolin's site of action at the adenylate cyclase enzyme. It is proposed that these high-affinity binding sites are associated with an activated complex of the catalytic protein and the alpha s subunit. Quantitation of high-affinity forskolin binding sites may provide a direct measure of the amount of adenylate cyclase that has the potential to be regulated by stimulatory hormones and the Ns subunit.

Published

1985

50. Binding of [3H]forskolin to human platelet membranes. Regulation by guanyl-5'-yl imidodiphosphate, NaF, and prostaglandins E1 and D2.

Author

Nelson CA and Seamon KB

Subjects

Binding Sites, Cell Membrane metabolism, Colforsin metabolism, Humans, Kinetics, Prostaglandin D2, Alprostadil pharmacology, Blood Platelets metabolism, Colforsin blood, Guanosine Triphosphate analogs & derivatives, Guanylyl Imidodiphosphate pharmacology, Prostaglandins D pharmacology, Sodium Fluoride pharmacology

Abstract

[3H]Forskolin binds to human platelet membranes in the presence of 5 mM MgCl2 with a Bmax of 125 fmol/mg of protein and a Kd of 20 nM. The Bmax for [3H]forskolin binding is increased to 455 and 425 fmol/mg of protein in the presence of 100 microM guanyl-5'-yl imidodiphosphate (Gpp(NH)p) and 10 mM NaF, respectively. The increase in the Bmax for [3H]forskolin in the presence of Gpp(NH)p or NaF is not observed in the absence of MgCl2. The EC50 values for the increase in the number of binding sites for [3H]forskolin by Gpp(NH)p and NaF are 600 nM and 4 mM, respectively. The EC50 value for Gpp(NH)p to increase the number of [3H]forskolin binding sites is reduced to 35 mM and 150 nM in the presence of 50 microM PGE1 or PGD2, respectively. The increase in the number of [3H]forskolin binding sites observed in the presence of NaF is unaffected by prostaglandins. The binding of [3H]forskolin to membranes that are preincubated with Gpp(NH)p for 120 min or assayed in the presence of PGE1 reaches equilibrium within 15 min. In contrast, a slow linear increase in [3H]forskolin binding is observed over a period of 60 min when Gpp(NH)p and [3H]forskolin are added simultaneously to membranes. A slow linear increase in adenylate cyclase activity is also observed as a result of preincubating membranes with Gpp(NH)p. In human platelet membranes, agents that activate adenylate cyclase via the guanine nucleotide stimulatory protein (Ns) increase the number of binding sites for [3H]forskolin in a magnesium-dependent manner. This is consistent with the high affinity binding sites for [3H]forskolin being associated with the formation of an activated complex of the Ns protein and adenylate cyclase. This state of the adenylate cyclase may be representative of that formed by a synergistic combination of hormones and forskolin.

Published

1986