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ABSTRACT: Neurotensin, an endogenous tridecapeptide, produces a potent, naloxone-insensitive antinociceptive response when it is microinjected into the periaqueductal gray region of the rat brainstem. In the present study, the ED50 for neurotensin in inducing antinociception was 1.5 nmol, two times more potent than morphine. We sought to find whether neurotensin's antinociceptive effects were mediated by the same receptor that mediates its other functions. We found that the structure-activity relationship of neurotensin-induced antinociception was different from that required for the stimulation of intracellular cyclic GMP production in neuroblastoma clone N1E-115 and the binding to N1E-115 cells, human brain tissue, or rat periaqueductal gray. These data suggest there exists a subtype of neurotensin receptors in neural tissue that mediates its antinociceptive actions.
Brain Research 09/1991; 557(1-2):227-35. · 2.73 Impact Factor
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ABSTRACT: Neurotensin(8-13), the carboxyl-terminal portion of neurotensin, is 4-50 times more potent than native neurotensin in binding to intact neuroblastoma N1E-115 cells and human brain tissue and in stimulation of intracellular cyclic GMP production and inositol phospholipid hydrolysis in clone N1E-115 (Gilbert JA and Richelson E, Eur J Pharmacol 99: 245-246, 1984; Gilbert JA et al., Biochem Pharmacol 35: 391-397, 1986; Kanba KS et al., J Neurochem 46: 946-952, 1986; and Kanba KS and Richelson E, Biochem Pharmacol 36: 869-874, 1987). A series of novel analogs of neurotensin (8-13) was synthesized, and a structure-activity study was done comparing the abilities of these peptides to stimulate intracellular cyclic GMP production in intact neuroblastoma clone N1E-115 and to inhibit the binding of [3H]neurotensin to these cells and to membranal preparations from human brain. A direct correlation was found for each analog between its EC50 for biochemical activity and its KD for binding ability in studies with clone N1E-115. Furthermore, a strong correlation existed for each peptide between its KD for binding to neurotensin receptors on these cells and its KD for binding to neurotensin receptors in human brain tissue. In this study, the residues that were important to the biochemical and binding activities of neurotensin (8-13) proved to be identical to the amino acids that are necessary for the functional integrity of native neurotensin (Gilbert JA et al., Biochem Pharmacol 35: 391-397, 1986.
Biochemical Pharmacology 11/1989; 38(19):3377-82. · 4.70 Impact Factor
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ABSTRACT: Murine neuroblastoma clone N1E-115 possesses receptors that specifically bind the tridecapeptide neurotensin, mediate the formation of intracellular cyclic GMP, and stimulate inositol phospholipid hydrolysis. These cells also rapidly degrade neurotensin in a sequential fashion. We studied the effect of prolonged exposure of cells to neurotensin on subsequent neurotensin receptor-mediated intracellular cyclic GMP formation under conditions that prevented degradation of this peptide [J. A. Gilbert and E. Richelson, Soc. Neurosci. Abstr. 12, 762 (1986)]. Neurotensin receptor-mediated cyclic GMP formation in neuroblastoma clone N1E-115 was decreased following prolonged exposure of intact cells to nondegraded neurotensin. The time course of this desensitization was very rapid; the maximal effect on cyclic GMP production (reduction to 10-30% of control values) occurred within 5 min of exposure of intact cells to neurotensin. This desensitization was homologous, as cells desensitized by neurotensin demonstrated no decrease in their cyclic GMP response to angiotensin II (1 microM) or bradykinin (10 nM). Neurotensin preincubation with intact N1E-115 cells for increasing lengths of time caused time-dependent shifts to the right of the dose-response curve and reductions in the maximum cyclic GMP response. Desensitization was reversible, but resensitization was a slower process than desensitization: full recovery of cyclic GMP production required incubation of the desensitized cells for at least 10 min at 37 degrees. From binding studies with [3H]neurotensin, we found that both the apparent equilibrium dissociation constant, KD, and the maximum number of receptor sites, Bmax, for this radioligand were decreased significantly (P less than 0.05) for completely desensitized cells from those values for control cells. These data suggest that desensitization of the neurotensin receptor involved an uncoupling of the pathway of events connecting receptor activation to intracellular cyclic GMP formation; complete desensitization involved both the apparent loss of neurotensin receptors on the cellular surface and the increase in affinity of the remaining receptors for the agonist. This decrease in Bmax is more likely to be a result of intracellular sequestration of recyclable NT receptors than of true down-regulation due to the rapid resensitization seen for the NT-mediated biological response.
Biochemical Pharmacology 08/1988; 37(14):2833-8. · 4.70 Impact Factor
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ABSTRACT: Murine neuroblastoma clone N1E-115, which possesses receptors for neurotensin mediating the formation of intracellular cyclic GMP and the stimulation of inositol phospholipid hydrolysis, exhibited only partial desensitization to neurotensin. This result led to the observation that neurotensin was very rapidly degraded by intact N1E-115 cells. In experiments measuring the time course of [3H]neurotensin degradation, a minimum of six major tritiated products were found, with the breakdown peptides formed and the degree of proteolysis of [3H]neurotensin being dependent upon the length of incubation and the concentration of cells. Clone N1E-115 degraded [3H]neurotensin in an apparently sequential fashion; the primary initial cleavage of intact neurotensin was at the peptide bond between residues Arg8 and Arg9. Initial degradation peptides from the active carboxyl-terminal portion of neurotensin were more rapidly degraded, after formation, than were the peptides from the inactive amino-terminal half of neurotensin. The final two degradation products found were tyrosine, from the carboxyl-terminal portion of neurotensin, and an as yet unidentified peptide from the amino-terminal half of neurotensin. [3H]Neurotensin(8-13) was more rapidly hydrolyzed under identical conditions than was [3H]neurotensin itself. A combination of the protease inhibitors 1,10-phenanthroline and Z-Pro-Prolinal was able to inhibit almost completely the degradation of neurotensin by clone N1E-115.
Journal of Neurochemistry 01/1988; 49(6):1845-52. · 4.06 Impact Factor
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ABSTRACT: The naturally occurring analogs of neurotensin-(8-13), xenopsin, [Lys8,Asn9]neurotensin-(8-13) (LANT-6) and neuromedin N stimulated the production of intracellular cyclic GMP in murine neuroblastoma clone N1E-115, an adrenergic neuronal cell type. The order of potency was neurotensin-(8-13) greater than neurotensin greater than xenopsin greater than neuromedin N greater than LANT-6. Furthermore, xenopsin, LANT-6 and neuromedin N each inhibited the specific binding of [3H]neurotensin to intact N1E-115 cells in a dose-related fashion. The order of affinity of the peptides for the neurotensin receptor was neurotensin-(8-13) greater than xenopsin greater than neurotensin greater than neuromedin N greater than LANT-6.
European Journal of Pharmacology 11/1986; 129(3):379-83. · 2.52 Impact Factor
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ABSTRACT: The receptors which mediate neurotensin-stimulated intracellular cyclic GMP formation in murine neuroblastoma clone N1E-115 [J. A. Gilbert and E. Richelson, Eur. J. Pharmac. 99, 245 (1984)] were further characterized. The binding of [3H]neurotensin to intact N1E-115 cells at 0 degree displayed specificity, saturability, reversibility, and tissue linearity. A single class of neurotensin receptors was demonstrated with an apparent KD of 9-11 nM and a Bmax of 180-250 fmoles/10(6) cells, determined by the type of serum employed in the cellular culture medium. A number of neurotensin analogs and fragments were compared for their ability to inhibit [3H]neurotensin binding and stimulate intracellular cyclic GMP formation with intact N1E-115 cells. A direct correlation was found to exist between the KD and EC50 for each peptide. The carboxyl-terminal portion of neurotensin proved to be responsible for the binding and biochemical activities of this peptide with clone N1E-115. Neurotensin(8-13) was, in fact, fifty times more potent than native neurotensin in stimulating intracellular cyclic GMP formation and had an 18-fold higher affinity for the neurotensin receptor on this neuronal cell type.
Biochemical Pharmacology 03/1986; 35(3):391-7. · 4.70 Impact Factor
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ABSTRACT: Synthesis of methionine5-enkephalin by intact cells of murine neuroblastoma clone N1E-115 has been demonstrated both immunocytochemically and biochemically. In addition, N1E-115 cells possess homogeneous enkephalin (delta) receptors which inhibit prostaglandin E1-induced intracellular cyclic AMP formation. An assay was developed for measuring de novo synthesis of methionine5-enkephalin by pulsing cells in culture with radioactive methionine and isolating this pentapeptide to radiochemical purity by a procedure that included immunoaffinity chromatography specific for oxidized methionine5-enkephalin. This assay indicated that production of radiolabeled-methionine5-enkephalin was increased upon lengthy exposure of intact N1E-115 cells in the late logarithmic phase of growth to a nonproteolyzable analog of methionine5-enkephalin. This increase in synthesis of intracellular methionine5-enkephalin relative to control cells was prevented by prior incubation of the clone with naloxone, indicating that the response was mediated by the delta receptor.
Journal of Neurochemistry 04/1985; 44(3):922-8. · 4.06 Impact Factor
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Biochemical Pharmacology 09/1984; 33(15):2527-30. · 4.70 Impact Factor
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European Journal of Pharmacology 04/1984; 99(2-3):245-6. · 2.52 Impact Factor
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ABSTRACT: A homogeneous class of enkephalin receptors found in murine neuroblastoma clone N1E-115 (Chang, K.-J., and Cuatrecasas, P. (1979) J. Biol. Chem. 254, 2610-2618) has been confirmed using a centrifugation assay employing cellular membranes. In intact N1E-115 cells, synthetic methionine5-enkephalin inhibited prostaglandin E1-induced intracellular cyclic AMP formation in a naloxone-sensitive manner. Upon demonstrating intracellular methionine5-enkephalin immunocytochemically (Knodel, E., and Richelson, E. (1980) Brain Res. 197, 565-570), analyses of crude N1E-115 extract were made by radioimmunoassay or opiate receptor binding assay following fractionation by molecular sieve chromatography and high pressure liquid chromatography on a mu-Bondapak C18 column. Extracted methionine5-enkephalin immunoreactive material behaved similarly to synthetic methionie5-enkephalin in these analyses. Growth curve studies of the N1E-115 cells indicated that the quantity of methionine5-enkephalin immunoreactive material synthesized per milligram of cellular protein and the maximum number of enkephalin receptor sites per milligram of membrane protein increased as the cells progressed from logarithmic to stationary phase, with no change in the apparent affinity of the enkephalin receptors for [3H]methionine5-enkephalin. These data suggest that adrenergic clone N1E-115 has functional methionine5-enkephalin membrane receptors, that this clone synthesizes methionine5-enkephalin, and that both the enkephalin receptor number and the content of stored methionine5-enkephalin are regulated with respect to cell division.
Journal of Biological Chemistry 03/1982; 257(3):1274-81. · 4.77 Impact Factor
