Opiate receptor binding studies in the mouse vas deferens exhibiting tolerance without dependence

[1]  E. J. Simon,et al.  The opiate receptors , 1976, Neurochemical Research.

[2]  S. Blanchard,et al.  Opioid peptides induce reduction of enkephalin receptors in cultured neuroblastoma cells , 1982, Nature.

[3]  R. Schulz,et al.  Functional opiate receptors in the guinea-pig ileum: their differentiation by means of selective tolerance development. , 1981, The Journal of pharmacology and experimental therapeutics.

[4]  R. Schulz,et al.  The preference of putative pro-enkephalins for different types of opiate receptors. , 1981, Life sciences.

[5]  R. Schulz,et al.  Multiple opiate receptors in peripheral tissue preparations. , 1981, Biochemical pharmacology.

[6]  P. Cuatrecasas,et al.  Interactions of ligands with morphine and enkephalin receptors are differentially affected by guanine nucleotide. , 1981, Molecular pharmacology.

[7]  R. Schulz,et al.  Lack of cross-tolerance on multiple opiate receptors in the mouse vas deferens. , 1980, Molecular pharmacology.

[8]  R. Schulz,et al.  Selective development of tolerance without dependence in multiple opiate receptors of mouse vas deferens , 1980, Nature.

[9]  E. Way,et al.  Metal ion interactions with opiates. , 1980, Annual review of pharmacology and toxicology.

[10]  R. Zukin,et al.  Guanyl nucleotide interactions with opiate receptors in guinea pig brain and ileum , 1980, Brain Research.

[11]  S. Snyder,et al.  Differential Regulation by Guanine Nucleotides of Opiate Agonist and Antagonist Receptor Interactions , 1980, Journal of neurochemistry.

[12]  R. North,et al.  THE EFFECT OF CHRONIC MORPHINE TREATMENT ON EXCITATORY JUNCTION POTENTIALS IN THE MOUSE VAS DEFERENS , 1980, British journal of pharmacology.

[13]  H. Collier,et al.  Cellular site of opiate dependence , 1980, Nature.

[14]  R. Schulz,et al.  DEVELOPMENT OF OPIATE TOLERANCE/DEPENDENCE IN THE GUINEA-PIG MYENTERIC PLEXUS AND THE MOUSE VAS DEFERENS , 1980 .

[15]  T. Akera,et al.  Reduction of opiate binding to brainstem slices associated with the development of tolerance to morphine in rats. , 1979, The Journal of pharmacology and experimental therapeutics.

[16]  H. Kosterlitz,et al.  THE INHIBITORY EFFECTS OF PRESYNAPTIC α‐ADRENOCEPTOR AGONISTS ON CONTRACTIONS OF GUINEA‐PIG ILEUM AND MOUSE VAS DEFERENS IN THE MORPHINE‐DEPENDENT AND WITHDRAWN STATES PRODUCED in vitro , 1979, British journal of pharmacology.

[17]  F. Leslie,et al.  Comparison of binding of [3H]-methionine-enkephalin, [3H]-naltrexone and [3H]-dihydromorphine in the mouse vas deferens and the myenteric plexus and brain of the ginea pig. , 1979, European journal of pharmacology.

[18]  A. Levitzki,et al.  Hormone‐receptor‐adenylate cyclase interactions , 1979, FEBS letters.

[19]  R. North,et al.  INHIBITION OF NEURONAL FIRING BY OPIATES: EVIDENCE AGAINST THE INVOLVEMENT OF CYCLIC NUCLEOTIDES , 1979, British journal of pharmacology.

[20]  T. K. Harden,et al.  Isoproterenol-induced desensitization of adenylate cyclase in human astrocytoma cells. Relation of loss of hormonal responsiveness and decrement in beta-adrenergic receptors. , 1979, The Journal of biological chemistry.

[21]  T. K. Harden,et al.  Catecholamine-induced desensitization involves an uncoupling of beta-adrenergic receptors and adenylate cyclase. , 1979, Journal of cyclic nucleotide research.

[22]  A. Blume Interaction of ligands with the opiate receptors of brain membranes: regulation by ions and nucleotides. , 1978, Proceedings of the National Academy of Sciences of the United States of America.

[23]  A. Levitzki,et al.  The absence of desensitization in the beta adrenergic receptors of turkey reticulocytes and erythrocytes and its possible origin. , 1978, Life sciences.

[24]  B. Cox,et al.  OPIATE BINDING AND EFFECT IN ILEUM PREPARATIONS FROM NORMAL AND MORPHINE PRETREATED GUINEA‐PIGS , 1977, British journal of pharmacology.

[25]  R. Schulz,et al.  Aspects of opiate dependence in the myenteric plexus of the guinea-pig. , 1976, Life sciences.

[26]  H. Kosterlitz,et al.  Opiate receptors , 1976, Nature.

[27]  M. Nirenberg,et al.  Dual regulation of adenylate cyclase accounts for narcotic dependence and tolerance. , 1975, Proceedings of the National Academy of Sciences of the United States of America.

[28]  F. Leslie,et al.  EFFECT OF MORPHINE ON ADRENERGIC TRANSMISSION IN THE MOUSE VAS DEFERENS. ASSESSMENT OF AGONIST AND ANTAGONIST POTENCIES OF NARCOTIC ANALGESICS , 1975, British journal of pharmacology.

[29]  G. Henderson,et al.  A new example of a morphine‐sensitive neuro‐effector junction: Adrenergic transmission in the mouse vas deferens , 1997, British journal of pharmacology.

[30]  A. Watt,et al.  The effects of adrenaline, noradrenaline and isoprenaline on inhibitory α‐ and β‐adrenoceptors in the longitudinal muscle of the guinea‐pig ileum , 1970, British journal of pharmacology.

[31]  H. Collier,et al.  Supersensitivity and Dependence , 1968, Nature.

[32]  A. Wartburg,et al.  Tritium-labelled cardiac glycosides: digoxin-[12α-3H]1 , 1965 .

[33]  J. Axelrod Possible mechanism of tolerance to narcotic drugs. , 1956, Science.

[34]  E. Schilf Das autonome Nervensystem , 1927 .