Morphological and biochemical changes in supersensitive smooth muscle.

The effect of postganglionic denervation on the incidence of nexal contacts in the smooth muscle of the rat vas deferens was investigated. The chronically denervated tissue exhibited twice as many nexuses as control. This increase in the incidence of cell contacts may contribute to the supersensitivity and/or the increase in maximum response of the denervated vas deferens. The effects of denervation, decentralization, and pretreatment with reserpine on the concentration of adenosine triphosphate (ATP) in vasa deferentia of rats and guinea pigs were also investigated. One day after denervation there was a substantial decrease in the endogenous norepinephrine and ATP concentrations. The norepinephrine concentration remained low (less than 10% of control) throughout subsequent days (up to 14 days) whereas the ATP concentration, after the first postoperative day, rose significantly. The rise in ATP concentration was temporally correlated with the development of postjunctional supersensitivity. Decentralization and pretreatment with reserpine both resulted in a significant increase in ATP concentration which preceded by 2 to 3 days a significant increase in sensitivity of the vas deferens. It appears that a change in the tissue concentration of ATP may be one of the initial events that occurs following interruption of the neural contact to the smooth muscle of the vas deferens.     

NORADRENALINE METABOLIZING ENZYMES IN NORMAL AND SYMPATHETICALLY DENERVATED VAS DEFERENS

—A surgical technique for sympathetically denervating the vas deferens has been evaluated biochemically. A slight fall in soluble muscle protein content and no significant change in DNA content of the operated vas deferens were found. This indicates that the surgical procedure causes only a slight degree of tissue damage and may be useful for investigating the cellular localization and properties of noradrenaline metabolizing enzymes. In three species examined (rat, guinea pig and rabbit), monoamine oxidase activity of the vas deferens fell by approximately 50 per cent after denervation. The time course of the fall in monoamine oxidase activity of rat vas deferens was parallel to that of the disappearance of noradrenaline suggesting that this proportion of the total enzyme activity had a neuronal localization. The remaining enzyme activity is presumably located extraneuronally. Significant falls in catechol-O-methyl transferase activity were found in rat and rabbit vas deferens after denervation but not in guinea pig. The rabbit and rat vas deferens had respectively approximately 60 and 30 per cent of the catechol-O-methyl transferase activity associated with the sympathetic nerves. A complete loss of DOPA decarboxylase and tyrosine hydroxylase activities occurred in rat vas deferens after denervation, suggesting that these noradrenaline synthesizing enzymes have an entirely neuronal localization.     

The effects of adenosine and adenine nucleotides on the guinea-pig vas deferens: evidence for existence of purinergic receptors.

The effect of adenosine 5′-triphosphate (ATP) and its congeners on the alpha-adrenergic neuroeffector transmission in the isolated vas deferens of the guinea pig was evaluated. Both intracellular activity and contractile response of the smooth muscle of the vas deferens were recorded by using the sucrose-gap method. Adenosine, adenosine diphosphate (ADP) and adenosine monophosphate (AMP) influenced alpha-adrenergic receptor-mediated excitatory responses by depolarizing the cell membrane potential. ATP, on the other hand, produced action potentials rather than sustained depolarization, and its activity was blocked by theophylline and 2, 2′-pyridylisatogen, an ATP antagonist, but not blocked by either phentolamine or phenoxybenzamine, which inhibit alpha-adrenoreceptor responsiveness caused by norepinephrine or phenylephrine. Furthermore, dipyridamole, an adenosine uptake blocker, potentiated both ATP and adenosine activities. These findings indicate that adenosine and adenine nucleotides may exert their action at an extracellular site. From these results, it may be speculated that alpha adrenoreceptors and purinergic receptors do indeed exist on the smooth muscle of the vas deferens.     

Differential contractile response of normal vas deferens of rodents in correlation to their calcium and electrolyte levels

The contractile pattern of the vas deferens in three different rodents, rat, guinea pig and mouse was studied in response to adrenaline and noradrenaline. The left vas deferens of rat was more responsive to the graded doses of adrenaline and noradrenaline than the right. The same was also true for guinea pig and mouse vas deferens. This differential response has been correlated with the greater concentrations of calcium and sodium in the right vas deferens in rats and guinea pigs and it might also be related to the levels of membrane-bound and intracellular calmodulin-bound calcium. It is suggested that the left vas deferens might possess more calmodulin-bound calcium than the right, which might have instead, more membrane-bound calcium.     

Beta-endorphin. Biological activity of analogs containing dermorphin and dynorphin sequences: ileum and vas deferens assays

Biological activity of synthetic beta-endorphin (beta-EP) analogs containing dermorphin or dynorphin-A-(1-13) structure has been investigated using the guinea pig ileum and the vas deferens of the mouse, rat and rabbit. Replacement of NH2-terminal 1-7 segment of camel beta-EP [beta c-EP-(1-7)] with dermorphin caused a great increase in opiate potency of the analog. [Dermorphin (1-7)]-beta c-EP was 120 times more potent than beta c-EP in the guinea pig ileum assay, 49 times more potent in the mouse vas deferens assay; and only 4 times more potent in the rat vas deferens assay. Replacement of NH2-terminal 1-13 segment of human beta-EP [beta h-EP-(1-13)] with dynorphin-A-(1-13) caused an increase in opiate potency in both the guinea pig ileum and rabbit vas deferens assays, a complete loss of potency in the rat vas deferens assay, and no change in the mouse vas deferens assay. In comparison with dynorphin-A-(1-13), the hybrid peptide was less potent in the guinea pig ileum assay as well as in mouse and rabbit vas deferens assay. It is suggested that beta c-EP-(8-31) facilitates the dermorphin moiety to act on opiate mu and delta receptors but not on the epsilon receptor, while beta h-(14-31) reduces the action of dynorphin on mu, delta and kappa receptors.     

Alpha-adrenergic receptor blocking effect of Cleistanthus collinus (Roxb.) Benth. and Hook f. leaf extract on guinea pig isolated smooth muscle preparations

Aqueous extract of C. collinus leaves inhibited norepinephrine induced contraction in guinea pig vas deferens and aortic strip in a dose-dependent manner. Inhibition of acetylcholine induced contraction in ileum was dose independent. C. collinus extract per se had no effect on isolated guinea pig vas deferens and aortic strip, but inhibited norepinephrine induced contraction in a dose-dependent manner probably by its antagonist action on alpha-adrenergic receptor. It had inconsistent effect on guinea pig ileum in vitro preparation.     

Beta-endorphin: peripheral opioid activity of homologues from six species

The peripheral opioid activity of six homologous beta-endorphins (beta-EPs) were assayed on the guinea pig ileum and the vas deferens of the mouse, the rat and the rabbit. In the guinea pig ileum assay, human beta-EP (beta h-EP) was less potent than camel, turkey, and ostrich beta-EPs, of the same potency as equine beta-EP and more active than des-acetyl salmon beta-EP. In the rat vas deferens, mammalian beta-EPs showed higher activity than those from the bird and the fish, whereas in the mouse vas deferens assay, beta h-EP is more active than those from other species. In the rabbit vas deferens, however, all homologous beta-EPs show very weak activity. The relative potency of beta-EP homologues obtained from rat vas deferens assay is in good correlation with the analgesic potency, while the receptor binding activity does not correlate with any of the four bioassays, but appears to be related to the charge properties of the peptides.     

Changes in resting membrane potential induced by active sensitization in the guinea-pig vas deferens

Smooth muscles hyperresponsiveness is a common feature in anaphylaxis and allergic diseases. The aim of the present work was to investigate whether the enhanced reactivity of sensitized guinea-pig vas deferens was associated with changes in the resting membrane potential (Er) of the smooth muscle cells. Active sensitization was performed by subcutaneous injection of egg albumen. Er was measured in vitro in isolated vas deferens with conventional KCl-filled microelectrodes. Quantification of [3H]ouabain binding sites, measurements of 86Rb efflux, and measurements of Na and K contents were also performed. In normal physiological solution, at 35 degrees C, Er was a mean of -54.1+/-0.3 mV (mean +/- SEM) in control vas deferens. Sensitization resulted in depolarizing Er by about 7 mV. In control and sensitized preparations, the 3H-ouabain binding site concentration, the efflux of 86Rb, and the K content were similar. In guinea-pig vas deferens, active sensitization induced a partial depolarization of the resting membrane potential of the smooth muscle cells, which did not result from a downregulation of Na+ -K+ pump sites.     

Beta-endorphin. Biological activity of synthetic analogs with analgesia inhibiting property in rat vas deferens and guinea pig ileum assays

Three synthetic analogs of human beta-endorphin (beta h-EP) (I, [Gln8, Gly31]-beta h-EP-Gly-Gly-NH2; II, [Arg9,12,24,28,29]-beta h-EP and III, [Cys11,26, Phe27, Gly31]-beta h-EP), which have been shown to possess potent inhibiting activity to beta h-EP-induced analgesia, were assayed in rat vas deferens and guinea pig ileum bioassay systems. In the rat vas deferens assay, relative potencies of these analogs were beta h-EP, 100; I, 30; II, 40; III, 1, whereas in the guinea pig ileum assay: beta h-EP, 100; I, 184; II, 81; III, 163. From previous studies on their analgesia potency in mice and opiate receptor-binding activity in rat brain membranes, their activity in rat vas deferens correlates well with the analgesic potency and the activity from guinea pig ileum assay shows good correlations with that from the opiate receptor-binding assay.     

Effect of clonidine on the chronic morphine tolerance and on the sensitivity of the smooth muscles in mice

Clonidine, when administered for prolonged period showed no tolerance to its analgesic activity. Prior exposure to clonidine attenuated the tolerance development to morphine-induced analgesia and the supersensitivity to acetylcholine (ACh) in ileum during chronic morphine treatment. Further, acute administration of lower doses of clonidine (upto 1 mg) produced supersensitivity in ileum to ACh while the higher dose (10 mg) induced subsensitivity. In vas deferens, clonidine in all the concentrations tested induced dose and time dependent supersensitivity to norepinephrine (NE) similar to that produced by morphine. Chronic clonidine treatment failed to alter the ACh responses in ileum while it produced supersensitivity to NE in vas deferens. The results suggest that clonidine and morphine possess comparable properties and the antagonism of chronic morphine tolerance by clonidine may be the therapeutic basis for its clinical application in the treatment of opiate addicts.     

Comparative study on the effect of morphine and the opioid-like peptides in the vas deferens of rodents: species and strain differences, evidence for multiple opiate receptors

The effect of an opiate alkaloid and an opioid-like peptide was studied on the electrically evoked twitching of the vas deferens of 3 common laboratory rodents. Normorphine and the synthetic opioid peptide D-Alanine₂ methionine enkephalinamide (D-Ala₂) produced dose dependent inhibitions of the twitching response in the mouse vas deferens. In the rat vas, while β-endorphin (β-EP) caused an inhibitory effect in three strains of rats to a similar degree, morphine produced a dose related enhancement of the twitching. In the guinea pig, both morphine and β-EP caused an increased in the muscular twitch. The results are interpreted in terms of an heterogenous mixture of opiate receptors present in the vas deferens from these rodents. The mouse appears to contain mainly δ receptors while the rat has mostly ε receptors characterized by their specificity and sensitivity to the action of β-EP. The guinea pig vas deferens has apparently lost the sensitivity to the inhibitory influence of the opioids, suggesting the absence of μ or δ opiate receptors in this tissue.     

Synthesis and opioid activity of new fentanyl analogs

Three new fentanyl analogs (compounds 3-4-5) have been synthesized and evaluated for antinociceptive properties using the writhing test. The analgesic property of the active compound, N-[1-phenylpyrazol-3-yl]-N-[1-(2-phenethyl)-4-piperidyl)] propenamide (compound 4), was tested using the hot plate test in mice. Its opioid agonistic activity was characterized using three isolated tissues: guinea pig ileum, mouse vas deferens, and rabbit vas deferens. Compound 4 was as effective as fentanyl or morphine and it showed less antinociceptive potency than fentanyl but it was more potent than morphine. The duration of the antinociception was similar to that of fentanyl. This compound inhibited the electrically evoked contractions of myenteric plexus-longitudinal muscle strips of guinea pig ileum and of mouse vas deferens but not those of rabbit vas deferens. These effects could be reversed by micro selective antagonists (naloxone and/or CTOP) but not by the delta selective antagonist naltrindole, thus indicating that the compound acted as a micro opioid agonist. Finally, the binding data confirmed that compound 4 had high affinity and selectivity for the micro-receptor.     

Effects of neuropeptide Y (NPY) at the sympathetic neuroeffector junction. Can pre- and postjunctional receptors be distinguished?

Neuropeptide Y (NPY) is widely distributed in central and peripheral neurons. In sympathetic postganglionic neurons, NPY coexists with noradrenaline. NPY and its structural relative peptide YY (PYY) appear to exert three principally different effects at the sympathetic neuroeffector junction. Firstly, NPY has a direct postjunctional effect; this effect is manifested as a vasoconstriction when studied on the guinea pig iliac vein. Secondly, NPY has an indirect postjunctional effect in that it potentiates the response to various vasoconstrictors; this was studied on the rabbit femoral artery and vein, using noradrenaline and histamine, respectively, as vasoconstrictors. Thirdly, NPY acts prejunctionally in that it suppresses the release of noradrenaline from sympathetic nerve terminals; this was studied in the rat vas deferens. The aim of the investigation was to examine whether the three effects of NPY were mediated by the same type of receptor. For this purpose, we examined the effects of a series of NPY-related peptides, namely NPY, PYY, desamido-NPY, and five C-terminal fragments (NPY 19-36, NPY 24-36, PYY 13-36, PYY 24-36 and PYY 27-36). NPY and PYY were active in all three assay systems. The C-terminal amide appears to be crucial for maintaining the biological activity, since desamido-NPY was inactive in the three test systems. Interestingly, PYY 13-36 was almost as active as NPY and PYY in suppressing the electrically evoked contractions of the vas deferens; PYY 13-36 was inactive in the two other test systems. None of the shorter fragments had any biological activity.(ABSTRACT TRUNCATED AT 250 WORDS)     

Some pharmacological effects of prodolic acid, a new anti-inflammatory compound, indicative of inhibition of prostaglandin synthesis.

Prodolic acid, a new non-steroidal anti-inflammatory compound, inhibited bradykinin-induced bronchoconstriction but did not affect histamine-induced bronchoconstriction in the guinea pig. Prodolic acid potentiated the responses of the isolated rabbit vas deferens and portal vein to electrical stimulation without altering the response to noradrenaline. The potentiating effects of prodolic acid on the vas deferens were reversible but the potentiating effects in the portal vein were frequency-dependent. It is concluded that these effects of prodolic acid are probably related to its ability to inhibit prostaglandin biosynthesis.     

Carbonic anhydrase--marker of cell type in cell culture of the guinea pig vas deferens]

Polyclonal antibodies (PCAB) to smooth muscle myosin (SMM), monoclonal antibodies (MCAB) to cytokeratin 8 (clon HI, IgGI) and H4 (IgM), as well as PCAB to carbonic anhydrase III were used for identification of the cell types in the vas deferens cell culture of guinea pig. Smooth muscle cells (SMC) are identified by intensive staining of PCAB to SMM. Fibroblast-like cells (FBL) are determined by the presence of the filament finest network, apparently responding to the myosin non-muscular forms, which are present in PCAB to SMM. The epithelial cells are stained by MCAB to cytokeratins. PCAB to carbonic anhydrase III interact with all three cell types. In the majority of SMC the enzyme is detected as solitary stripes, though there are diffuse ones across the whole cytoplasms, the nucleus remains clearly visible. Carbonic anhydrase III in epithelial cells is detected only in nucleoli and along nucleus membrane while in FBL--in nucleoli and cytoplasm as focal granulation. PCAB to carbonic anhydrase III may serve as a universal marker for identification of cell type in the guinea pig vas deferens cell culture.     

A pituitary endorphin with novel properties.

We describe the further purification of an opioid peptide from a porcine pituitary concentrate. The peptide has typical naloxone-reversible opioid activity in the guinea pig ileum myenteric-plexus preparation and mouse vas deferens, and it inhibits stereospecific binding at opiate receptors. It is distinguished from β-endorphin and the enkephalins by its apparent molecular weight, its slow reversal with washing in the guinea pig ileum preparation, and the resistance of its biologic activity to cyanogen bromide treatment. In beef pituitary, slow-reversing, cyanogen bromide resistant activity is found principally in neurointermediate lobe.     

A peptide-like substance from pituitary that acts like morphine. 2. Purification and properties.

We have demonstrated the existence of a peptide-like opioid in bovine and porcine pituitary, and determined some of its properties. It is an opioid agonist on the guinea pig myenteric plexus-longitudinal muscle preparation, and on the mouse vas deferens, and it binds to opiate receptors in homogenates of guinea pig brain. Its physiologic role and its possible presence in hypothalamic or other brain regions remain to be determined.     

Affinity profile of the novel muscarinic antagonist, guanylpirenzepine

The study reports the functional affinity of an amidino derivative of pirenzepine, guanylpirenzepine, for muscarinic receptors mediating relaxation of rat duodenum, inhibition of rabbit vas deferens twitch contraction (both receptors previously classified as M1), guinea pig negative inotropism (M2) and ileal contraction (M3). Unlike pirenzepine, guanylpirenzepine discriminated between duodenum and vas deferens receptors, with a 30-fold greater affinity for the former subtype. The unique selectivity pattern of guanylpirenzepine (duodenum greater than vas deferens greater than ileum greater than atrium) renders it a promising tool for the classification of muscarinic receptor subtypes.     

Effect of withdrawal from chronic ethanol ingestion on the cAMP response of cerebral cortical slices using the agonists histamine, serotonin, and other neurotransmitters.

The effect of ethanol withdrawal on the cAMP response of cerebral cortical brain slices was studied. The cAMP response was evoked in vitro by various neurotransmitters including norepinephrine (NE), histamine, serotonin, dopamine, acetylcholine, and gamma-aminobutyric acid (GABA). The cAMP response to NE and histamine was enhanced by ethanol withdrawal. Serotonin evoked a cAMP response in the brain slices from ethanol-withdrawal rats but not in pair-fed controls. The histamine and serotonin evoked responses were blocked by chlortripolon and methysergide, respectively. The responses to histamine and serotonin were also blocked by alpha- and beta-adrenergic antagonists, possibly because of the nonspecific membrane stablizing effect of these antagonists. GABA inhibited the NE stimulated cAMP response possibly through the hyperpolarizing action of GABA. The results support the hypothesis that ethanol withdrawal induces a nonspecific postjunctional supersensitivity. It is postulated that the supersensitivity involves a partial depolarization of the receptor membrane. Alternative hypotheses are reviewed.     

Somatostatin inhibits adrenergic and cholinergic neurotransmission in smooth muscle.

Somatostatin reduced the response to field stimulation in the guinea pig ileum and reduced the spontaneous contractions in the rabbit jejunum, an effect that was blocked by tetrodotoxin. Somatostatin also inhibited field stimulated alpha adrenergic contractions in the rat vas deferens and rabbit ear artery. However, the responses to direct application of either acetylcholine in the ileum or to norepinephrine in the ear artery or vas deferens were not affected by somatostatin. These results strongly suggest that somatostatin inhibits neuronal release of cholinergic and adrenergic transmitter substances in smooth muscle.