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.     

OCCURRENCE AND PROPERTIES OF CATECHOL-O-METHYL TRANSFERASE IN ADRENERGIC NEURONS

—A study has been made of the catechol-O-methyl transferase activity of some peripheral tissues after sympathetic denervation. A fall in catechol-O-methyl transferase activity was found in some organs, e.g. rat and rabbit vas deferens, cat nictitating membrane and rabbit submaxillary gland but not in mouse heart and spleen. It was found that suboptimal concentrations of S-adenosylmethionine did not reveal a significant difference between normal and denervated organs but at optimal concentrations a fall was seen in some organs. Catechol-O-methyl transferase activity was present in bovine splenic nerve and in adrenal medulla. It is suggested that the fall in enzyme activity after denervation indicates a neuronal cellular localization. A kinetic study of catechol-O-methyl transferase from normal and denervated rat vas deferens suggested that the neuronal and extraneuronal catechol-O-methyl transferase had different kinetic properties and an estimation of the kinetic constants of the neuronal enzyme was made.     

m-Octopamine: Normal Occurrence with p-Octopamine in Mammalian Sympathetic Nerves

The development of a radiochemical enzyme assay for p-octopamine in 1969 led to its identification in a large number of invertebrate nerve systems and in mammalian sympathetic nerves. The original method by which p-octopamine was measured has now been found to be nonspecific; however, modifications of this procedure can determine both m- and p-octopamine. We recently developed a new specific method for the unequivocal identification and quantitative determination in tissue of the six octopamine and synephrine isomers. With this method--negative chemical ionization gas chromatography-mass spectrometry--the more physiologically active m-octopamine has been found in association with p-octopamine in 10 organs of the rat. m-Octopamine is present in concentrations equal to those of p-octopamine in heart, spleen, and liver and in concentrations from 30 to 60% of p-octopamine in adrenals, vas deferens, brain, kidney, large intestine, bladder, and lungs. In vivo inhibition of monoamine oxidase markedly increased the concentrations of both m- and p-octopamine in all organs examined. Both amines were virtually absent from all organs except the adrenals following chemical sympathectomy with 6-hydroxydopamine, thereby establishing that m- and p-octopamine are localized within sympathetic nerve endings.     

Effects of calcium-removal and sodium-potassium adenosine triphosphatase inhibition on the release of epinephrine from the extraneuronal site.

Releases of unchanged epinephrine from the extraneuronal site of the isolated guinea-pig vas deferens were fluorimetrically determined by direct trihydroxyindole reaction at two different pH. The spontaneous release of the amine from the normal preparation preloaded with 3 x 10^?5 M epinephrine was significantly enhanced by inhibitions of Na-K ATPase or by Ca-removal. After epinephrine loading, the release of the amine from the preparation pretreated with pargyline and pyrogallol or from the denervated preparation was also enhanced by the both procedures. These enhanced releases of the amine were prevented by pretreatment of clonidine, Uptake 2 inhibitor, preceded the epinephrine loading. From these results, it was suspected that the retention or the release of the extraneuronal catecholamine in the vas deferens might be partly modified through the alteration of the Na-K ATPase activity and Ca concentration of the cell membrane.     

Differential Effects of Chemical Sympathectomy on Expression and Activity of Tyrosine Hydroxylase and Levels of Catecholamines and DOPA in Peripheral Tissues of Rats

Tyrosine hydroxylase (TH) mRNA and activity and concentrations of 3,4-dihydroxyphenylalanine (DOPA) and catecholamines were examined as markers of sympathetic innervation and catecholamine synthesis in peripheral tissues of sympathectomized and intact rats. Chemical sympathectomy with 6-hydroxydopamine (6-OHDA) markedly decreased norepinephrine and to a generally lesser extent TH activities and dopamine in most peripheral tissues (stomach, lung, testis, duodenum, pancreas, salivary gland, spleen, heart, kidney, thymus). Superior cervical ganglia, adrenals and descending aorta were unaffected and vas deferens showed a large 92% decrease in norepinephrine, but only a small 38% decrease in TH activity after 6-OHDA. Presence of chromaffin cells or neuronal cell bodies in these latter tissues, indicated by consistent expression of TH mRNA, explained the relative resistance of these tissues to 6-OHDA. Stomach also showed consistent expression of TH mRNA before, but not after 6-OHDA, suggesting that catecholamine synthesizing cells in gastric tissue are sensitive to the toxic effects of 6-OHDA. Tissue concentrations of DOPA were mainly unaffected by 6-OHDA, indicating that much of the DOPA in peripheral tissues is synthesized independently of local TH or sympathetic innervation. The differential effects of chemical sympathectomy on tissue catecholamines, DOPA, TH mRNA and TH activity demonstrate that these variables are not simple markers of sympathetic innervation or catecholamine synthesis. Other factors, including presence of neuronal cell bodies, parenchymal chromaffin cells, non-neuronal sites of catecholamine synthesis and alternative sources of tissue DOPA, must also be considered when tissue catecholamines, DOPA and TH are examined as markers of sympathetic innervation and local catecholamine synthesis.     

Enzymes Related to Monoamine Transmitter Metabolism in Brain Microvessels

The activities of tyrosine hydroxylase, aromatic L-aminoacid decarboxylase, monoamine oxidase, and catechol-O-methyltransferase were measured in microvessel (capillaries and venules), parenchymal arterioles, and pial vessels from rat brains, and the decarboxylase activity was compared in brain microvessels from rabbit, cat, dog, pig, cow, baboon, and man. Cranial sympathectomy was performed to estimate the neuronal contribution to the enzyme activities. All vascular regions had substantial activities of the various enzymes studied. The activity of aromatic L-aminoacid decarboxylase in cerebral microvessels was high in rat, dog, pig, cow, and man; intermediate in rabbit and cat; and low in baboon. In addition to this enzyme, cerebral microvessels also contained tyrosine hydroxylase and monoamine oxidase. Aromatic aminoacid decarboxylase and monoamine oxidase serve an enzymatic barrier function at the microvascular level, whereas the main function of tyrosine hydroxylase is probably to synthesize monoamines within nerve terminals that remain in close association with microvessels under the conditions used for preparation of the microvascular fraction. In larger intracerebral and pial vessels monoamine oxidase was present both in the wall itself and in perivascular sympathetic nerves; the remaining two enzymes had a primarily neuronal localization. The latter types of vessels also contained catechol-O-methyltransferase in their walls.     

An endogenous brain substance, CDS (clonidine-displacing-substance), inhibits the twitch response of rat vas deferens

The effect of CDS, an endogenous brain substance that specifically displaces bound [3H]clonidine and [3H]rauwolscine in rat brain membranes and human platelets, has been tested in isolated, field-stimulated rat vas deferens. CDS, obtained after an extensive purification procedure as a single peak from an HPLC sizing column, inhibited the electrically stimulated rat vas deferens similarly to the inhibitory action of clonidine, an alpha 2-agonist. The effective dose of CDS as an inhibitor of the vas deferens is equivalent to its effective dose in displacing specifically bound [3H]-clonidine in rat brain membranes. Furthermore, the CDS inhibition of the twitch response is reversed by two alpha 2-adrenergic antagonists, yohimbine and phentolamine. From these results, it is suggested that CDS extracted from brain, with affinity for clonidine sites, may be involved in the nonadrenergic fast response of the sympathetic transmission of the vas deferens.     

Specificity of nerve fibre 'attraction' to autonomic effector organs in tissue culture.

Explants of atrium, vas deferens and lung from 5-day-old rats were grown between, and 1–2 mm from, a row each of sympathetic ganglia and spinal cord explants. After 5 days the amount of sympathetic nerve fibre growth in cultures with atrium or vas deferens (but not lung) was greater than in controls and directed towards the tissues. In contrast, in cultures with atrium, vas deferens and lung, the direction and amount of nerve growth from spinal cord explants was not significantly different from controls. Further, when sympathetic ganglia were grown between, and 1–2 mm from, a row each of atrium and ventricle explants, the total amount of nerve growth was increased and directed mainly towards the atrium. The results are discussed in relation to the hypothesis that normally densely innervated autonomic effector organs contain higher levels of Nerve Growth Factor than tissues which become more sparsely innervated, and that this allows nerve fibres from sympathetic ganglia (but not NGF-insensitive spinal cord) to distinguish between different tissues from a distance.     

Changes of norepinephrine levels, tyrosine hydroxylase and dopamine-beta-hydroxylase activities after castration and testosterone treatment in vas deferens of adult rats

Norepinephrine levels and tyrosine hydroxylase and dopamine-beta-hydroxylase activities have been used to evaluate the effect of castration and testosterone treatment on the sympathetic innervation of the adult vas deferens. Castration was followed by a decrease in both norepinephrine content and tyrosine hydroxylase activity, even though the changes were not concomitant. Treatment of castrated animals with testosterone reversed the effect of castration on organ weight and norepinephrine content, but only a short-lasting increase in tyrosine hydroxylase activity occurred at the beginning of testosterone treatment. In contrast, the testosterone-induced recovery of norepinephrine content observed at this time was accompanied by a marked increase in dopamine-beta-hydroxylase activity. The results suggest that in rat vas deferens, norepinephrine levels are under androgenic control and that this regulation mainly involves changes in dopamine-beta-hydroxylase activity rather than a modulation of tyrosine hydroxylase.     

Surgical and pharmacological reductions in sympathetic nerve activity increase the neuropeptide Y-immunoreactivity content of the rat iris but not the vas deferens

Decentralization of the superior cervical ganglion (S.C.G.) of the rat elevated the neuropeptide-Y immunoreactivity (NPY-ir) content of the ganglion on day 1 (+43%) but not on day 3 post-surgery. The content of NPY-ir in the iris was increased by decentralization (+40%) 3 days post-surgery, and treatment with clonidine (+43%), and pempidine (+82%). The levels of NPY-ir in the rat vas deferens were not affected by either surgical or pharmacological treatment. These results suggest NPY is released from sympathetic nerves in the iris but not vas deferens during normal sympathetic activity.     

Interaction of xylamine with peripheral sympathetic neurons

Xylamine (XYL) administered to intact rats caused a 70-80% reduction in norepinephrine (NE) uptake by the vas deferens but had little or no effect on NE content in that tissue. The vas deferens accumulates 3H-XYL in vitro by a desmethylimipramine (DMI)-sensitive mechanism. Vasa deferentia from 6-hydroxydopamine (6OHDA) pretreated animals exhibited a 80% reduction in both NE content and XYL uptake activity. These results indicate that XYL is taken up by sympathetic nerve terminals and can reduce NE uptake activity without depleting terminals of neurotransmitter.     

Trophic influences of sympathetic nerves and cyclic AMP on differentiation and proliferation of isolated smooth muscle cells in culture

Smooth muscle cells of the newborn guinea-pig vas deferens dispersed into single cells and grown in culture maintain their differentiation for approximately 5 days before undergoing dedifferentiation and mitosis. The presence of sympathetic nerve fibres in contact with the isolated cells delays this process by 3-7 days (Chamley et al., 1974). A similar delay in dedifferentiation of vas deferens smooth muscle cells in tissue culture in the presence of sympathetic ganglion extract is described in the present report, demonstrating that the trophic effect is elicited by a chemical substance. This effect is mimicked by the presence of either a confluent layer of RKA epithelial cells, dibutyryl cyclic AMP or theophylline. A similar, but considerably weaker, effect is also obtained with spinal cord and liver extracts and noradrenaline. Acetylcholine does not show an effect. It is suggested that a trophic substance (probably not noradrenaline) from sympathetic neurons activates the adenyl cyclase system of smooth muscle cells to increase the intracellular level of cyclic AMP which in turn promotes and maintains the differentiation of the cultured smooth muscle cells.     

Influence of nonakhlazin on adrenergic neurotransmission in the vas deferens of rats]

The effect of a new antianginal drug--nonachlazine on the adrenergic neurotransmission in the isolated rat vas deferens was studied by examining the vas deferens contractions in response to the transmural electric stimulation of the postganglionic sympathetic nerves and addition of noradrenaline (NA) or BaCl2. After the nonachlazine treatment the NA content in the vas deferens was also studied by the spectrofluorometric method. Besides, the effect of the drug on the uptake of the exogenous NA was investigated. Nonachlazine was found to possess some sympatholytic and spasmolytic effect and could block the uptake of the exogenous NA greatly.     

Effect of efferentiectomy on enzymes of glycolytic pathway, HMP pathway and TCA cycle in epididymis and vas deferens of rhesus monkey.

The importance of exocrine secretions of testis in the regulation of energy metabolism of the epididymis and vas deferens was examined in rhesus monkeys by performing efferentiectomy. At autopsy the epididymis was divided into initial segment, caput, corpus and cauda portions to make an account of regional differences, if any. Eleven enzymes of glycolysis, two key enzymes of HMP pathway and seven enzymes of TCA cycle were assayed in the epididymal segments and vas deferens of control (intact) and experimental (efferentiectomised for 90 days) monkeys. The results indicate that while anaerobic energy metabolism (glycolysis and HMP pathway) is sensitive to efferentiectomy chiefly in the proximal regions of epididymis, the oxidative pathway (TCA cycle) is dependent on testicular exocrine secretions throughout the length of epididymis, as well as in the vas deferens. Since all androgen-sensitive enzymes do not regress after efferentiectomy, it is suggested that unidentified exocrine factors of testis may have role in regulating energy metabolism in the epididymis and vas deferens.     

Failure to demonstrate serotonergic neurons in the myenteric plexus of the rat

Summary Several recent studies suggested that serotonergic neuron-like elements are present in the guinea pig ileum. The present paper reports an extensive study of the digestive tract of the rat with the use of a histofluorescence technique. Administration of the serotonin precursor, tryptophan, associated with a monoamine oxidase inhibitor, did not allow histochemical demonstration of rapidly fading, yellow fluorescent, 6-hydroxydopamine-resistant neurons; conversely such neurons were readily detected in the brain. It is concluded that serotonergic neuron-like elements cannot be detected histochemically in the rat myenteric plexus area after chemical sympathectomy.     

Bradykinin modulates the release of noradrenaline from vas deferens nerve terminals

To asses whether bradykinin influences the release of noradrenaline from the adrenergic varicosities of the vas deferens, tissues were loaded with 3H-noradrenaline. Upon electrical depolarization bradykinin increased in a concentration-dependent fashion, the overflow of tritium from the mouse or rat vas deferens. The 3H-overflow is dependent on the external Ca2+concentration suggesting neuronal release of 3H-noradrenaline. The present results add evidence to the hypothesis that bradykinin modulates the release of noradrenaline from peripheral sympathetic nerve terminals via the activation of a presynaptic mechanism.     

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.     

Long-term treatment with fluoxetine associates with peripheral effects on rat vas deferens contractility

The aim of this work was to study whether long-term treatment with fluoxetine could induce peripheral effects by modifying vas deferens contractile activity. For this purpose the contractile response to NE, and 5-HT of vas deferens isolated from male Wistar rats that received fluoxetine 10 mg/kg/day i.p., during 21 days, was studied using the isolated organ bath technique. Results show that vas deferens of treated rats presented spontaneous activity, an effect that was abolished by prazosin and isoproterenol and that was not affected by nitroprusside or indomethacin. In addition, fluoxetine did not modify the response to calcium suggesting that spontaneous activity was not a consequence of an abnormal calcium movement. Fluoxetine induced a significant increase in the response of vas deferens to 5-HT and to low NE concentrations while NE maximal effect was unaffected. Fluoxetine treatment did not modify the binding parameters of [3H]-prazosin to vas deferens. It is concluded that long-term treatment with fluoxetine modifies vas deferens contractile activity. This effect could be the result of an alteration of adrenergic neurotransmission and could account for some of the untoward effects observed during clinical course with fluoxetine.     

Pharmacological responses by different portions of guinea pig vas deferens circular muscle preparation

The different segments of the guinea pig vas deferens circular muscle exhibit differential response patterns upon pharmacological stimulation. Namely, apart from barium chloride, the affinity and intrinsic activity of certain agonists and the strength of maximum contractions they induce appear to decrease along the path from the epididymis toward the prostate. If one subdivides the vas deferens into 3 parts of equal length such as epididymal, medial and prostatic portions, then adrenaline, acetylcholine, acetyl-beta-methylcholine, dopamine, histamine and bradykinin induce contractions on each of the 3 parts; whereas tyramine, ephedrine elicit responses in the epididymal and medial portions; amphetamine, DMPP, serotonin and PGF2 alpha in turn provoking contractions exclusively on the epididymal portion. The effects of adrenaline and noradrenaline are blocked by phentolamine and tolazoline; the responses to acetylcholine, acetyl-beta-methylcholine and carbamyl-beta-methylcholine are antagonized by atropine over a specific concentration range. The effects of tyramine, ephedrine and amphetamine are inhibited by phentolamine in an remarkably low dose range (pA2 = 13.51 +/- 0.09; 14.54 +/- 0.31; 14.35 +/- 0.12). The situation was the same when tyramine-dibenamine and tyramine-phenoxybenzamine combinations were tested (pD'2 = 14.03 +/- 0.37; 13.26 +/- 0.03). Based on these findings the presence of a peculiar alpha adrenergic receptor is suggested on the sympathetic postganglionic fibres. In addition to the already identified alpha adrenergic, muscarinic cholinergic and histamine H1 receptors, we could show the presence of dopaminergic receptors too in the vas deferens circular muscle.     

An analysis of the interactions between sympathetic nerve fibers and smooth muscle cells in tissue culture

The interactions between sympathetic nerve fibers and smooth muscle cells and fibroblasts from the newborn guinea pig vas deferens were studied in tissue culture with phase contrast microscopy, time-lapse microcinematography, catecholamine fluorescence histochemistry and scanning and transmission electron microscopy. The amount of sympathetic nerve fiber growth, its catecholamine fluorescence reaction and the size of the nerve cell bodies and their nuclei all increased in the presence of vas deferens tissue. Specific growth of nerve fibers to large clumps of vas deferens tissue was seen from distances of up to 2 mm. In contrast, no specific growth from a distance occurred to single cells or small groups of cells. However, random contact with a muscle cell often led to close, extensive, and long-lasting associations. Contact with fibroblasts was always transitory.The rate of sympathetic nerve fiber growth over individual muscle cells was faster than over fibroblasts, which, in turn, was faster than over the collagen-coated surface of the coverslip. Palpation of a muscle cell by a nerve fiber growth cone increased the rate of spontaneous contraction of the muscle cell, the extent of the increase being dependent on the number of nerve fibers involved. Multiple innervation of a smooth muscle cell occurred if nerve fibers reached the cell at about the same time, but not if there was a close association already established. These results are discussed in relation to possible interactions of sympathetic nerve fibers with smooth muscle cells in vivo.