Microfluorimetric quantitation of catecholamine fluorescence in rat median eminence. II. Turnover changes in hormonal states.

Catecholamine nerve terminals in the rat median eminence have been studied using the fluorescence histochemical technique of Falck and Hillarp in combination with quantitative microfluorimetry. The catecholamine fluorescence intensities recorded from various parts of the median eminence were all found to be within the linear part of the dopamine or noradrenaline concentration-fluorescence relationship as studied in an agar-albumin model system. The catecholamine fluorescence was also found to disappear with time in an exponential manner following tyrosine hydroxylase inhibition produced by alpha-methyl-p-tyrosine methylester (H44/68). Similar results were obtained when measuring the dopamine decline by mass fragmentography in the median eminence after H44/68 treatment. These results and analysis of fluorescence frequency histograms strongly indicate that the catecholamine fluorescence values recorded are proportional to the catecholamine concentration. It is concluded that the microfluorimetric technique used is a reliable method for catecholamine quantitation in discrete nerve terminal areas of the median eminence. The main advantages of the technique are that a high sensitivity and quantitative data on the transmitter content can be obtained in strict relation to the neuroanatomy. Measurement of the catecholamine fluorescence disappearance after H44/68 was used to evaluate catecholamine turnover during various endocrine states. The results showed that two dopamine systems with different transmitter turnover may be distinguished. Tuberinfundibular dopamine neurons projecting to the lateral palisade zone were thus shown to have a slower turnover than those projecting medially to the capillary loops. No definite changes in catecholamine turnover were observed after adrenalectomy and castration in the male, although there was a tendency toward increased noradrenaline turnover in both states. During pregnancy an increase in noradrenaline as well as dopamine turnover was noted. The present results therefore give further evidence for the view that catecholamine nerve terminals in the median eminence may participate in the regulation of gonadotrophin secretion.     

Neuronal localization of dopamine,noradrenaline, and 5-hydroxytryptamine in the central and peripheral nervous system ofLumbricus terrestris (L.)

Summary Fluorescence microscopical studies with the procedure of Falck and Hillarp have confirmed previous observations concerning the appearance of neurones with green and yellow specific fluorescence in the central and peripheral nervous system ofLumbricus terrestris.Chemical estimates show that the fluorescent neurones contain the primary catecholamines dopamine and noradrenaline, in addition to an indolamine, presumably 5-hydroxytryptamine. Rude's opinion that dopamine is present in a concentration twice that of noradrenaline is confirmed.Microspectrofluorometric analyses of the neurones displaying green specific fluorescence show two types of neurones, one presumably containing dopamine (mainly the receptor cells, certain small and some of the large cells in the cerebral ganglion). Some of the large cells of the cerebral ganglion and the bipolar cells near the base of the second segmental nerve in the ventral nerve cord show characteristics compatible with the simultaneous presence of both noradrenaline and dopamine in them.This work was supported by grants from the Helge Ax:son Johnson Foundation and was carried out within a reasearch organization sponsored by the Swedish Medical Research Council (projects No. B71-14X-2321-04A, B71-14X-712-06A, and B71-14X-56-07A).     

Monoamine-containing neurons in the optic ganglia of crustaceans and insects

Summary With the fluorescence method of Falck and Hillarp, the presence and localization of monoaminergic neurons in the optic ganglia of several crustaceans and insects have been investigated. It was found that in both classes the monoaminergic terminals, when present, appeared (especially in the medullae externa and interna of the crustaceans and the medulla of the insects) in strata specific for each species. So far, the only monoamine (visualized by this technique) present in the crustacean optic ganglia is dopamine, whereas in the Insecta, the catecholamines dopamine and noradrenaline, and the indolamine, 5-hydroxytryptamine, are found in the optic lobe. But in the Insecta, different species show different content of these amines.This work was supported by grants 2760-3 and 2760-4 from the Swedish Natural Science Research Council (R.E.), by a fellowship from Deutsche Forschungsgemeinschaft, and a grant from the Swedish Medical Research Council B72-14X-712-D7B (N.K.). We are very grateful to the director of the Department of Histology, Faculty of Medicine, Lund, Professor Bengt Falck, who put all his facilities and knowledge at our disposal.     

Some evidence for the maturity of peripheral adrenergic nerves in new-born guinea-pigs.

The fluorescence histochemical technique of Falck and Hillarp revealed a similar distribution and density of peripheral adrenergic nerves in new-born and adult guinea-pigs. The accumulation of tritiated noradrenaline by tracheae from new-born guinea-pigs, assumed to be uptake into adrenergic nerves, was not less than the accumulation by tracheae from adult animals. There was equal potentiation by cocaine (1 x 10(-5)M) of responses to noradrenaline on tracheal chain preparations taken from new-born and adult guinea-pigs. The evidence supports the hypothesis that the guinea-pig has a functional, well differentiated peripheral adrenergic nervous system at birth. This would account for the apparent inability to produce a long-lasting sympathectomy by administration of 6-hydroxydopamine to new-born guinea-pigs.     

Microfluorimetric quantitation of catecholamine fluorescence in rat median eminence. I. Aspects on the distribution of dopamine and noradrenaline nerve terminals.

Using the fluorescence histochemical technique of Falck and Hillarp, a quantitative microfluorimetric study of the catecholamine fluorescence in the median eminence has been performed. On the basis of morphologic criteria, the median eminence was subdivided into various areas from which the microfluorimetric measurements were made; the subependymal layer, the medial and lateral palisade zone of the rostral and the central and caudal region of the median eminence (for definitions of the various areas and regions, see Anatomical Subdivision). The highest fluorescence intensities were recorded from the lateral palisade zone, indicating that this area has the most dense catecholamine innervation, whereas the lowest fluorescence intensities were recorded from the subependymal layer. Dopamine-beta-hydroxylase inhibition produced by FLA-63, fusaric acid or diethyldithiocarbamate resulted in all cases in a 50-70% reduction of the catecholamine fluorescence in the subependymal layer, whereas only minute effects were observed in the lateral palisade zone. In the medial palisade zone, these treatments generally led to a substantial reduction (30-50%) of the catecholamine fluorescence. Basal hypothalamic deafferentation according to Halasz, or lesioning of the ventral catecholamine bundle, produced an almost complete disappearance of the fluorescence in the subependymal layer, while both procedures were largely ineffective in affecting the catecholamine fluorescence in the lateral palisade zone. On basal hypothalamic deafferentation the catecholamine fluorescence in the medial palisade zone was markedly reduced (40-60%), while the ventral bundle lesions were less efficient in this respect. From the present results it is suggested that the subependymal layer is mainly innervated by noradrenaline nerve terminals and the lateral palisade zone is mainly innervated by dopamine nerve terminals, whereas the medial palisade zone receives a mixed innervation of dopamine and noradrenaline terminals, the dopamine proportion being in the order of 50-75% of total catecholamine content.     

Monoaminergic nerves in the skin of plaice Pleuronectes platessa (L.)

1. The fluorescent histochemical technique of Falck and Hillarp was applied to plaice skin. The presence of monoaminergic nerve terminals, containing predominantly stores of adrenaline, forming a plexus in and around the melanophore layer was demonstrated. 2. Such stores were enriched by noradrenaline in the presence of monoamine oxidase inhibitor, unaffected by spinal section, depleted by spinal nerve section or ligatures and abolished by reserpine. 3. The observations support the view that teleost sympathetic melanophore aggregating nerves are truly adrenergic.     

Dopaminergic innervation ofAplysia gill muscle

1. The fluorescence histochemical method of Hillarp and Falck was employed to investigate the distribution of dopamine in the gill of Aplysia. 2. Dopamine-containing nerve fibers and varicosities were found in close association with the lateral and medial external pinnule muscles, the circular and longitudinal muscles of the afferent vessel, and the circular muscles of the efferent vessel. 3. Other large, dopamine-containing, intensely fluorescent processes were observed lining the vascular sinuses of the gill and within the muscle bundles themselves. 4. Our findings support the hypothesis that dopamine is a neuromuscular transmitter in the gill. However, the data also suggest that dopamine may play a hormonal role as well.     

Immunohistochemical localization of alpha(1a)-adrenoreceptors in muscle spindles of rabbit masseter muscle

The expression of alpha(1a)-adrenoreceptors (alpha(1a)-ARs) within the muscle spindles of rabbit masseter muscle was investigated. The alpha(1a)-ARs were detected by immunohistochemical fluorescent method and examined along the entire length of 109 cross serially sectioned spindles. The sympathetic fibers were visualized by the immunofluorescent labeling of the noradrenaline synthesizing enzymes tyrosine hydroxylase (TH) and dopamine beta-hydroxylase (DBH). In order to recognize the intrafusal muscle fiber types, antibodies for different myosin heavy chain isoforms (MyHCI) were used. TH and DBH immunolabeled nerve fibers have been observed within the capsule lamellar layers, in the periaxial fluid space and close to intrafusal muscle fibers. The alpha(1a)-ARs were detected on the smooth muscle cells of the blood vessels coursing in the muscle and in the capsule lamellar layers or within the periaxial fluid space of the spindles. Moreover, at the polar regions of a high percentage (88.1%) of muscle spindles a strong alpha(1a)-ARs immunoreactivity was present on the intrafusal muscle fibers. In double immunostained sections for alpha(1a)-ARs and MyHCI it was evidenced that both bag, and nuclear chain fibers express alpha(1a)-ARs. The receptors that we have detected by immunofluorescence may support a direct control by adrenergic fibers on muscle spindle.     

Immunohistochemical colocalization of insulin,aromatic L-amino acid decarboxylase and dopamine beta-hydroxylase in islet B cells of chicken pancreas

Summary The identity of the monoamine which produces a very weak formaldehyde-induced fluorescence in some pancreatic islet cells was studied by fluorescence microscopy and immunohistochemistry either on the same tissue section or on serial tissue sections of tissue from male chickens. Pancreatic islet cells showing this very weak formaldehyde-induced fluorescence react immunohistochemically with antisera directed against insulin, aromatic L-amino acid decarboxylase and dopamine beta-hydroxylase and therefore appear to be islet B cells producing insulin and noradrenaline.     

Biogenic monoamines in Hirudo medicinalis

Summary The distribution of certain catecholamines and indoleamines in the ventral nerve cord and the body segments of the medical leech, Hirudo medicinalis, was studied with the fluorescence microscope technique of Falck and Hillarp, with microspectrofluorometry, and with chemical determinations of the amines. The six cells of the segmental ganglia previously shown to be chromaffin were found to contain an amine, most probably 5-hydroxytryptamine. In the two giant cells, the amine was found on the surface of coarse intracellular granules, lying mainly at the cell membrane, and at the nucleus. The two giant cells send their axons to the body muscles, which thus seem to have a 5-hydroxytryptaminergic innervation. The four smaller amine-containing cells of the segmental ganglia send their axons to the neuropil of the ganglion.The only cell type found to contain a catecholamine (probably noradrenaline) was situated in the anterior segmental nerve in the cell cluster anterior of the nephridial duct, one cell in each nerve. The axon of this cell terminates in two or more segmental ganglia; thus these neurons seem to be afferent.This work was supported by grants from the Swedish Natural Science Research Council (project no. 99-35) and the Swedish Medical Research Council (projects no. B 68-12 X-712-03 B and B 68-14 X-56-04 B).     

Gene Expression of Tyrosine Hydroxylase in the Developing Fetal Brain

Tyrosine hydroxylase, aromatic L-amino-acid decarboxylase, and dopamine beta-hydroxylase activities were studied in the developing fetal rat brain. A delay of 2-3 days between the detection of the tyrosine hydroxylase and the aromatic L-amino-acid decarboxylase and dopamine beta-hydroxylase activities was observed. For this reason, the expression of tyrosine hydroxylase mRNA was studied. Tyrosine hydroxylase mRNA was visualized in the whole brain from 13 days of gestation, but the largest increase of the expression was observed in the hypothalamus. These results are discussed in terms of the relative gene expressions of the three enzymes involved in the biosynthesis of catecholamines and phenolamines in nervous tissues.     

Immunofluorescent patterns of clathrin and dopamine beta-hydroxylase in chromaffin cells in culture

Summary Bovine chromaffin cells maintained in culture for eight days were loaded with [³H]noradrenaline and then stimulated by a depolarizing concentration (56 mM) of K⁺. Control and stimulated cells were fixed in 3.7% formaldehyde, treated with acetone or Triton X-100, and then exposed to antibodies raised against dopamine beta-hydroxylase (a secretory granule marker) and clathrin, and purified by affinity chromatography. The cellular distribution of the correspondent antigens was investigated by indirect immunofluorescence. Cells treated with anti-dopamine beta-hydroxylase exhibited a granular pattern of fluorescence in the cytosol of the cell body, neurites, and terminal cones. Chromaffin cells exposed to anti-clathrin also showed a punctate pattern of fluorescence staining. However, in this case, the fluorescent dots were smaller than those observed with anti-dopamine beta-hydroxylase, and they were differently distributed. The speckled anti-clathrin fluorescence was preferentially condensed in the juxtanuclear region of the cell bodies, suggesting the possibility that clathrin was concentrated at the level of the Golgi apparatus.The stimulation of cultured chromaffin cells by 10 pulses of 56 mM K⁺ produced 91±2% (n = 5) depletion in the [³H]noradrenaline cell content and a concomitant displacement of the dopamine beta-hydroxylase fluorescence to the periphery of the cells. Four days after cell stimulation the dopamine beta-hydroxylase fluorescence was similar to that observed in control cells. Under the same conditions of stimulation, the distribution of the clathrin fluorescence was unaltered suggesting either that K⁺induced stimulation of the chromaffin cells does not change the cellular distribution of clathrin, or that the changes in the distribution of clathrin are of such low magnitude that they escape detection by fluorescence microscopy.     

Monoamines in the C cells of the thyroid gland of callithricid primates

Summary The thyroid gland of three species of marmosets were studied with the Falck and Hillarp fluorescence technique for monoamines. Two types of fluorescent C cells were observed. The predominant type displayed the greenish (or blue) fluorescence characteristic of catecholamines. The other type displayed a yellowish fluorescence most probably due to 5-HT. The presence of monoamines in C cells now reported for the first time in Primates offers an interesting possibility for studying their presumed role in calcitonin secretion.     

In Vitro Synthesis of Dopamine and Noradrenaline in the Isolated Rat Pineal Gland: Day-Night Variations and Effects of Electrical Stimulation

Isolated rat pineal glands were incubated in vitro in a medium containing [14C]dopamine or [14C]tyrosine, and the tissue contents of 14C-labelled and total dopamine and noradrenaline were determined by HPLC followed by electrochemical detection and scintillation spectrometry. During incubation with [14C]dopamine, the labelled amine accumulated in pineal glands and was partially converted into [14C]noradrenaline. Nomifensine, a neuronal amine uptake blocker, largely inhibited the accumulation of [14C]dopamine and the formation of [14C]noradrenaline. These experiments demonstrated dopamine beta-hydroxylase activity in the sympathetic nerves of the pineal gland. During incubation with [14C]tyrosine, formation of [14C]dopamine and [14C]noradrenaline was observed in the pineal tissue, indicating that noradrenaline can also be synthesized from dopamine, endogenously formed in the gland. Electrical stimulation of the stalk region of the pineal gland during incubation with [14C]dopamine enhanced the accumulation of [14C]dopamine and synthesis of [14C]noradrenaline. Electrical stimulation also enhanced the formation of [14C]dopamine during incubation with [14C]tyrosine. Compared to that at midday, the tissue content of endogenous noradrenaline at midnight was enhanced by 50% and that of dopamine by 450%. The in vitro accumulation of [14C]dopamine, as well as the synthesis of [14C]dopamine and [14C]noradrenaline, was also increased at midnight. In conclusion, sympathetic nerves in the rat pineal gland contain tyrosine hydroxylase and dopamine beta-hydroxylase, the two enzymes required for the synthesis of noradrenaline.(ABSTRACT TRUNCATED AT 250 WORDS)     

Electron microscopic classification of amine-producing endocrine cells by selective staining of ultra-thin sections

Summary The argyrophil, argentaffin and chromaffin reactions were performed directly on ultra-thin sections for examination in the electron microscope. Glutaraldehyde fixation was appropriate for the argentaffin and chromaffin reactions; additional fixation with osmium tetroxide, however, caused impairment of these reactions. Fixation with formaldehyde, but not with glutaraldehyde, was adequate for the argyrophil reaction; post-fixation with osmium tetroxide did not affect this staining. At the light microscopic level the staining reactions were correlated with fluorescence histochemistry according to the method of Falck and Hillarp. The techniques described were used to study certain amine-producing endocrine cell systems: adrenal medullary cells and thyroid parafollicular cells of the mouse, gastric endocrine cells from the oxyntic gland area of the mouse, rat and rabbit. All these cells stained argyrophil. The adrenal medullary cells and one cell type in the oxyntic gland area of the rabbit were strongly argentaffin and chromaffin. The remainder of the cells were non-argentaffin and non-chromaffin but could be induced to give an argentaffin (and chromaffin) reaction after injection of the animals with l-3,4-dihydroxyphenylalanine or l-5-hydroxytryptophan, a treatment which is known to result in the accumulation of the highly reducing dopamine and 5-hydroxytryptamine, respectively, in these endocrine cells. Without exception the precipitates formed in all the staining reactions accumulated selectively over the secretory granules of the cells.The techniques described permit differential staining of consecutive ultra-thin sections for electron microscopic characterization of one and the same cell. They will provide information necessary for correlative studies of the stainable cells at the light and electron microscopic levels.     

Concomitant elevation of tyrosine hydroxylase and dopamine beta-hydroxylase by cyclic AMP in cultured mouse neuroblastoma cells.

The effects of cyclic AMP analogues and of phosphodiesterase inhibitors were investigated in neuroblastoma cells (NBD-2) cloned from the C-1300 tumor. 8Br-cAMP and phosphodiesterase inhibitors that elevated cAMP induced large (greater than 15 fold) and specific increases in tyrosine hydroxylase and dopamine beta-hydroxylase activity. In contrast, catechol O-methyltransferase, monoamine oxidase and aromatic-l -amino-acid decarboxylase were unaffected by the cAMP altering drugs. Similarly, AChE was unaffected and only a small increase in choline acetyltransferase (3 fold) was observed. The increases in tyrosine hydroxylase and dopamine beta-hydroxylase were similar with respect to dose response relationships and with respect to time course of onset. Only those phosphodiesterase inhibitors that elevated cAMP (papaverine and Ro20-1724 as opposed to theophylline) were effective in elevating tyrosine hydroxylase and dopamine beta-hydroxylase. Further, the doses optimal for elevating cAMP coincided with the optimal doses for elevating the two enzymes. Theophylline had no influence either upon NBD-2 cell cAMP levels or upon tyrosine hydroxylase and dopamine beta-hydroxylase activity. The changes in protein synthesis rates produced by the cAMP altering drugs were temporally distinct from the changes in either tyrosine hydroxylase or dopamine beta-hydroxylase. These results suggest that the intracellular messenger compound cAMP is involved in the specific regulation of both tyrosine hydroxylase and dopamine beta-hydroxylase in adrenergic cells.     

Distribution and chemical coding of neurons in intramural ganglia of the porcine urinary bladder trigone

This study presents the distribution and chemical coding of neurons in the porcine intramural ganglia of the urinary bladder trigone (IG-UBT) demonstrated using combined retrograde tracing and double-labelling immunohistochemistry. Retrograde fluorescent tracer Fast Blue (FB) was injected into the wall of both the left and right side of the bladder trigone during laparotomy performed under pentobarbital anaesthesia. Ten-microm-thick cryostat sections were processed for double-labelling immunofluorescence with antibodies against tyrosine hydroxylase (TH), dopamine beta-hydroxylase (DBH), neuropeptide Y (NPY), somatostatin (SOM), galanin (GAL), vasoactive intestinal polypeptide (VIP), nitric oxide synthase (NOS), calcitonin gene-related peptide (CGRP), substance P (SP), Leu5-enkephalin (LENK) and choline acetyltransferase (ChAT). IG-UBT neurons formed characteristic clusters (from a few to tens neuronal cells) found under visceral peritoneum or in the outer muscular layer. Immunohistochemistry revealed four main populations of IG-UBT neurons: SOM- (ca. 35%), SP- (ca. 32%), ChAT- and NPY- immunoreactive (-IR) (ca. 23%) as well as non-adrenergic non-cholinergic nerve cells (ca. 6%). This study has demonstrated a relatively large population of differently coded IG-UBT neurons, which constitute an important element of the complex neuro-endocrine system involved in the regulation of the porcine urogenital organ function.     

Sulfation and constitutive secretion of dopamine beta-hydroxylase from rat pheochromocytoma (PC12) cells

The biosynthesis and secretion of dopamine beta-hydroxylase were investigated by radiolabeling rat pheochromocytoma (PC12) cells in culture. Intracellular dopamine beta-hydroxylase from a crude chromaffin vesicle fraction and secreted dopamine beta-hydroxylase from culture medium were immunoprecipitated using antiserum made against purified bovine soluble dopamine beta-hydroxylase. Analysis of the immunoprecipitated enzyme on sodium dodecyl sulfate-polyacrylamide gel electrophoresis showed that: 1) the membrane-bound form of the hydroxylase from crude secretory vesicle membrane extracts contained two nonidentical subunits in approximately stoichiometric amounts (Mr = 77,000 and 73,000); 2) the soluble hydroxylase from the lysate of these secretory vesicles was composed predominantly of a single subunit (Mr = 73,000); and 3) the hydroxylase secreted into the medium under resting conditions was also composed of a single subunit (approximate Mr = 73,000). All subunits of the multiple forms of hydroxylase were glycoproteins. Under resting conditions, the rate of secretion of hydroxylase was approximately 6% of total cellular enzyme/15 min. The secreted form of the hydroxylase incorporated [35S]sulfate, whereas no significant [35S]sulfate was incorporated into the cellular forms of enzyme. We propose that in addition to the dopamine beta-hydroxylase which is found in catecholamine storage vesicles and released during stimulus-coupled exocytosis, PC12 cells also have a constitutive secretory pathway for dopamine beta-hydroxylase and that the enzyme released by this second pathway is sulfated.     

Postnatal ontogenic development of the adrenergic innervation pattern in the rat portal vein

Summary The postnatal development of the adrenergic innervation pattern in the rat portal vein has been studied with the histochemical fluorescence method of Hillarp and Falck.Stretch preparations and transverse freeze-dried sections of intact portal veins were studied from rats during the first 5 weeks of life and from adult rats. Orientation of undifferentiated smooth muscle cells into two layers was observed at 4 days of age. Dominance of the thick outer longitudinal muscle layer was apparent at two weeks of age. A terminal adrenergic nerve plexus with some varicosities was restricted outside the media at the end of the first week. Ingrowth of penetrating non-terminal adrenergic nerve fibers through the longitudinal muscle layer occurred during the second week of age when the main terminal nerve plexus was developing between the two muscle layers. After 3 weeks of age the adult pattern of a two-dimensional adrenergic plexus between the muscle was established. In the adult rat pharmacological treatment with nialamide and noradrenaline revealed the thin, penetrating non-terminal adrenergic nerve fibers in the longitudinal muscle layer which were poorly visible otherwise.The present observations strongly indicate that the main adrenergic plexus between the two muscle layers emanates directly from the outer axonal plexus. These findings are discussed regarding possible trophic interactions between ingrowing sympathetic adrenergic vasomotor nerves and maturing vascular smooth muscle.Supported by grants from the Swedish Medical Research Council (grants No. 14X-2207, O4P-4173, 3884), Magn. Bergwall's Foundation, G. & M. Lindgren's Foundation, the Medical Faculty of University of Göteborg. The technical assistance of Miss Serney Bööj, Mr. Pär-Anders Larsson and Miss Ann Kjellstedt is gratefully acknowledged