A method for the demonstration of adrenergic nerve fibres in peripheral nerves

Summary The adrenergic nerve fibres running from the ganglia to the innervated tissues usually have too low a content of noradrenaline to be clearly visualized with the histochemical fluorescence method of Falck and Hillarp. They can easily be demonstrated, however, as early as 24 hours after axotomy (crushing or constriction of the nerves) due to the rapid accumulation of what is probably noradrenaline taking place proximally to the lesion. The fibres can be visualized even more clearly if axotomy is combined with the administration of l-dopa and with monoamine oxidase inhibition. In this way the presence, distribution and direction of adrenergic fibres can be directly studied in peripheral nerves.For generous supplies of drugs we are indepted to Swedish Ciba, Stockholm (reserpine) and Swedish Pfizer, Stockholm (nialamide). The investigation has been supported by research grants from the United States Public Health Service (NB 02854-04), the Swedish Medical Research Council, and Knut and Alice Wallenbergs Foundation.     

Uptake of catecholamines and penetration of trypan blue after blood-brain barrier lesions

Summary Blood-brain barrier lesions were produced on rabbits which had been depleted of their endogenous monoamines with a large dose of reserpine. After the lesion, catecholamines and the blood-brain barrier indicator dye trypan blue were injected. After freeze-drying, the cellular distribution of the injected substances was observed in the fluorescence microscope.It was found that, in the injured areas, the monoamines and trypan blue had penetrated into the brain parenchyma, where the monoamines were taken up and concentrated in nerve terminals. Trypan blue was found diffusely in the neuropil, while the nerve cell bodies and axons exhibited no fluorescence of trypan blue. On the control side, this type of fluorescence of catecholamines or trypan blue could not be detected.The lesions applied seem to be quite specific for the blood-brain barrier, as an active and energy-dependent uptake of catecholamines could be demonstrated in central monoamine nerve terminals. Thus the results also show that these terminals have the same reserpine-resistant membrane pump in vivo as earlier demonstrated for peripheral adrenergic neurons, and for central neurons in vitro.This investigation has been supported by research grants (B 66-158 and B 66-257) from the Swedish Medical Research Council and by a Public Health Service Research Grant (NB 05236-02) from the National Institute of Neurological Diseases and Blindness. For generous supplies of drugs we thank the Swedish Ciba, Stockholm, Sweden for reserpine (Serpasil^®), the Swedish Pfizer, Stockholm, Sweden for nialamide (Niamid^®) and Hoechst Anilin AB, Göteborg, Sweden for -methylnoradrenaline (Corbasil^®).     

Electron microscopical study on the development of the nerve supply of the pituitary pars intermedia of the mouse

Summary The development of the nerve supply of the pituitary pars intermedia (PI) of C3H mice was studied by electron microscopy. Nerve fibres and terminal structures, most probably adrenergic, first appear in the newborn. The adult innervation pattern is achieved by the end of the first postnatal week.In the adult animal two types of nerve terminals were distinguished; type A (peptidergic or neurosecretory) and type B (adrenergic). The peptidergic fibres were scarce and exhibited no synapse-like contacts. It is suggested that they are of secondary importance in a direct nervous hypothalamic control of PI function. Type B terminals were found throughout the PI. They formed synapse-like contacts with the glandular cells, indicating that the primary innervation is exerted by adrenergic neurons.An autonomous differentiation of the glandular cells and in the adult a combined direct nervous and neurohumoral control of PI function is suggested.This investigation was supported by grant No B 2180-026 from the Swedish Natural Science Research Council. The skilful technical assistance of Mrs Ulla Wennerberg is gratefully acknowledged     

Anterior and posterior groups of portal vessels in the avian pituitary: incidence in forty nine species.

The hypophyseal portal vessels were studied in forty nine species of birds. The primary capillary plexus in the median eminence is single or divided into an anterior and a posterior plexus. Irrespective of whether the primary capillary plexus is single or divided, distinct, non-interconnected anterior and posterior groups of portal vessels are present in all the species investigated. The anterior group of portal vessels originates in the anterior region of the median eminence and breaks up into capillaries in the cephalic lobe of the pars distalis; the posterior group of portal vessels originates in the posterior region of the median eminence and breaks up into capillaries in the caudal lobe of the pars distalis. This type of regional distribution of portal vessels appears to be of general occurrence in the avian pituitary. The median eminence in the species investigated shows an AF-positive anterior region and an AF-negative posterior region. The pars distalis is differentiated into histologically distinct cephalic and caudal lobes. The arrangement of the portal vessels into anterior and posterior groups provides morphological basis for the view that the functions of the cephalic lobe may be controlled by the anterior median eminence, whereas those of the caudal lobe may be controlled by the posterior median eminence. However, experimental data available to date do not suggest a physiological significance to the widespread incidence of the regional distribution of portal vessels in the avian pituitary.     

Intercellular communication within the rat anterior pituitary: relationship between LH-RH neurons and folliculo-stellate cells in the pars tuberalis

The distribution of LH-RH-positive nerve fibers in the median eminence was demonstrated in the 1970s and 1980s. A few LH-RH fibers have been reported to be present in the adjacent pars tuberalis of the pituitary, but their functional significance has not been clarified and still remains enigmatic. Adult male Wistar-Imamichi rats were separated into two groups: one for immunohistochemistry of LH-RH and S-100 protein (for the identification of folliculo-stellate cells) and the other for electron microscopy. For both immunohistochemistry and electron microscopy, the specimens obtained contained the pituitary gland connected with the hypothalamus. Numerous LH-RH-positive fibers were observed as tiny lines with several varicosities both on the primary vascular plexus and in the hypothalamus corresponding to the posterior half of the portal vein area. LH-RH-positive fibers were also noted around S-100-positive cells in the pars tuberalis. Weakly reactive S-100 cells were scattered in the pars tuberalis in the midsagittal plane, while clusters of strong reactive elements occurred 100–300 m from the center. Similar observations were made using fluorescence immunohistochemistry for LH-RH and S-100, and at the electron-microscopic level. At the posterior portion of the portal vein system, bundles of the LH-RH-immunoreactive fibers invaded the pars tuberalis and terminated on agranular cells. Gap junctions were clearly seen among agranular cells corresponding to folliculo-stellate cells. It is postulated that the LH-RH message might be transmitted not only by the established hypophyseal portal vein system but also via the folliculo-stellate cells in the pars tuberalis to aid in the modulation of LH release.     

Serotonin-immunoreactive neurones in the brain of Locusta migratoria innervating the corpus cardiacum

Summary The serotoninergic innervation of the corpus cardiacum (CC) of Locusta migratoria was investigated using two antisera against serotonin. A dense network of immunoreactive nerve fibres was present in the storage lobe of the CC. Immunopositive fibres only sporadically crossed the border between the storage lobe and the glandular lobe of the CC. Immunopositive fibres entered the storage lobe of the CC via the nervus corporis cardiaci I (NCCI); NCCII was immunonegative. Unilateral retrograde fillings of the NCCI with the fluorescent tracer Lucifer yellow, followed by antiserotonin immunocytochemistry, revealed about 20 double-labelled neurones in the anterior part of the pars intercerebralis. The double-labelled neurones were scattered between fluorescent non-immunoreactive neurones. Additionally, 5–7 neurones labelled only with Lucifer yellow were found at the ventrolateral side of the tritocerebrum. No immunopositive neurones were observed in the hypocerebral ganglion. Immunopositive fibres from neurones in the frontal ganglion ran via the recurrent nerve and the neuropile of the hypocerebral ganglion into the paired oesophageal nerve. At most, a few immunopositive nerve fibres occurred in the cardiostomatogastric nerves II, which connect the storage lobe of the CC with the paired oesophageal nerve at the caudal end of the hypocerebral ganglion.     

A light and electron microscopic study of the pre- and postnatal development and secretory differentiation of the pars tuberalis of the rat hypophysis

Summary The development of the pars tuberalis was studied in the rat fetus from 13 days of gestation to 6 weeks after birth. After the closure of Rathke's pouch, the pars tuberalis anlage is clearly distinguishable from the anlagen of the partes intermedia and distalis. It comprises the entire basal portion of the adenohypophysial anlage; the limit between the anlagen of the pars tuberalis and the pars distalis is defined by Atwell's recess, i.e. the pathway taken by the hypophysial vessels coming from the vascular plexus of the median eminence.At 14 days the pars tuberalis cells are characterized by the presence of glycogen which persists in the adult. Their secretory differentiation (elaboration of granules with a diameter of 100–120 nm) is obvious at 15 days of gestation. It therefore, clearly precedes that of the other hypophysial cell types. Its functional differentiation takes place well before its adhesion to the primary vascular plexus of the portal system. Cystic formations appear just before birth in the pars tuberalis, much later than those of the pars distalis.These observations on the development of the pars tuberalis, together with previous observations on the adult PT in various species, showing that the specific glandular cells of the pars tuberalis are cytologically different from all known adenohypophysial cell types, seem to indicate a specific endocrine function of this lobe.     

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     

Adrenergic innervation of the salivary glands in the rat

Summary The adrenergic innervation of the major salivary glands in the rat has been studied by a specific histochemical method for the visualization of the adrenergic transmitter. Adrenergic varicose nerve fibres were found, located in a typical adrenergic ground plexus closely surrounding the serous acini of the submaxillary and parotid glands, but not the acini of the mainly mucous sublingual gland. The ducts were found to be completely devoid of adrenergic innervation. Arterioles and venules in the stroma of all three glands and certain very small vessels, possibly the sphincters of arterio-venous anastomoses, were also richly innervated by adrenergic vasomotor fibres. The relationship of the adrenergic nerve fibres to the different functional units of the gland parenchyma is discussed.The investigation has been supported by a research grant (B 66–257) from the Swedish Medical Research Council and by a Public Health Service Research Grant (NB 05236-01) from the National Institute of Neurological Diseases and Blindness.     

Monoamines and acetyl-cholinesterase in the pineal gland and habenula of the ferret

Summary A histochemical method for demonstrating amines by fluorescence showed that the pinealocytes of the ferret contained a high concentration of a yellow fluorophore (probably 5-HT). Numerous green-fluorescent (noradrenaline-containing) nerve fibres occurred around intrapineal blood vessels, between pinealocytes and in the N. conarii (which entered the gland caudally). A collection of neuron-like cells (the pineal ganglion) lay, surrounded by a meshwork of nerve fibres, in the posterior part of the pineal. Neither the cells nor the fibres of the pineal ganglion contained monoamines, but both showed the presence of acetyl-cholinesterase which otherwise was found in the pineal only in fibres which stretched from the ganglion towards the cranial pole of the gland. The medial habenular nucleus showed a remarkable perivascular green fluorescence not seen in the lateral habenular nucleus nor anywhere else in the adjacent diencephalon and brain stem. The cells and fibres of this nucleus also contained much acetyl-cholinesterase.Bilateral superior cervical ganglionectomy, or treating animals with reserpine, removed the green fluorescence from both pineal nerve fibres and the habenula. Ganglionectomy also resulted in a progressive alteration in the colour of the parenchymal fluorescence from yellow to green; the original yellow colour was restored by treating ganglionectomised animals with nialamide (a monoamine oxidase inhibitor). L-Dopa, 5-hydroxytryptophan or nialamide, alone or in combination, had no effect on the fluorescence of the nerve fibres or cells of the pineal, or on the habenula.These results are related to previous findings that pinealectomy or ganglionectomy prevents the acceleration by artificial light of oestrus in ferrets.     

The distribution of monoamines in the hypothalamus of the Japanese quail Coturnix coturnix japonica

Summary The distribution of monoamines in the hypothalamus of the Japanese quail (Coturnix coturnix japonica) has been studied using a histochemical fluorescence technique. In the posterior hypothalamus catecholamine-containing nerve fibres are localised in the nucleus tuberis and nucleus hypothalamicus posterior medialis and are linked by fluorescent tracts running in the stratum cellulare internum. Further tracts may be traced from the nucleus tuberis around the base of the third ventricle to the sub-ependymal layer of the median eminence, where they then appear to pass through the hypothalamo-hypophysial neurosecretory tract to terminate in the palisade zone on the portal vascular bed. The innervation of the palisade layer by catecholamines is sparse. The fluorescent terminals are spread evenly throughout both the anterior and posterior divisions of the median eminence. There is no monoamine innervation of the pars nervosa. The paraventricular organ has both 5-hydroxytryptamine- and catecholamine-containing cell bodies and axons may be traced into the region of the nucleus hypothalamicus posterior medialis. In the anterior hypothalamus the neurosecretory paraventricular nucleus contains many catecholamine nerve fibres and terminals. These are linked by fibre tracts to the nucleus basalis and to the nucleus hypothalamicus posterior medialis. The supraoptic nucleus is less well innervated although a dense accumulation of fibres lies in the preoptic recess. The latter is thought to give rise to long axons which pass in association with the neurosecretory tract to end in the nucleus tuberis.Supported by a Grant (AG 24/36) from The Agricultural Research Council. We are indebted to Dr. G. A. Clayton, Institute of Animal Genetics, University of Edinburgh, for supplying the birds.     

Monoamine-containing fibres in the pituitary neuro-intermediate lobe of the pig and rat

Summary A rich system of monoamine-containing fibres is described in the neural lobe and pars intermedia of the pig and rat. a) A rich network of delicate varicose fibres is evenly distributed throughout the parenchyma of the neural lobe and surrounds the cells of the pars intermedia. b) Droplets or clusters of droplets are scattered throughout the neural lobe. Most of them probably constitute terminal swellings or end-apparatuses of smooth or varicose fibres. The number of droplets varies from animal to animal; they are found also in the pars intermedia. c) Coarse varicose fibres are mainly localized around larger vessels. At least some of these fibres are nerve fibres of sympathetic origin. A combination of fluorescence microscopy and aldehyde-fuchsin staining on the same sections demonstrated that the majority at least of these monoamine-containing structures were not identical with aldehyde-fuchsin positive neurosecretory fibres.This research was supported by a grant from the Swedish Medical Research Council (B68-12X-712-03B) and by the Faculty of Medicine, University of Lund.     

The arrangement of neurosecretory and catecholamine fibres in relation to the pituitary intermedia cells of the skate,Raja radiata

Summary The innervation pattern of the intermediate lobe of the skate (Raja radiata) was studied with histological and fluorescence histochemical methods. Neurosecretory fibres, stained with i.a. pseudo-iso-cyanine, were found running in bundles in the central parts of the cell cords. They terminated partly around the perinuclear parts of the intermedia cells, partly around the apices of the cells close to the vascular walls.A catecholamine innervation of the intermedia was also established. Catecholaminecontaining fibres with the appearance of nerve terminals were found around the intermedia cell apices close to the vessels. In some specimens, catecholamine fibres also seemed to terminate at the perinuclear parts of the cells.Thus it is possible, judging solely from structural relations, that both the cell body (the synthesis pole) and the cell apex (the release pole) receive a dual innervation. Recent experimental evidence indicates that the release of MSH from the pars intermedia is controlled by catecholamine fibres, but as yet there is only structural evidence for a special control of hormone synthesis.This study was supported by grants from the Swedish Natural Science Research Council (No. 99-35 and 2126-2) and was carried out within a research organization sponsored by the Swedish Medical Research Council (Projects No. B70-14X-712-05 and B70-14X-56-06).     

Fluorescence studies on neural structures and endocrine cells in the pancreas of the cat

Summary With the use of the Falck-Hillarp histochemical technique for the detection of monoamines, nerve fibre fluorescence is observed throughout the tail of the pancreas of the cat and the arrangement and distribution of the nerve fibres can be studied in both the exocrine and endocrine tissue. In the exocrine pancreas, adrenergic nerve fibres innervate arterioles, larger veins and major pancreatic ducts. Adrenergic nerve fibres also appear to terminate on the non-adrenergic nerve cell bodies of the intrapancreatic ganglia. In the islets of Langerhans, adrenergic nerve fibres innervate both the endocrine cells and blood vessels. Some of the islet cells exhibit fluorescence with the Falck-Hillarp technique and these cells have been identified as alpha cells. In animals treated with reserpine, the fluorescence in nerve fibres and in alpha cells is absent.The author wishes to thank ProfessorG. C. Schofield and Dr.G. C. Smith for their encouragement and valuable criticism during the course of this study. The assistance of MissJ. Bennett and MissW. Kemp and the photographic help of Mr.J. S. Simmons, F.R.P.S., are gratefully acknowledged. The diagram was drawn by MissS. Flett.     

Evidence for the existence of monoamine neurons in the central nervous system

Summary With the help of the highly specific and sensitive fluorescence method of Falck and Hillarp together with the histochemical and pharmacological criteria for the specificity of the fluorescence reaction convincing evidence has been obtained that the fine, varicose nerve fibres observed in a vast number of regions in the mammalian central nervous system (mouse, hamster, rat, guineapig, rabbit, cat), which exhibit a green or yellow fluorescence, contain primary catecholamines and 5-HT respectively. Strong support has been given for the view that CA fibres showing a rapid recovery after administration of -MMT contain DA, while those showing a slow recovery contain NA.There is little doubt that the monoamine-containing fibres in the brain represent the terminal ramifications of axons belonging to specific monoamine neurons and that they are true synaptic terminals. They seem to make their contacts via the varicosities which have extremely high concentrations of amines and in all probability represent the presynaptic structures, specialized for synthesis, storage and release of the amines. The central monoamine terminals thus have the same characteristic appearance as the adrenergic synaptic terminals in the peripheral nervous system.All the data strongly support the view that the specific central neurons giving rise to the terminals are monoaminergic, i.e. function by releasing their amines from the synaptic terminals. Consequently, DA, NA and 5-HT seem to be central neurotransmitters.Not only the median eminence but also the nuc. caudatus putamen, tuberculum olfactorium, nuc. accumbens and the small circumscribed areas medial to nuc. accumbens contain very fine (partly sublightmicroscopical) CA terminals. These areas react to treatment with reserpine, nialamide-dopa and -MMT in the same way and since the nuc. caudatus putamen and tuberculum olfactorium are known to have a high DA content it seems likely that abundant DA terminals are accumulated in these special areas.The Following Abbreviations are Used CA Catecholamine - DA Dopamine - dopa 3.4-Dihydroxy-phenylalanin - NA Noradrenaline - A Adrenaline - 5-HT 5-Hydroxytryptamine - -MMT -Methyl-meta-tyrosine - MAO Monoamine oxidase For generous supplies of drugs the author is indebted to the following companies: Swedish Ciba, Stockholm, Sweden (reserpine); Swedish Pfizer, Stockholm, Sweden (nialamide); Abbott Research Laboratories, Chicago, USA. (MO 911). This study has been supported by a Public Health Service Grant (NB 02854-04) from the National Institute of Neurological Diseases and Blindness and by grants from the Knut and Alice Wallenberg Foundation, and the Swedish Medical Research Council.     

Adrenergic innervation of the gut musculature in vertebrates

Summary The adrenergic innervation of the gut musculature has been compared in various vertebrates (two teleost fish, an amphibian, a reptile and a mammal) by the fluorescent histochemical localization of certain monoamines. Very few, if any, adrenergic nerves occur within the longitudinal gut muscle of any of these animals, except for the taenia coli of the guinea-pig caecum. In contrast, the circular smooth muscle coat is supplied by varicose adrenergic nerves. These nerve fibres are particularly numerous in the toad large intestine, guinea-pig caecum, and throughout the eel gut, but are generally sparse or absent from the musculature of the stomach and small intestine of the trout, toad, lizard and guinea-pig. The extent of adrenergic innervation of the muscle has been discussed in relation to the physiology of the different muscle coats and to the general structure of the enteric plexuses in the vertebrate gut.     

Degeneration of adrenergic nerves in the urinary bladder during pregnancy

The adrenergic innervation of the urinary bladder of normal female and pregnant rats has been studied using a fluorescence histochemical method. The bladder is richly innervated by adrenergic nerve fibres as is evidenced by the presence of numerous adrenergic nerves in the adventitia, musculosa and submucosa. However, adrenergic nerve cells could not be observed. During pregnancy, adrenergic nerve fibres showed signs of degeneration, as most of the nerve fibres disappeared and the surviving fibres were much swollen. 10 days after parturition the pattern and density of adrenergic innervation became almost similar to those of the control animals.     

Catecholaminergic innervation of muscles in the hindgut of crustaceans

Summary The crustacean species Pacifastacus leniusculus and Gammarus pulex were investigated by electron microscopy in a search for possible neuromuscular junctions in the hindgut, which has a rich supply of catecholaminergic fibres. True neuromuscular synapses were found in both species between nerve terminals containing dense-core vesicles (80–110 nm in diam.) and muscle fibres. We suggest that the dense-core vesicle terminals contain a catecholamine, and this is supported by ultrahistochemical tests for monoamines. Two types of junctions are found: one in which the nerve terminal is embedded in the muscle cell (both species) and one in which protrusions from the muscle cell meet nerve terminals (Pacifastacus). Gammarus pulex, which has only circular muscles in the hindgut, has only catecholaminergic innervation, whereas Pacifastacus leniusculus has circular and longitudinal muscles both with at least two types of innervation.The investigation was supported by grants from the Swedish Natural Science Research Council (B 2760-009), the Hungarian Academy of Sciences, the Royal Swedish Academy of Sciences, and the Magnus Bergvall Foundation. We are also indebted to Mrs. Lena Sandell for her skilful technical assistance     

Locus coeruleus fibre growth in oculo induced by trigeminotomy

Locus coeruleus from fetal donors was homologously grafted to the anterior eye chambers of adult rats whose eyes were sympathetically denervated. After intraocular maturation, outgrowth of noradrenaline-containing fibres from the locus coeruleus neurons on the host iris was studied by Falck--Hillarp fluorescence histochemistry.In control animals locus coeruleus grafts produce a halo of noradrenaline-containing nerve fibres around the graft, covering approximately one third of the surface of the host iris. Sensory denervation of host eyes carrying maturated locus coeruleus grafts was produced by intracranial lesions of the trigeminal nerve. Such lesions induced a rapid growth response in the grafted locus coeruleus neurons, leading within three weeks to complete innervation of the host iris. It was concluded that removal of non-sympathetic, non-parasympathetic nerve fibres on the host iris elicits a strong fibre-growth response in the grafted locus coeruleus.