Adrenergic and cholinergic innervation of the prostate in laboratory animals

The prostate innervation has been studied in 50 white rats, 12 rabbits, 12 guinea pigs, 6 cats and 6 dogs. Together with the impregnation techniques, Karnovsky-Roots method has been applied, for revealing cholinergic components, and the incubation method in 2% solution of glyoxylic acid, for revealing adrenergic nervous structures. Density of adrenergic and cholinergic nervous plexuses has been estimated by means of the planimetric point method. The prostate of the laboratory animals possesses well manifested adrenergic and cholinergic nervous plexuses. The organ's alveolus and ducts are covered with adrenergic and cholinergic fibers, however, the relative density of the cholinergic plexuses is less than that of the adrenergic ones. The guinea pig prostate is the most richly supplied with the adrenergic nervous plexuses, and the rabbit prostate--with the cholinergic nervous plexuses.     

Cholin- and adrenergic components of the vegetative innervation of the dura mater]

Cholin- and adrenergic nerves in the fornix and base of the dura mater of rats, cats and dogs have been studied by methods of Kelle, Falck and Glenner. It has been established that the dura mater has a developed cholin- and adrenergic nervous apparatus innervating arteries, veins and the connective tissue of the mater. The concentration of nerve fibres is always greater on a meningea media and its daughter branches. The statistical processing of the data obtained has shown that the maximum quantity of nerve fibres is in cats, less in dogs and still less in rats. It has been established that in the dura fornix of cats and dogs there are more cholinergic nerve fibres than in the base. In rats there is no such difference. The amount of fibres with monoaminoxidase approximately corresponds to the amount of conductors with noradrenaline.     

Cholinergic mechanisms in pial vessels

Summary Plexuses of cholinergic nerve terminals were demonstrated (acetylcholinesterase staining) in pial arteries (down to a diameter of about 15) at the base of the brain and on the brain convexities of mice, rats, rabbits, hamsters, guinea-pigs, and cats. The pial veins were less well supplied than the arteries. Consecutive formaldehyde gas treatment (to visualize adrenergic nerves) and acetylcholinesterase staining revealed that the adrenergic and cholinergic plexuses followed each other closely, the axon terminals running together in the same Schwann cell strands. This was confirmed by electron microscopy after KMnO₄ fixation or 5-hydroxydopamine treatment. The varicosities of cholinergic and adrenergic axons were sometimes seen as close as 250 Å. In the neuro-effector area, the terminals of both nerve types (naked or surrounded by an incomplete Schwann cell covering) approached the smooth muscle cells as close as 800–1100 Å, and they were separated from the latter only by the fused neuronal and muscular basement membranes. In this area axo-axonal contacts were observed. The adrenergic, but not the cholinergic, nerves disappeared after bilateral removal of the superior cervical sympathetic ganglia. Isolated cat middle cerebral artery contracted strongly with acetylcholine, and the effect was inhibited by atropine.With regard to the cholinergic neural control of the intracranial arteries, it may have particular functional implications: (1) that these vessels do have a cholinergic parasympathetic innervation in contrast to most other vascular systems, for example, in the mesenterium, (2) that this cholinergic nerve supply was found to be about equally prominent as the adrenergic (sympathetic) innervation which, in some pial vessels, is even better developed than in the mesenteric arteries, and (3) that the adrenergic and cholinergic systems in the intracranial arteries may interact, even at the level of the neuro-muscular contacts, a complex situation which may be partly responsible for the previous difficulties in defining the autonomic neural influence on the brain circulation.Part of the findings were reported at Journées Internationales de Circulation Cérébrale, Toulouse, April 21–22, 1972.     

A histochemical study of the innervation of cerebral blood vessels in the snake

Summary Dual innervation of snake cerebral blood vessels by adrenergic and cholinergic fibres was demonstrated with the use of histochemical methods. Although the nerve plexuses are somewhat less dense, the essential features of innervation of the blood vessels are similar to those of mammals with the exception that the adrenergic plexuses are more prominent than the cholinergic plexuses. The major arteries of the cerebral carotid system have a rich nerve supply. However, the innervation is less rich in the basilar and poor in the spinal (vertebral) arteries. Although the arteries supplying the right side of head are poorly developed, three pairs of arteries, cerebral carotids, ophthalmics and spinals, supply the snake brain. The carotids and ophthalmics are densely innervated and are accompanied by thick nerve bundles, suggesting that the nerves preferentially enter the skull along those arteries. Some parenchymal arterioles are also dually innervated. Connection between the brain parenchyma and intracerebral capillaries via both cholinergic and adrenergic fibres was observed. In addition cholinergic nerve fibres, connecting capillaries and the intramedullary nerve fibre bundles, were noticed. Capillary blood flow may be influenced by both adrenergic and cholinergic central neurons. The walls of capillaries also exhibit heavy acetylcholinesterase activity. This may indicate an important role for the capillary in the regulation of intracerebral blood flow.     

A histochemical study of the innervation of the cerebral blood vessels in the domestic fowl

Summary Adrenergic and cholinergic nerves innervating the cerebral arteries of the domestic fowl were examined by specific histochemical techniques.The adrenergic nerve plexuses of the cerebral carotid system are markedly denser than those of other vertebrates observed by similar techniques. They form longitudinally elongated meshworks of fine fibres in the vascular wall of the arterial branches. Those innervating the vertebro-basilar system are less dense and more elongated, and, as the size of the artery diminishes, the fibres of the plexus become coarser. In the small pial and parenchymal arteries they are reduced to a few fibres running parallel to, or spiralling around the vascular axis.The cholinergic nerve plexuses are not as dense as the adrenergic system. The acetylcholinesterase activity is very weak, except in the plexuses innervating the cerebral carotid artery and the proximal portion of the anterior and posterior rami. In the vertebro-basilar system, a few thick nerve bundles run alongside the blood vessels of the vertebral and basilar arteries. Cholinergic nerves enter the cranial cavity along the internal carotid, the vertebral and possibly the cerebro-ethmoidal arteries.Intracerebral capillaries and some arterioles are not innervated with cholinergic and adrenergic fibres of peripheral origin, but with ones arising from parenchymal nerve cells.     

Effects of light and dark upon photoreceptor synapses in the retina of Xenopus laevis

Summary The adrenergic innervation of the juxtaglomerular complex was studied in kidneys from mice, rats, guinea-pigs, rabbits, cats, dogs, pigs, monkeys, and humans using fluorescence histochemistry of neuronal nor-adrenaline and autoradiography of ³H-noradrenaline. The localization of the nerves was established by phase contrast optics or by perfusing the vascular system with India ink. Adrenergic nerve terminals, exhibiting a formaldehyde-induced fluorescence and having the ability to take up and accumulate ³H-noradrenaline, were easily identified when they enclosed the glomerular afferent arteriole. They continued in between and close to the macula densa and lacis cells to supply the glomerular efferent arteriole. The nerves could be seen to accompany this arteriole for a considerable distance until they branched off to the vasa recta in the juxtamedullary region and to adjacent cortical veins. This innervation pattern was found to be a constant feature except in kidneys from guinea-pigs and cats, in which post-glomerular adrenergic nerves were not found in some of the superficial glomerular units. The fluorescence in all adrenergic fibres supplying the juxtaglomerular complex disappeared after removal of the aortico-renal ganglion, showing that they belong to a common system of renal sympathetic nerves.This work is dedicated to Professor Wolfgang Bargmann in honour of his seventieth birthday, January 26, 1976     

Adrenergic innervation of the extramedullary arteries of the spinal cord of cats]

The adrenergic nerves of the radical and longitudinal arteries and the dura mater at the level of cervical, thoracic and lumbar segments of the ventral and dorsal sides of the spinal cord were studied in 70 mature cats by methods of Falck and Glenner. The adrenergic fibres form developed plexuses different in the density of disposition of nerve conductors on the arteries of different segments of the spinal cord. The adrenergic fibres are also found in the pia mater tissue. Nerve fibres containing active monoaminoxidase are less in number than adrenergic ones found by Falck's method. It is probably due to activation of catecholamines being realized by other ways in addition to oxydative desamination.     

Adrenergic innervation of the arteries of different diameters in the human and animal pia mater

The adrenergic nervous plexuses of the pial arteries from 450- to 50 micron in diameter have been studied in dogs, cats and humans from 4 age groups (22-44 years, 55-64 years, 65-74 years and 75-86 years old). It has been found that the decrease in the vessel diameter was accompanied by a marked decline in the absolute number of nervous fibers in the nervous plexuses, however the concentration of the nerve fibers has not revealed any significant differences between human arteries from 450 to 100 micron in diameter and animal arteries from 300 to 80 micron in diameter. The number of varicosities-thickness along the nerve fiber--was the greatest in 200-100 micron human arteries and in 80-60 micron animal arteries. With ageing, the number of varicosities in the adrenergic nervous plexus of human pial vessels decreased faster than in the nerve fibers.     

A histochemical study on the innervation of the cerebral blood vessels in bats

Summary The adrenergic and cholinergic nerves innervating the cerebral blood vessels of four species of Japanese chiropterids (Rhinolophus ferrumequinum, Murina leucogaster, Vespertilio superans and Miniopterus Schreibersi) have been investigated using specific histochemical techniques. In all these species of bats arteries of the internal carotid system are poorly developed, whereas those of the vertebro-basilar system are well developed. The adrenergic and cholinergic nerves innervating these cerebral arteries, however, all originate from the stem nerve bundles entering the cranial cavity along the internal carotid artery. Both nerve plexuses are among the densest of any vertebrate species so far investigated. Adrenergic nerve plexuses are usually composed of complicated meshworks of fine fibres, while cholinergic ones are composed of rather longitudinally arranging meshworks of both thick and thin fibres, exhibiting a very high acetylcholinesterase activity. Small parenchymal arteries and arterioles are also dually innervated by adrenergic and cholinergic nerve fibres of peripheral origin. Intracerebral capillaries, on the other hand, are in several places directly connected with both adrenergic and cholinergic fibres of parenchymal origin. Capillaries in the cerebral and cerebellar cortices, diencephalon and cochlear nucleus in V. superans exhibit a heavy non-nervous acetylcholinesterase activity in their walls, but in R.ferrumequinum and M. schreibersi, the response is weak or negative, except for that in the cochlear nucleus.     

Remarkable adrenergic nerves in the exocrine pancreas

Summary The adrenergic nerves in the pancreas of mice, rats, guinea-pigs, rabbits, and cats were investigated with the fluorescence method of Falck and Hillarp. The relations between the adrenergic fibres and the vessels were studied by the injection of india ink into the vessels.Besides the normal manifestation of adrenergic fibres at the large vessels, some vessels of capillary size were also accompanied by adrenergic fibres. These fibres had a very weak fluorescence, and showed up regularly only when the animal had been treated with Nialamide and L-DOPA or dopamine to increase the catecholamine content of the adrenergic fibres. The weakness of the fluorescence is perhaps due to low transmitter concentration or to small size of the nerve fibres, or to both. A rough estimate indicated that either the transmitter concentration of the nerve fibre is at least approximately 100 times below that seen in adrenergic nerves in other tissues, or that the radius of the varicosities of the nerve fibres is less than 0.2 . Neither alternative has previously been recognized.The secretory acini of the pancreas seem to lack a direct adrenergic supply. In the intrapancreatic ganglia, non-fluorescent nerve cells were reached by adrenergic terminals. No adrenergic nerve cells were detected in the pancreas of rats and cats. Small intensely fluorescent catecholamine-containing cells were observed in connexion with the intrapancreatic ganglia of rats.The research reported in this document has been sponsored by the Air Force Office of Scientific Research under grant AF EOAR 67-15 through the European Office of Aerospace Research (OAR), United States Air Force, by the United States Public Health Service (grant NB 06701-01) by the Swedish Medical Research Council (project B 67-12X-712-02A), and by the Faculty of Medicine, University of Lund, Sweden.     

Adrenergic and cholinergic components of the innervation of the arteries of the base of the bird brain

By means of Falck's and Koelle's methods adrenergic and cholinergic structures were studied in the arteries in the cerebral basis of blue rock pigeons and of hens, white leghorn stock. The number of nerve transmitters was estimated per 1 mm2 of the vessel surface. The arteries of the basis in pigeon brain are surrounded with developed adrenergic and cholinergic nerve plexuses, their density decreasing in the following order: nasal branch of the internal carotid artery, middle, nasal cerebral and basilar arteries. A little more cholinergic transmitters occur on the middle cerebral artery, while on the other vessels, concentration of cholinergic and adrenergic fibers is equal. In hens, the density in the arrangement of adrenergic nerve transmitters is higher in the nasal branch of the internal carotid and in the nasal cerebral arteries than in the basilar artery. At the same time, chromaffin cells forming numerous conglomerations in some places are found on the latter. In pigeons, the density of adrenergic fibers arrangement on the arteries of the cerebral basis is higher than in hens.     

Cholinergic and adrenergic innervation of the arteries of the base of the brain in certain lower vertebrates]

The arteries in the encephalon base have been investigated by Koelle's and Falck's methods in Teleostei (Anarhichas lupus, Eleginus navaga, Leuciscus brandti, Pelingas), amphibians (Rana temporaria, Rana semiplicata, Bufo bufo) and in reptiles (Testudo horsfieldi, Trionyx chinensis). Cholin- and adrenergic nerve fibres of the encephalic arteries have been revealed in all the vertebrates studied, but their concentration is far from being equal. In fishes and reptiles neural conductors from scarse plexus with wide loops. Concentration of effector neural fibres only in Bufo bufo exceeds that of fishes. In some cases, the arteries of frogs have equal or less density of cholin- and adrenergic neural conductors as compared with those of Pelingas. Certain individual peculiarities are noted in distribution of the effector neural fibres of the encephalic arteries of the vertebrates. In reptiles, the neural apparatus of the encephalic blood vessels reaches a considerable development; it is definitely differentiated into two plexuses - superficial and deep, having a close interconnection. The development of the effector vascular plexus in vertebrates corresponds to increasing mass of the brain and the vascular diameters. Taking into consideration structural peculiarities of the neural conductors and their concentration, it should be recognized that the role of the neural factor in regulation of the cerebral circulation increases in the following order: fishes - amphibians - reptiles.     

Adrenergic and cholinesterase-containing neurons of the heart

Summary The adrenergic and acetylcholinesterase-containing nerves of the hearts of mice, rats, guinea-pigs, rabbits, and cats were studied. The fluorescence technique of Falck and Hillarp was used for the demonstration of adrenergic nerves, whereas a modified Koelle cholinesterase technique was used for the cholinesterase-containing nerves. The inhibitors used were Mipafox, iso-OMPA and Nu 683. Microspectrofluorometry was used to identify the structures containing dopamine.Adrenergic as well as acetylcholinesterase-containing fibres were found in all parts of the heart, most abundantly in the atria. Dense nerve plexa supplied the sinoarial and atrioventricular nodes. There was a plexus of both fibre types in the endocardium and on the atrial side of the valves. In the valves, it could be shown that adrenergic and cholinesterase-containing fibres ran closely parallel to each other. Indirect evidence suggested that this applies also to the myocardium.No nerve fibres containing dopamine were revealed in the microspectrofluorometer. The dopamine previously found in the atria seems, instead, to be situated in so-called small intensely fluorescent cells.No adrenergic ganglion cells were found in the heart despite extensive search. The vagus of rabbits was found to contain only few adrenergic preterminals.     

Note: Isolation, characterization and epidemiology of Yersinia enterocolitica from humans and animals

During an 11-year period (1983 to 1994), 51 strains of Yersinia enterocolitica were isolated from humans and animals. Specimens were collected from a total of 3601 sources consisting of 956 patients with enteritis, 300 patients with urinary tract infection, 1564 healthy humans, 510 swine, 38 guinea-pigs, 118 rats and 115 rabbits. Five strains of Y. enterocolitica , bio/serogroups 2/O:9 and 4/O:3, virulence positive, were recovered from patients. Forty-two variants of Y. enterocolitica belonging to pathogenic serogroup O:3, Voges-Proskauer-negative biogroup 3 were recovered from swine, rats and rabbits. The rate of isolation of Y. enterocolitica from diarrhoeal swine was apparently greater than those from healthy swine. The incidence of human infections due to Y. enterocolitica was very low and bioserogroups of isolates were different from the strains which were isolated from animals. There was no evidence to suggest that swine were the source of Y. enterocolitica in humans.     

Development of nerves plexuses in the pelvis of the prenatal rabbit

By means of neurohistological and histochemical methods using serial sections of the embryos at the age of 12-30 days of development, the premediatory and beginning of the mediatory stages in development of cholinergic and adrenergic neural plexuses have been studied in rabbit small pelvis. Appearance of catecholamine-containing cells at early mediatory stages and a gradual development and complication of the cholinergic and adrenergic neural plexuses structure are demonstrated. By birth in the rabbit small pelvis area, some elements of cholinergic and adrenergic structures begin to form.     

Dual innervation of arteries and arterioles

Summary Specific histochemical techniques for the demonstration of acetylcholinesterase and of norepinephrine have been used to study the distribution of cholinergic and adrenergic nerve fibers to arteries and arterioles in various organs of cats and dogs, including the male genital apparatus, tongue, skeletal muscle, heart and gastrointestinal tract. Arteries and arterioles in all of these organs showed both cholinergic and adrenergic nerve fibers, although the relative number of each of the types of fiber was variable. The findings provide morphologic evidence for a widespread and generalized dual adrenergic and cholinergic innervation of arteries and arterioles.Supported in part by Grant No. HE 10465 from the USPHS and by a grant from the Monroe County Heart Chapter.     

Motility of isolated mammalian gastric fundus

Gastric fundus strips (GFS) of rats, guinea-pigs, rabbits, cats and humans, but not of dogs, show spontaneous phasic contractions in vitro. Rabbit, cat, dog and human GFS exhibit dose-dependent responses to acetylcholine (ACh), histamine (His), serotonin (5-HT) and KCl. Guinea-pig drug-induced responses are not dose-dependent. Rat GFS does not respond to His. ED50S for KCl are always higher than for other agonists. ED50S for 5-HT are lower than for other drugs in rats and cats, but not different in other species. Maximal GFS contractions induced by ACh are usually higher than those induced by other drugs.     

Occurrence of parasympathetic vasodilator fibers in the lower lip of the guinea-pig

The present study was designed to examine whether there are parasympathetic vasodilator fibers in the lower lip of the guinea-pig. Electrical stimulation of the central cut end of the lingual nerve of guinea-pigs evoked intensity- and frequency-dependent decreases in lower lip blood flow and systemic arterial blood pressure (SABP). Pretreatment with guanethidine, a postganglionic sympathetic nerve blocker and antihypertensive drug (30 mg kg⁻¹, s.c., 24 h prior to experiments), reduced the magnitude of the decrease in SABP while the intensity- and frequency-dependent increases of the lip blood flow occurred by the lingual nerve stimulation only on the side ipsilateral to stimulation. Increases in the lip blood flow evoked by lingual nerve stimulation in guanethidine pretreated guinea-pigs were reduced by hexamethonium (an autonomic ganglion cholinergic blocker) in a dose-dependent manner. When fluoro-gold (a retrograde neural tracer) was injected into the lower lip, labeled neurons were observed in the ipsilateral otic ganglion. The present study indicates the presence of parasympathetic vasodilator fibers originating from the otic parasympathetic ganglion in the guinea-pig lower lip, similar to those reported previously in rats, cats, rabbits and humans.     

Cholinergic, nitrergic and peptidergic (Substance P- and CGRP-utilizing) innervation of the horse intestine. A histochemical and immunohistochemical study

The small and large intestine of adult horses were histochemically and immunohistochemically investigated in order to evidence components of the intramural nervous system. The general structural organization of the intramural nervous system was examined by using Nissl-thionin staining as well as the anti-neurofilament 200 (NF200) immunoreaction, which demonstrated the presence of neurons in the submucous as well as myenteric plexuses. The additional presence of subserosal ganglia was shown in the large intestine. Acetylcholinesterase (AChEase) activity was observed in both the submucous and myenteric plexuses. Localization of acetylcholine-utilizing neurons was also evidenced by immunohistochemical reactions for choline acetyltransferase (ChAT) and vesicular acetylcholine transporter (VAChT). With both histochemistry and immunohistochemistry possible cholinergic nerve fibres were detected in the inner musculature. The two possible cholinergic co-mediators Calcitonin Gene-Related Peptide (CGRP) and Substance P (SP) have been investigated by an immunohistochemical approach. CGRP immunoreactivity was detected in roundish nerve cell bodies as well as in nerve fibres of the submucous plexus, whereas SP immunoreactivity was evidenced in nerve fibres of the tunica mucosa, in nerve cell bodies and fibres of the submucous plexus and in nerve fibres of the myenteric plexus. NADPH-diaphorase reactivity, which is linked to the synthesis and release of nitric oxide, was detected in nerve cell bodies and nerve fibres of both the submucous and myenteric plexuses as well as in a subserosal localization of the large intestine. The nitrergic components were confirmed by the anti-NOS (nitric oxide synthase) immunoreaction. Results are compared with those of other mammals and related to the complex intestinal horse physiology and pathophysiology.     

Autonomic innervation of the ocular choroid membrane in the chicken

Summary The distribution pattern of adrenergic fibres innervating the ocular choroid membrane of the chicken was studied by means of fluorescence and electron microscopy. In addition, the origin of these fibres was investigated after superior cervical ganglionectomy. Adrenergic axons reach the choroid, partly forming the perivascular plexuses and partly running in the choroid nerves and the choroidal branches of the ciliary nerves. The axon terminals distribute to the smooth muscle cells of the arterial wall and to the extensive system of smooth muscle cells of the intervascular stroma. After unilateral ganglionectomy, fluorescent fibres almost completely disappeared, and degenerative changes could be observed in the terminal varicosities on both smooth muscle cell populations. These findings suggest that the adrenergic axons either originate from neurones within the ipsilateral superior cervical ganglion, or pass through this ganglion. The persistence of normal terminals in short- and long-term ganglionectomised animals shows that the vasal and intervascular muscle cells of the choroid membrane are provided with both an adrenergic and a cholinergic innervation.This work was supported by grant No 80.00442.04 from the Italian National Research Council (CNR)