Innervation of the urinary bladder of Ovis aries L

The authors have extended a preliminary study about the innervation of urinary bladder, confirming the previous results pointing out the presence of metasympathetic ganglions in the wall of urinary bladder. Therefore nine urinary bladders of Ovis aries of different age and both sexes have been studied by Ruffini, Bodian and Bielschowsky's staining methods. It's possible summarize the data on the innervation of urinary bladder in the following way: in the tunica adventitia there are motor and sensitive bundles of myelinated nervous fiber. The formers, after many divisions, penetrate into the tunica muscularis contacting bundles of smooth muscle fibers, while the latters after several divisions after giving rise to thinner bundles, produce Pacini-like and Ruffini-like sense corpuscles and free nervous terminations. Furthermore, some metasympathetic ganglions of different size have been detected throughout the running of the bundles. In the tunica submucosa a diffuse and peculiar non myelinated network is observed, arising from the vegetative nervous fibers.     

Morphologic changes in the nervous apparatus of the pharynx, esophagus and stomach of cats following a single gravitational stress]

Under investigation were the pharynx, oesophagus and stomach of 23 cats subjected to a single maximum endurable gravitation stress. The material was treated after Bielschowski-Gross. It has been established that as early as within 48--72 hours after gravitation effects there appear changes of different elements of the nervous apparatus of the organ under study such as increased argirophilia of nervous structures and reactive changes of different sensory nerve terminations. Motor animal nerve terminations do not change. Most of myelinated afferent fibres and non myelinated vegetative fibres undergo reactive changes. Within 7 days there appear certain myelinated fibres which are in the stage of granular desintegration,     

The anatomy and physiology of the stomatogastric nervous system ofSquilla

Summary The stomatogastric nervous system of a mantis shrimp,Squilla oratoria, is described. The motor nerves of the stomatogastric ganglion (STG) and their innervation of muscles of the posterior cardiac plate (pcp) and pyloric systems are detailed.The STG contains more than 25 neurons. It sends out one pair of major output nerves. The pcp-pyloric cycle recorded from the motor axons in this nerve consists of rhythmic bursts of several units which fire with a characteristic phase relationship to each other. The rhythm is intrinsic to the STG itself, but it is modifiable.Recordings from the peripheral nerves reveal that identifiable cardiac plate, pyloric dilator and pyloric neurons control sequential contractions of the pcp and pyloric muscles to constrict or dilate a number of their attached ossicles.Several modulatory input fibres in the stomatogastric nerve, activated via stimulation of the superior or inferior oesophageal nerve (son, ion), prime or trigger the cyclic motor outputs. The son inputs induce distinct effects on the cardiac and pcp-pyloric pattern generators, while the ion inputs, via the oesophageal ganglion, excite only the pcp-pyloric generator.On the basis of anatomical and physiological observations, the possible functions of motor neurons involved in the pcp-pyloric cycle are described with reference to opening of the pcp and pyloric channels.This stomatogastric nervous system inSquilla is compared to that in decapods which has been well analyzed.Abbreviations CG commissural ganglion - ion inferior oesophageal nerve - lvn lateral ventricular nerve - OG oesophageal ganglion - pep posterior cardiac plate - son superior oesophageal nerve - STG stomatogastric ganglion - stn stomatogastric nerve - ivn inferior ventricular nerve     

Features of the motor innervation of striated muscle tissue of the esophagus

By means of neurohistological, histochemical and ultramicroscopical techniques it has been revealed that motor innervation of the oesophageal striated muscle tissue in rats and rabbits is performed by amyelinated nervous fibers, that terminate as nervous-muscle synapses. Ultrastructural peculiarities of these synapses are presented as a large amount of synaptic vesicles in the axonal terminal, as a poor ramification of secondary synaptic folds, as a considerable amount of mitochondria in the adjoining sarcoplasm. Reaction to acetylcholinesterase demonstrates that most of the motor nervous terminals belong to the racemose type. They are situated in the oesophageal musculature chaotically and have less area than synapses of the muscle of the locomotor apparatus.     

Ultrastructural characteristics of interneuronal and neuromuscular relations in the trunkal part of the intraepidermal nervous system in Nerilla sp. (Archiannelida)

This study deals with ultrastructural analysis of interneuronal and neuromuscular relations in a representative of archiannelid Nerilla sp. with primitive intraepidermal type of the nervous system. A particular attention has been paid to the area of ventral ciliate groove and the associated site of epidermis. In the ciliate groove, sensitive and motor cilia are revealed and described. Sites of axonal terminals of the sensitive cells supplied with cilia are noted in the epidermal nervous plexus. Epidermal-muscular cells and nervous terminals on them are revealed. Various interneuronal contact variants both of non-synaptic and of typically synaptic types are described. An attention is drawn to a rare presence of compounds from the type of tight junctions among interneuronal contacts in Nerilla sp. In sufficiently differentiated synapses of the chemical type, phenomena of exocytosis are described. There are shown specific features of innervation of longitudinal (somatic) musculature of the nerillid body with entrance of synaptic vesicles into the basal plate substance and their translocation into the depth of the muscular layer.     

Morphological changes in the parr masou salmon Oncorhynchus masou retina in experimental change of geomagnetic field

Topography of photoreceptor cells in young salmon Oncorhynchus masou retina, their properties and morphology of cellular organelles in external and internal segments of photoceptors have been first described. Morphological changes of retina cells were analysed in day and night time, and also in the experiment for indemnification of geomagnetic field (GMF) in the body of the aquarium. A comparison of retina structure in fishes of night and day time controls with that in experimental fishes has shown that the external cone segments in the latter occupy, in relation to the external limiting membrane, an intermediate position, characteristic of retinae exposed to twilight lighting. It is supposed that GMF indemnification was equivalent to weak light pulse, which, however, could considerably change melatonin production by retina photoreceptor cells. Thus, at experimental indemnification of GMF, retina sensitive cells demonstrate typical retinomotor response. Some ultrastructural changes in retina cells were also detected, in particular, size changes in ribbon synapses in rod and cone terminations. In addition, nematosomes appeared in the internal nuclear layer, and in the spinules, i.e. digitiform invaginations of terminal dentrites of horizontal cells into cone nervous terminations, the quantity of an electron dense material was noticeably magnified in comparison with a night control. The noted changes testify, in our opinion, to essential modifications in metabolic processes of retina photoreceptors under effect of GMF variations, in particular, to changes in retinal melatonin synthesis.     

The anterior glands of adult Necator americanus (Nematoda: Strongyloidea)—I Ultrastructural studies

The ultrastructure of the amphidial, oesophageal and excretory glands of N. americanus is described. There are two amphidial glands, and each is attached to a lateral hypodermal cord. Anteriorly the glands become associated with the amphidial sense organs. The amphidial glands synthesize complex secretion granules which appear to release their contents into the sense organ. Secretions thus pass over the amphidial cilia and exit via the amphidial pore. It is suggested that the secretory activity of these glands is under direct nervous control. There are three oesophageal glands, and each synthesizes dense secretion granules. The secretions of the oesophageal glands are released into the lumen of the oesophagus and into the buccal capsule. The two excretory glands are ventral in position and connected to the tubular excretory system. These glands synthesize secretion granules of varying density. Secretions from the excretory glands may exit via the excretory pore, or pass back into the tubular excretory system, or both.     

Neuronal connections between central and enteric nervous system in the locust, Locusta migratoria

The number and location of neurons, in the central nervous system, that project into the frontal connective was studied in the locust by using retrograde neurobiotin staining. Staining one frontal connective revealed some 70 neurons in the brain. Most of these were located within both tritocerebral lobes. Additional groups of neurons were located within the deutocerebrum and protocerebrum. Some 60 neurons were labelled in the suboesophageal ganglion. These formed nine discernable populations. In addition, two neurons were located in the prothoracic ganglion and two neurons in the first abdominal neuromere of the metathoracic ganglion. Thus, some 250 neurons located within the head ganglia, and even neurons in thoracic ganglia, project into the ganglia of the enteric nervous system. This indicates that the coordination between the central and enteric ganglia is much more complex than previously thought. With the exception of some previously described dorsal unpaired median neurons and a few motor neurons in the head ganglia, the identity and function of most of these neurons is as yet unknown. Possible functions of the neurons in the thoracic ganglia are discussed.     

John Newport Langley and His Construction of the Autonomic (Vegetative) Nervous System

The paper describes the scientific career of Professor John Newport Langley, an outstanding English physiologist and histologist, member of the London Royal Society and its Vice-President. The main scientific achievements of Langley are dealing with anatomy and physiology of the autonomic (vegetative) nervous system that he considered as an entirely efferent system. The autonomic nervous system was divided by Langley into three parts: sympathetic, parasympathetic, and enteral (intestinal) systems. He has also established functional differences of the autonomic nervous system from the somatic one. He suggested the presence of synaptic contacts on muscle and secretory cells, as well as the existence in these synaptic structures of a peculiar receptor substance providing interaction of nerve fibers with postganglionic neurons and effector cells of visceral organs. The examples of development of several Langley's concepts at present are given.     

Factors that determine the form of neuromuscular junctions of intrafusal fibers in the cat

The form of terminations of fusimotor (gamma) and skeletofusimotor (beta) axons on intrafusal fibers was analyzed in serial sections of 20 spindles of the cat tenuissimus muscle. Seven synaptic features were assessed either qualitatively or quantitatively from electron micrographs of transverse sections of 184 intrafusal and 30 extrafusal endings. Features were compared among endings that were terminations of gamma or beta axons on different types of intrafusal fiber at different distances from the spindle equator. These comparisons indicated that interactions of several factors, and not the motor axon alone, determine the form of motor endings. Intrafusal muscle fiber type is dominant to the motor axon in regulation of the number and depth of postsynaptic folds. Separation of the influence of the motor axon from the muscle fiber was less clear with respect to the size of ending. Complete expression of the muscle fiber-motor axon interaction reflected by the form of motor endings is dependent upon location of the ending relative to the sensory region. Both depth of the primary synaptic cleft and size of the soleplate of motor endings increased with increasing distance of the ending from the spindle equator. A system of classification of cat intrafusal motor endings that reflects the multiplicity of factors that determine the form of endings, and one that simplifies the current terminology, is proposed.     

Inter-operator agreement in decomposition of motor unit firings from high-density surface EMG.

High-density surface EMG can be used to obtain a spatially selective representation of several motor unit action potentials. Recently, a decomposition of the signal into the underlying motor neuron firing patterns has been described. The reliability of the algorithm has not yet been tested. Eleven healthy subjects participated. High-density surface EMG was recorded from the vastus lateralis muscle during an isometric knee extension. Two independent operators analyzed the signals. After operator-supervised cluster analysis of spikes, motor unit action potential templates were constructed and an automatic template matching was performed. The decomposition was adjusted by hand. Agreement between operators was calculated for the number of coincident firings. Bland-Altman plots of peak-to-peak amplitude were constructed and limits of agreement were calculated. For completely decomposed motor unit action potential trains the between-operator agreement of firing events was very high. The peak-to-peak amplitude of monopolar motor unit action potentials was 115microV (SD 74microV). The agreement was within 3microV and independent of amplitude. With partial decomposition agreement within 26microV was achieved. For bipolarly derived motor unit action potentials the peak-to-peak amplitude was 54microV (SD 49microV), the agreement was within 3microV. Only for recordings obtained from a force level below 5% of the maximum voluntary contraction full decomposition was possible. It was concluded that when full decomposition is achieved, two independent operators are likely to arrive at nearly identical firing patterns.     

Anatomy and in vivo activity of neurons connecting the crustacean stomatogastric nervous system to the brain

In decapod crustaceans, the inferior ventricular nerve connects the cerebral ganglia (brain) with the stomatogastric nervous system (STNS). In the ivn of the crayfish, eight axons with diameters between 3.5 microm and 10 microm were found in close proximity to the oesophageal ganglion. Two of these axons terminate with their cell body within the ivn. The projections of the other six axons spread inside many neuropiles of the brain, mainly within the protocerebrum and the neuropils of the first and second antennae. Several fibers also send neurites via the circumoesophageal connectives toward the paired commissural ganglia and further down to the ventral nerve cord. The activity of motoneurons within the STNS and of axons in the ivn was recorded with implanted electrodes before, during and after times of feeding. At the beginning of feeding all tonically active ivn neurons accelerated their discharge rate and initially silent neurons also started to fire. Spike frequency was correlated with the quantity of food consumed. The ivn response was accompanied by a corresponding increase in pyloric frequency and an initiation of a gastric rhythm. The two motor rhythms showed a strong phasic interaction, but there was no phase coupling to the ivn activity.     

Effects of regulatory peptides on the porcine lower oesophageal sphincter

Studies were performed to investigate the effects of neurotransmitters and neurotransmitter candidates (substance P, VIP, somatostatin, Met-enkephalin, gastrin-17, CCK-4 and -8, neurotensin and TRH) of the newly discovered peptidergic nervous system on lower oesophageal sphincter pressure in anaesthetized pigs. All neuropeptides were infused over 2 min periods in 6 different doses, separated by resting periods of at least 1 min, directly into the arterial supply of the lower oesophageal sphincter. Substance P caused a dose-dependent increase in lower oesophageal shpincter pressure; the threshold dose was 9 pmol . kg-1 . min-1 and half maximal response occurred at 72 pmol . kg-1 . min-1. None of the other polypeptides, however, influenced the resting lower oesophageal sphincter. These studies show that substance P is a potent stimulant of smooth muscle in the lower oesophageal sphincter, suggesting that this peptide may be an important regulator of lower oesophageal sphincter pressure.     

Presence of nerve terminations in the episclera of the horse and ass

The episclera of horse and ass is provided, just like in the bovine, with both vegetative and sensitive somatic innervation. The former is constituted by isolated or grouped ganglionic cells located along the course of the nerve bundles. The sensitive nervous component consist, above all, of encapsulated receptors such as Pacini, Pacini-like and Golgi-Mazzoni corpuscles. Most of these are Pacini-like receptors which also show some structural features. In fact they are very small and supplied with a thin capsule and an undivided expansional axon.     

Conditioned reflexes following unilateral damage to the premotor cortex and the dorsal portion of the head of the caudate nucleus in dogs

The study was carried out on dogs by the secretory-motor method with a two-side reinforcement. Simultaneous and unilateral lesion of the premotor cortex and of the dorsal part of the caudate nucleus head brought about prolonged disturbances of the vegetative components (pulse and respiratory rate) and in the choice of the side of food reinforcement. The change in the magnitude of conditioned salivation, latencies of secretion and motor reaction was temporary, and by the end of the third postoperative period their initial magnitudes were restored. The duration of the disturbances of higher nervous activity depended on the localization and extent of lesion of the caudate nucleus head. Tests were made with chlorpromazine and caffeine before and after the lesion of the brain structures. The tests in the postoperative period revealed latent disturbances in the dog higher nervous activity. It is assumed that the premotor cortex and the dorsal part of the caudate nucleus head are one of the sub-systems involved in the regulation of vegetative, somatic components of unconditioned behaviour and in the analysis of conditioned stimuli.     

Medullary motor neurones associated with drinking behaviour of Japanese eels

A fluorescent dye, Evans blue (EB), was injected into the following seven drinking-associated muscles of the Japanese eel Anguilla japonica : the sternohyoid, third branchial, fourth branchial, opercular, pharyngeal, upper oesophageal sphincter and oesophageal body muscles. The sternohyoid muscle promotes 'ingestion', and the remaining muscles contribute to 'swallowing'. All neurones stained by EB were located ipsilaterally in the caudal medulla oblongata (MO) of the Japanese eel. Neurones projecting into the sternohyoid muscle were identified as those in the spino-occipital motor nucleus (NSO), and neurones projecting into the remaining muscles as those in the glossopharyngeal–vagal motor complex (GVC). Within the GVC, the neuronal arrangement was topological, and hence, 'swallowing' will be completed if the GVC neurones 'fire' progressively from rostral to caudal. These neurones in the NSO and GVC may use acetylcholine (ACh) as a neurotransmitter, as the EB-positive neurones in both nuclei were immunoreactive against anticholine acetyltransferase (anti-ChAT) antibody. Besides the MO, some somata in a ganglion of the vagal nerve were also stained by EB injected into the pharyngeal, the upper oesophageal sphincter and the oesophageal body muscles. The localization and the shape of the somata suggest that they are sensory neurones. These sensory neurones were not ChAT-immunoreactive. Combining these results, based on a model for 'swallowing' in mammals, a plausible model for central organization of 'drinking' in the Japanese eel is proposed, which suggests that 'drinking' in the fishes is regulated by the neuronal circuit for 'swallowing' in mammals.     

Dynein-related polypeptides in pollen and pollen tubes

 Microtubules in pollen tubes are evident within the vegetative and generative cell cytoplasm. This observation led to the formulation of several hypotheses regarding the role of microtubules in cytoplasmic movement and the migration of the vegetative nucleus/generative cell along the pollen tube. The study of microtubular motor proteins in pollen tubes followed the discovery and characterization of an immunoreactive homolog of mammalian kinesin in tobacco pollen tubes. Recent identification of dynein-related polypeptides in pollen tubes of Nicotiana tabacum and pollen of Ginkgo biloba is a significant step in the definition of the role of microtubule function within pollen and pollen tubes. Received: 31 May 1996 / Revision accepted: 26 July 1996     

Characteristics of the formation of conditioned defense reactions in monkeys in a primatological chair

Rate of reactions in motor conditioned electro-defensive reflexes and different kinds of internal inhibition, such as acute extinction, differentiation and delay with different retardations, were studied on monkeys in primatological chair. Specificity in formation of conditioned reactions was studied with simultaneous recording of vegetative (respiration and heart rate) and motor conditioned reactions. It has been established, that forming of vegetative and motor components of defensive reflex does not proceed synchronously. At first (2-4 trials) vegetative reactions appear, such as increase of heart and respiration rates. Conditioned motor reactions (legs' jerks) appear later, after 4-9 trials. It has been shown that in monkeys in the primatological chair we have a possibility to form all kinds of negative conditioned defensive reactions: acute extinction, differentiation, delay. Formation of delay inhibition with retardation of 90 s leads to neurotic disorders. But they last only for short periods and disappear after breaks in work. The obtained data are discussed from evolutionary point of view, with a comparative study of specificity of higher nervous activity formation among lower organized vertebrates and with consideration of processes of excitation and inhibition in evolution.     

The avian oesophageal motor function and its nervous control: some physiological, pharmacological and comparative aspects.

1. This paper deals with the avian oesophageal motor function and it attempts to draw some comparative aspects between neural regulation of the avian and mammalian oesophagus. 2. Different from the mammalian oesophagus, the avian oesophagus, presents at rest electrical activity associated to spontaneous contractions. 3. Swallowing elicits peristaltic contraction, characterized by an inhibitory and an excitatory component. 4. Non-adrenergic, non-cholinergic neurons are responsible for the inhibitory component. 5. Contrarily to what observed in mammals, where the peripheral mechanism are important for the peristaltic sequence, the primary peristaltism of birds seems to be entirely mediated by extrinsic nervous system.     

Central nervous sensitization and dishabituation of reflex action in an insect by the neuromodulator octopamine

Habituation of excitatory synaptic inputs onto identified motor neurons of the locust metathoracic ganglion, driven electrically and by natural stimuli, was examined using intracellular recording. Rapid progressive reduction in amplitude of EPSPs from a variety of inputs onto fast-type motor neurons occurred. The habituated EPSPs were quickly dishabituated by iontophoretic release of octopamine from a microelectrode into the neuropilar region of presumed synaptic action. The zone within which release was effective for a given neuron was narrowly-defined. With larger amounts of octopamine applied at a sensitive site the EPSP became larger than normal, and in many instances action potentials were initiated by the sensitized response. Very small EPSPs onto a motor neuron, which were associated with proprioceptive feedback, and which were originally too small to be detected above the noise, were potentiated to a level of several mV by the iontophoresed octopamine. A DUM neuron (presumed to be octopaminergic) was found, whose direct stimulation was followed by a strong dishabituating and sensitizing action leading to spikes, of inputs to an identified flexor tibiae motor neuron. The action and its time course were closely similar to those evoked by octopamine iontophoresed into the neuropil in the region of synaptic inputs to the motor neuron. It is concluded that DUM (octopaminergic) neurons exert large potentiating actions on central neuronal excitatory synaptic transmission in locusts.