The sphincter of the efferent filament artery in teleost gills: I. Structure and parasympathetic innervation

Previous studies have shown the existence of a sphincter in the efferent filament artery of the teleost gill and its constrictory response to acetylcholine (ACH) and vagal stimulation. This study deals with the muscular organization of this sphincter and the distribution of its innervation as elucidated by degeneration methods and cytochemistry. The sphincter innervation is supplied by the protrematic vagus nerves. Nerve endings filled with cholinergic-type vesicles are located in close association with the adventitial smooth muscle cells and display a strong acetylcholinesterase (ACHE) activity. Section of the protrematic vagus nerve induces a nearly complete degeneration of the sphincter innervation. ACHE-positive nerve cell bodies are present both in the sphincter area and in the protrematic vagus nerve. These results suggest that innervation of the sphincter in the efferent filament artery is cholinergic through the activity of postganglionic axons of the parasympathetic system.     

The ultrastructure of the cardiac ganglion of the desert scorpion,Paruroctonus mesaensis (Scorpionida: Vaejovidae)

Light and electron microscopy of the pacemaker ganglion of the scorpion heart indicate that it is about 15 mm long and 50 μm in diameter and extends along the dorsal midline of the heart. The largest cell bodies (30–45 μm in diameter) occur in clusters along the length of the ganglion. The ganglion appears to be innervated with fibers from the subesophageal and first three abdominal ganglia. The cardiac ganglion is surrounded by a neurilemma and a membranous sheath. The latter is apparently derived from connective tissue cells seen outside the ganglion. Nerve fibers other than those in the neuropil areas are usually surrounded by membrane and cytoplasm of glial cells. Often there are several layers of glial membrane, forming a loose myelin. The cardiac nerves to the heart muscle are also surrounded by a neurilemma, and the axons are surrounded by glia. The motor nerves contain lucent vesicles 60–100 nm and opaque granules 120–180 nm in diameter. In the cardiac ganglion, some nerve cell bodies have complex invaginations of glial processes forming a peripheral trophospongium. In the neuropil areas, nerve cell processes are often in close apposition. The septilaminar configuration typical of gap junctions is common, with gap distances of 1–4 nm. In tissues stained with lanthanum phosphate during fixation, we found gaps with unstained connections (1–2 nm diameter) between nerve-nerve and glial-nerve cell processes. Annular or double-membrane vesicles in various stages of formation were also seen in some nerve fibers in ganglia stained with lanthanum phosphate. Nerve endings with electron-lucent vesicles 40–60 nm in diameter are abundant in the cardiac ganglion, suggesting that these contain the excitatory transmitter of intrinsic neurons of the ganglion. Less abundant are fibers with membrane-limited opaque granules, circular or oblong in shape and as much as 330 nm in their longest dimension. Also seen were some nerve endings with both vesicles and granules.     

Abnormal enwrapment of intramuscular axons by distal Schwann cells with defective basal lamina in the muscular dysgenic mouse embryo

In the muscular dysgenic (mdg/mdg) mouse embryo, both muscle and nerve are affected early during embryogenesis, from Embryonic Day 13 (E13). We now find that the mutation affects not only the degree of differentiation of the muscle and the pattern of motor innervation but also the relationship between Schwann cell and axon. We studied the sciatic nerve of normal and mdg/mdg embryos between E13 and E18 at the ultrastructural level. We found that in mdg/mdg nerve, (1) Schwann cells do not totally enwrap the growing axons in their most distal part, close to the growth cone, and (2) the terminal Schwann cells do not correctly surround the nerve endings and seal the corresponding synaptic contacts. Moreover, both types of mutant Schwann cell lack a normal electron-dense basal lamina. We found that there is an excess of axons relative to the Schwann cell population in the intramuscular portions of the mdg/mdg sciatic nerve. Our observations point toward a possible defect of the mechanism of migration and maturation of Schwann cells. Such a defect may in turn affect primarily or secondarily the mutual influences between Schwann cell and axon and lead to some or all of the major abnormalities observed in the mdg/mdg neuromuscular system, namely, multifocal polyinnervation, immature axon-myotube contacts, and abnormal T-tubule-sarcoplasmic reticulum junctions.     

The finestructure of nerve branches and neuromuscular junctions in the coxal adductor of the cockroach, Gromphadorhina portentosa

The neuromuscular junctions of a fast coxal adductor of Gromphadorhina portentosa show great variability in both axon terminal diameter and extent of post-junctional sarcoplasmic specializaton. Finestructural equivalents of both cone and brush type nerve endings are present. The large motor axons innervating this muscle are surrounded by a pervasive lemnoblast sheath, leaving the axon surface exposed only in the area of synaptic contact. Connective tissue covers the nerve and fills the spaces between sheath cell processes in the nerve trunk, but is lost after it enters the muscle. The role of sheath cells in nerve function is discussed in the light of these findings.     

Earliest lymphoid colonization of neonatal rat lymph nodes: an antigen-specific process?

The present work studied the little known process of lymphoid cell colonization of neonatal lymph nodes, while considering the nodal site of entry of circulating lymphoid cells and the either random or antigen-specific character of the process. Tissue sections of a mesenteric, cervical and popliteal node from each of 57 rats, aged 4 hours to 3 weeks, were analysed. Observations bear on the relative importance of the implication of the subcapsular sinus versus venules of nodes, and the composition of their emerging lymphoid cell population by determining the proportion of lymphocytes and blast-related cells. At 16-20 hours after birth, cell counts yielded a mean proportion of 84% for blast-related cells which decreased to 18% at 3 weeks. These percentages are compatible with values expected for a selective antigen-specific entry of lymphoid cells in nodes, not with values that would result from a random entry of lymphocytes. Moreover, observations revealed that by far most colonizing cells initially enter nodes carried by the afferent lymph, little via their venules.     

Outgrowing nerves in the foreleg of a mouse embryo as viewed by three-dimensional reconstruction from electron micrographs

Electron micrographs from serial cross-sections of 12-day-old mouse forelegs were digitized and three-dimensional reconstruction of the data was carried out on an Apple Macintosh Quadra 700 computer using a program especially designed for this purpose. Two nerve endings of the palmar net of the median nerve were visualized together with their accompanying Schwann cells and the surrounding processes of fibroblasts. Naked axons invade straightly into the embryonic connective tissue and serve as contact guidance for the Schwann cells to follow. Fibroblasts with long processes extend around the axons with a parallel orientation. Contacts between axons and fibroblasts are occasionally observed. It is unclear whether the parallel orientation of nerve endings and fibroblast extensions have any biological significance.     

猕猴声带肌运动神经终末特点的研究

本文通过银法对猕猴声带肌运动神经终末和运动终板的形态进行了观察。发现声带肌与四肢肌不同，除肌纤维纤细，排列不甚紧密度，其神经支配比较丰富，运动终板数目较多，形态多姿。本观察对研究各种动物声带肌的运动神经终末特点提供比较解剖学资料。     

Ultrastructural and immunocytochemical studies of neuromuscular junctions in oviduct of Locusta migratoria

The ultrastructure of nerve endings in the oviduct visceral muscles of Locusta migratoria was studied by electron microscopy and by immunogold labeling for two kinds of neuromodulators, the pentapeptide proctolin and FMRFamide-related peptides. Nerve endings contained electron-lucent round vesicles and two kinds of granules (round and avoid), and formed two types of synapses or release sites with the muscle. The morphologically distinct nerve endings were classified into three different categories based on the composition of synaptic vesicles and granules. Type-I nerve endings were dominated by electron-lucent round vesicles and contained only a few round electron-dense granules. Type-II nerve endings contained mostly electron-dense round granules and electron-lucent round vesicles. A few electron-dense ovoid granules were also present. Electron-dense ovoid granules dominated the type-III nerve endings, which usually contained less electron-lucent vesicles than either type-I or II nerve endings. Both proctolin and FMRFamide-like immunoreactivity was associated with electron-dense round granules. However, FMRFamide-like immunoreactivity was only found in the type-II nerve endings, while proctolin immunoreactivity was found within type-I nerve endings as well as in some type-II nerve endings. Immunological results therefore allow us to further divide type-II nerve endings into type-IIa (immunonegative for proctolin) and type-IIb (immunopositive for proctolin). Type-III nerve endings show no immunolabeling to either proctolin or FMRFamide.     

Histochemical study on the innervation of the heart of Pteropus giganteus.

Histochemical study of the innervation of the heart of the Indian flying fox Pteropus giganteus has been made using Coupland and Holmes' technique for cholinesterase. Distribution of nerve plexuses in the heart wall has been described. Nerve cells, nerve endings and various types of synapses have been reported. Specialized muscle fibres are found to contain less nerve fibres and conduction of the impulse of contraction is reported to take place through muscle fibres.     

The fine structure of the ganglia of the guinea-pig trachea

Summary The parasympathetic ganglia of the guinea-pig trachea have been investigated by scanning and transmission electron microscopy. They are covered by a continuous perineurium and connective tissue is found between the neural elements. Blood vessels inside the ganglia have continuous endothelia and are sometimes accompanied by pericytes and a sheath of perineurial cells. Individual neuronal cell bodies and large processes are almost completely covered by a thin layer of satellite cells, except for very small areas that directly face the basal lamina and connective tissue space. Nerve fibres are also completely and individually ensheathed by Schwann cell processes; naked fibres are not found. In some regions of the nerve cell body, there are complex interdigitations between short neuronal processes and satellite cells. Large differences in the size of neurons may indicate the presence of different neuronal populations. Nerve endings containing mainly small clear vesicles are the most common type, and these form synapses on dendrites, but some profiles have many large granular vesicles. These ganglia resemble other parasympathetic, sympathetic and sensory ganglia and not the enteric ganglia. However, an unusual feature of the cytoplasm of the satellite and Schwann cells is the abundance of 10 nm intermediate filaments.     

The cytoarchitecture of the wall and the innervation pattern of the microvessels in the rat mammary gland: a scanning electron microscopic observation

This report describes the morphology of the smooth muscle cells, pericytes, and the perivascular autonomic nerve plexus of blood vessels in the rat mammary gland as visualized by scanning electron microscopy after removal of connective-tissue components. From the differences in cellular morphology, eight vascular segments were identified: 1) terminal arterioles (10-30 microns in outer diameter), with a compact layer of spindle-shaped and circularly oriented smooth muscle cells; 2) precapillary arterioles (6-12 microns), with a less compact layer of branched smooth muscle cells having circular processes; 3) arterial capillaries (4-7 microns), with " spidery " pericytes having mostly circularly oriented processes; 4) true capillaries (3-5 microns), with widely scattered pericytes having longitudinal and several circular processes; 5) venous capillaries (5-8 microns), with spidery pericytes having ramifying processes; 6) postcapillary venules (10-40 microns), with clustered spidery pericytes; 7) collecting venules (30-60 microns), with a discontinuous layer of circularly oriented and elongated stellate or branched spindle-shaped cells which may represent primitive smooth muscle cells; and 8) muscular venules (over 60 microns), with a discontinuous layer of ribbon-like smooth muscle cells having a series of small lateral projections. No focal precapillary sphincters were found. The nerve plexus appears to innervate terminal arterioles densely and precapillary arterioles less densely. Fine nerve fibers are only occasionally associated with arterial capillaries. Venous microvessels in the rat mammary gland seemingly lack innervation.     

The development of innervation in the rat atrioventricular node

Summary The problem of development of the innervation of the rat atrioventricular node has been investigated by electron microscopy. Nerve bundles appear in relation to the node as early as the second postnatal day and vesiculated axons are seen throughout the entire node by the fourth day. Intimate contacts between nodal cells, axons and terminal varicosities are frequently observed.Use of the 5-hydroxydopamine tracer technique has enabled the identification of both cholinergic and adrenergic axons. It is concluded that the node has a dual innervation although cholinergic endings far outnumber those classified as adrenergic on the sixth postnatal day.These results are quite different to earlier findings made at the light microscope level and the discrepancies are discussed with respect to the histochemical techniques used. The suggestion that nodal differentiation is induced by nerves is considered in relation to the differences in cholinesterase activity exhibited by nodal cells during normal development and following neonatal sympathectomy.     

Migration patterns of dendritic cells in the rat: comparison of the effects of gamma and UV-B irradiation on the migration of dendritic cells and Lymphocytes

To further define the underlying mechanisms of immune suppression induced by UV-B irradiation, we have examined the kinetics of homing patterns of in vitro UV-B-irradiated and gamma-irradiated-thoracic duct lymphocytes (TDL) compared to dendritic cells (DC). Our findings show that 111In-oxine-labeled TDL specifically home to the spleen, liver, lymph nodes, and bone marrow with subsequent recirculation of a large number of cells from the spleen to lymph nodes. In contrast, DC preferentially migrate to the spleen and liver with a relatively insignificant distribution to lymph nodes and an absence of subsequent recirculation. Splenectomy prior to cell injection significantly diverts the spleen-seeking DC to the liver but not to the lymph nodes, while the homing of TDL to lymph nodes is significantly increased. In vitro exposure of 111In-oxine labeled TDL to gamma irradiation does not significantly impair immediate homing to lymphoid tissues but inhibits cell recirculation between 3 and 24 hr. In contrast, gamma irradiation does not affect the tissue distribution of labeled DC, suggesting that DC are more radioresistant to gamma irradiation than TDL. Unlike the findings in animals injected with gamma-irradiated cells, UV-B irradiation virtually abolished the homing of TDL to lymph nodes and significantly reduced the homing of the spleen-seeking DC to the splenic compartment while a large number of cells were sequestered in the liver. The results of in vitro cell binding assay show that TDL, unlike DC, have the capacity to bind to high endothelial venules (HEV) within lymph node frozen sections while gamma and UV-B irradiation significantly inhibit the binding of TDL to lymph node HEV. These findings suggest that: (i) DC, unlike TDL, are unable to recirculate from blood to lymph nodes through HEV; (ii) although gamma irradiation impairs TDL recirculation, it does not affect DC tissue distribution; and (iii) UV-B irradiation impairs both TDL and DC migration patterns. We conclude that the lack of capacity of irradiated TDL to home to lymph nodes is due to damage to cell surface homing receptors and that the failure of DC to home to the lymph node microenvironment is related to the absence of HEV homing receptors on their cell surface.     

Expression of low levels of peripheral lymph node-associated vascular addressin in mucosal lymphoid tissues: possible relevance to the dissemination of passaged AKR lymphomas

Lymphoid tumors display a wide variety of growth patterns in vivo, from that of a solitary extralymphoid tumor, to a general involvement of all lymphoid organs. Normal lymphocytes are uniquely mobile cells continuously recirculating between blood and lymph throughout much of their life cycle. Therefore, it is reasonable to propose that disseminating malignant lymphocytes may express recirculation characteristics or homing properties consistent with that of their normal lymphoid counterparts. Trafficking of lymphocytes involves the expression and recognition of both lymphocyte homing receptors and their opposing receptors on endothelium, the vascular addressins. These cell surface elements direct the tissue-selective localization of lymphocyte subsets in vivo into organized lymphoid organs and sites of chronic inflammation where specific binding events occur between lymphocytes and the endothelium of specialized high endothelial venules (HEV). In a recent murine study of 13 lymphoma lines, we found that lymphomas that bind well to high endothelial venules, in the Stamper-Woodruff in vitro assay (an assay of lymphocyte binding to venules in frozen sections of peripheral lymph nodes or Peyer's patches), spread hematogenously to all high endothelial venule bearing lymphoid organs, whereas non-binding lymphomas did not. In some cases lymphomas that bound with a high degree of selectivity to peripheral lymph node (PLN) high endothelial venules exhibited only limited organ preference of metastasis, involving the mucosal lymphoid organs Peyer's patches (PP) in addition to the peripheral lymph nodes of adoptive recipients. Here we demonstrate that Peyer's patch high endothelial venules express a low but functional level of peripheral lymph node addressin (MECA-79) that can be recognized by lymphomas expressing the peripheral lymph node homing receptor (MEL-14 antigen).(ABSTRACT TRUNCATED AT 250 WORDS)     

Structure and Innervation of the Inner Ear Sensory Organs in an Otophysine Fish,the Upside–down Catfish (Synodontis nigriventrisDavid)

All the sensory epithelia of the inner ear in the upside–down catfish (Synodontis nigriventrisDavid) were examined by light microscopy. The morphology of the membranous labyrinth and the orientation of the hair cells is similar to what has been found in other otophysine fishes. The sensory cells are of variable size both inter– and intraepithelially; particularly the macula sacculi is equipped with heterogeneous receptors. Regional differences in the hair cell density are presented for all the otolith organs plus the papilla neglecta. Nerve stainings reveal regional differentiation. The central areas are innervated by stout and stubbly nerve endings intermingled with a few thin nerve fibres while the peripheral parts are reached exclusively by thin axons. In the anterior region of the macula sacculi are found unique cup–shaped axon terminations which surround the basal parts of a single or a few sensory cells. The number and diameter range of the myelinated nerve fibres as well as the hair cell/axon ratio are presented. Electron microscopy demonstrates the presence of unmyelinated axons in all inner ear nerve ramuli.     

Glial cells in peripheral nerves of the cockroach, Periplaneta americana

The ultrastructural organization and the junctional complexes of peripheral nerves have been investigated in the cockroach Periplaneta americana. Nerve 5 is surrounded by a layer of connective tissue, the neural lamella, beneath which is a layer of perineurial glial cells wrapping the axons. Adjacent perineurial cells are joined to one another by septate, gap and tight junctions. Septate and gap junctions were observed in freeze-fracture replicas of main trunk nerve 5. Septate junctions were found as rows of PF particles mainly in perineurial cell membranes. Gap junctions exhibited EF macular aggregates in perineurial and subperineurial glial cells. During incubations in vivo with extracellularly applied ionic lanthanum, the lanthanum did not penetrate beyond the perineurium. Where nerve 5 branches and contacts the muscle, lanthanum penetrated freely between the muscle fibres and the nerve branches. In small peripheral branches where the axons are surrounded by single a glial layer, lanthanum is unable to penetrate to the axolemma.     

Morphology and chemical characteristics of subepithelial laminar nerve endings in the rat epiglottic mucosa

The laminar nerve endings are distributed in the laryngeal mucosa, and described as sensory receptors evoked by laryngeal pressure changes. The present study aimed to determine detailed morphological characteristics of the laryngeal laminar endings of the rat. Immunohistochemistry for Na(+)-K(+)-ATPase, α(3) subunit, showed that laminar endings were distributed in the entire laryngeal surface of the epiglottis. The parent axons of the endings were thick in diameter, and they were branched and continued to the endings. In some cases, several endings from different parent axons fused into a large complex structure of 500 μm in width. The laminar endings were also immunoreactive for vesicular glutamate transporter 1 (vGLUT1) and vGLUT2, but not for P2X(3) purinoceptor. Around the laminar endings, terminal Schwann cells with immunoreactivity for S-100 protein were closely associated with axon terminals. Use of scanning electron microscopy with alkaline maceration method showed that the terminal Schwann cells consisted of a rounded perinuclear region and lamellar cytoplasmic processes. Ultrastructurally, axon terminals with numerous mitochondria were partly covered with Schwann cell sheath, and some terminals intruded into the epithelial layer. Clear vesicles of 50 nm in diameter were also observed especially in small cytoplasmic processes of 400 nm to 1 μm in size. The results in the present study suggested that the laminar endings in epiglottic mucosa have morphological characteristics of slowly adapting mechanoreceptors and contribute to sensation of laryngeal pressure via mucosal tension.     

Combination of non-specific cholinesterase histochemistry and immunofluorescence staining for the study of the sensory innervation of skin and muscle

Summary In the present study we describe the application of the non-specific cholinesterase (nChE) histochemical method for the detection of encapsulated sensory nerve endings prior to immunofluorescence staining of the sensory nerve fibres. The nChE staining of Schwann-derived structures surrounding sensory terminals allowed us to identify unequivocally the sensory corpuscles in the skin and the muscle proprioceptors (muscle spindles and Golgi tendon organs) in longitudinal sections of muscle tissue. The nChE staining of sensory nerve endings and immunofluorescence-labelled nerve fibres and their terminals could be viewed and photographed in the same section using appropriate filters. Since nChE activity persists in terminal Schwann cells for a long time after loss of the sensory axons, this combined enzyme- and immunohistochemical approach is also useful for experimental studies involving denervation and re-innervation of sensory nerve endings.     

Development of the myotomal neuromuscular junction in Xenopus laevis: An electrophysiological and fine-structural study

The normal development of the myotomal neuromuscular junction in Xenopus embryos and tadpoles was investigated electrophysiologically as well as electron microscopically. Spontaneous potentials, considered to be miniature end-plate potentials (MEPPs), were detected by intracellular recording as early as stage 21 and by stage 24 they were observed in every embryo tested. Like MEPPS at later stages they were blocked by curare but not by tetrodotoxin. End-plate potentials (EPPs), subject to block by tetrodotoxin, were evoked by electrical stimulation of the spinal cord in embryos as young as stage 24 and occurred spontaneously as early as stage 22. The durations of MEPPs and EPPs were initially relatively long. Focal external recordings revealed an eightfold decrease in duration during the course of development. Nerve processes emerged from the spinal cord and contacted developing muscle cells as early as stage 21, but junctional specializations were not apparent and vesicles were rare even in stage 24 embryos. During the next 24 hr, between stages 25 and 36, vesicles increased in number and became localized toward the junctional surface of the nerve ending. Basement lamina developed in the cleft and postjunctional ridges and densities were observed. Individual muscle cells also became contacted by several nerve processes. By stages 48–52 there were fewer contacts on individual muscle cells and Schwann cell processes partially covered the nerve endings. Gap junctions were observed between the muscle cells throughout development but occurred less frequently at the later stages. It is concluded that by the time they reach the muscle cells, or very shortly thereafter, at least some of the growing nerve processes can release transmitter, and some of the muscle cells are sufficiently sensitive to acetylcholine in the region of contact to respond with millivolt depolarizations. These earliest functional contacts, however, are morphologically undifferentiated.     

Fluoride-resistant acid phosphatase (FRAP) activity of nociceptive nerve terminals in the dental pulp

Nerve fibers in the dental pulp of the lower molar teeth of the rat exert fluoride resistant acid phosphatase (FRAP) activity. FRAP-positive axons establish a three-dimensional nerve plexus within the pulp; the individual axons are very fine (calibre less than 1 micrometer) and only their varicosities measure 1...2 micrometer in diameter. Electron microscopically, FRAP-positive amyelinate axons containing lysosomes are partly embedded in Schwann cells. Removal of the cervical superior ganglion does not induce any alteration of FRAP-positive axons, while destruction of the Gasserian ganglion results in Wallerian degeneration. No FRAP-positive nerve fibers were found in rat incisors. Since, in the rat, only molar teeth are equipped with nociceptive terminals while continuously growing incisors lack pain fibers, it is concluded that FRAP-positive varicose axons in the dental pulp represent nerve endings of trigeminal primary nociceptive neurons.