T system in ascidian muscle: organization of the sarcotubular system in the caudal muscle cells of Botryllus schlosseri tadpole larvae.

The organization of the sarcotubular system has been examined in the caudal muscle cells of the ascidian. Botryllus schlosseri. At variance with striated muscle of other protochordates. Botryllus muscle cells are endowed with a well-developed T system, which has a peculiar laminar structure. The thin T laminae are in continuity with the plasma membrane and extend longitudinally in the intermyofibrillar spaces. At the level of the I-band the T laminae are focally associated with SR cisternae in dyad junctions similar to those observed in invertebrate muscles. These findings are discussed in relation to the origin of the sarcotubular system in vertebrate muscle.     

The T-tubule system in the myocardia of the sand rat and mouse as demonstrated by horseradish peroxidase

Summary The transverse tubule (T-tubule) system in papillary muscles of the sand rat and the mouse were studied with the aid of a diffusion tracer (horseradish peroxidase). The T-tubule system in the sand rat showed a typical mammalian pattern with sarcolemmal tubules invaginating at the Z-band level of the sarcomere. These tubules follow a transverse direction in the cell with frequent longitudinal side-branches which connect tubules at different Z-band levels. In the mouse myocardium, the T-tubules also start as lateral invaginations from the sarcolemma at the Z-band levels. In the cell interior, however, the tubules ramify and brake up into a complicated system of spirally running tubules. These spirals, of relative small diameter (400Å–700Å), frequently expand and form lobulated cisternae at the Z-band levels.     

The relationship between nerves and smooth muscle cells in the rat iris

Summary The dilatator muscle cells form short projections into the stroma of the iris. Close to these projections run several nerve bundles. The unmyelinated axons often show enlargements (varicosities) containing mitochondria and vesicles. Several of the varicosities are partly denuded of the Schwann cell and are covered only by a basement membrane. The varicosities are then separated from the muscle cells only by basement membranes and a 0.1–1 stromal space. The ultrastructure of the iris dilatator muscle thus also fits the view that the autonomic ground plexus with its varicosities forms the real innervation apparatus.The smallest space between axon and muscle has a width of 700–900 Å and is cemented with basement membrane material. It is suggested that the main function of these contact sites is not to transmit a nerve impulse but to anchor the nerves to their effector organ.This study has been supported by grants from the Swedish State Research Council (U 267) and the United States Public Health Service (N B 2854-04).     

The Myocardial Ultrastructure of Hemilamprops rosea and Leucon nasica (Crustacea, Cumacea) and its Phylogenetic Implications

The heart wall of Hemilamprops rosea and Leucon nasica is innervated and consists of a single-layered epicardium and a single-layered myocardium. Their heart ultrastructure does not differ. Large lipid-containing cells are found in the heart lumen. The membrane systems conform to the typical eumalacostracan condition, with the isopods as the only exception. The transverse tubular system at the Z- and H-levels is connected by longitudinal tubules. The sarcoplasmic reticulum, which forms a fenestrated sheath around the myofibrils, is continuous across the Z-band and modified at the H-level only. The interior and peripheral couplings are located at the H-level. The posterior and anterior aorta lack contractile material. The aorta valves are bicuspid.     

Further observations concerning the motor innervation of the tensor tympani muscle of the cat

The cat tensor tympani muscle presented an uncommon ultrastructural organization of neuromuscular junctions compared with those in the other striated muscles. In cross sections, individual neuromuscular junctions had very extended contact area of the nerve terminal and muscle fiber, the terminal bouton was covering as a "calyx" the postjunctional muscle fiber. Long basal lamina was interposed between them. The sarcolemma at the level of the nerve terminal had multiple infoldings along its length, or smooth postjunctional muscle membrane was found beneath endings on both fiber types.     

COORDINATED DEVELOPMENT OF THE SARCOPLASMIC RETICULUM AND T SYSTEM DURING POSTNATAL DIFFERENTIATION OF RAT SKELETAL MUSCLE

An electron microscope study has been carried out on rat psoas muscle, during the early postnatal stages of development. Among the several subcellular components, the sarcotubular system undergoes the most striking modifications during this period. In muscle fibers of the newborn rat, junctional contacts between the T system and the SR are sparse and are, mostly, longitudinally or obliquely oriented. The T tubules do not penetrate deeply into the muscle cell, as indicated by the predominantly peripheral location of the triads and the persistence, at these stages of development, of a highly branched subsarcolemmal system of tubules. Diadic associations of junctional SR elements with the plasma membrane are also occasionally observed. The early SR elaborations incompletely delineate the myofibrils, at both the A- and I-band level. Longitudinal sections show irregularly oriented SR tubules, running continuously over successive sarcomeres. Flattened junctional cisterns filled with granular material are sparse and laterally interconnected, at circumscribed sites, with the SR tubules. Between 1 and 2 wk postpartum, transversal triadic contacts are extensively established, at the A-I band level, and the SR network differentiates into two portions in register with the A and I band, respectively. At 10–15 days after birth, the SR provides a transversely continuous double sheet around the myofibrils at the I-band level, whereas it forms a single discontinuous layer at the A-band level. The relationship that these morphological modifications of the sarcotubular system may bear to previously described biochemical and physiological changes of rat muscle fibers after birth is discussed.     

The reorganization of subcellular structure in muscle undergoing fast-to-slow type transformation

Summary Transformation of fast-twitch into slow-twitch skeletal muscle was induced in adult rabbits by chronic low-frequency stimulation and studied at the ultrastructural level. With the use of stereological techniques, a time course was established for changes in mitochondrial volume, sarcotubular system, and Z-band thickness for periods of stimulation ranging from 6 h to 24 weeks. T-tubules, terminal cisternae, and sarcoplasmic reticulum decreased at an early stage and reached levels typical of slow muscle after only 2 weeks of stimulation. Transformation of Z-band structure took place between 11/2 and 3 weeks after the onset of stimulation. Mitochondrial volume increased several fold over the first 3 weeks of stimulation, and fell rapidly after 7 weeks, although it still remained above the levels typical of slow muscle. Although there was no sign of degradation and regeneration of the muscle fibers themselves, considerable structural reorganization was evident at the subcellular level after 1 week of stimulation. The fibers passed through a less well organized transitional stage in which fibers could not be assigned to a normal ultrastructural category. After 3 weeks all of the stimulated fibers could be assigned to the normal slow-twitch category although some subcellular irregularities persisted even after 24 weeks. The ultrastructural alterations are discussed in relation to functional and biochemical changes in the whole muscle.     

Possible axo-axonal synapses between peripheral adrenergic and cholinergic nerve terminals

Summary The relations between adrenergic and cholinergic terminals were studied in rat iris and rat heart with the electron microscope. Adrenergic terminals were identified by treating the animals with 5-hydroxydopamine, which produces dense-cored synaptic vesicles in adrenergic terminals in tissues fixed in glutaraldehyde and osmium. The specificity of this observation was verified. It was found that adrenergic and cholinergic nerve terminals often come in close contact with one another, the distance between the adjoining membranes being about 250 Å. At times, faint membrane thickenings could be observed in these places. The available pharmacological, physiological, and morphological evidence leaves little room for doubt that cholinergic terminal fibres can influence the adrenergic fibres. From mainly morphological evidence, it is also postulated that adrenergic terminals influence cholinergic ones.This work was supported by grants from the United States Public Health Service (06701-04), the Faculty of Medicine, University of Lund, Lund, Sweden and the Swedish Medical Research Council (B70-14X-2321-03 and B70-14X-712-05). Svenska sällskapet för medicinsk forskning.     

Intermediate filaments in the giant muscle cells of the nematode Ascaris lumbricoides; abundance and three-dimensional complexity of arrangements

The body muscle cells of the nematode Ascaris lumbricoides are characterized by massive amounts of intermediate filaments (IF). These occur in all three regions of this giant cell type. They traverse the cytoplasm of the balloon-like belly, which houses the nucleus, and occur as bundles in the arm-like extensions to the nerve. The organization of IF in the third region, the contractile fiber, was analyzed further by serial sections and three-dimensional reconstruction. IF bundles traverse the glycogen-rich lumina of the fiber and reach as baskets around the sarcomeres. Together with numerous dense bodies they form the Z-band-like arrangements. IF bundles reach the plasma membrane at hemidesmosome-like specializations often situated at deep membrane invaginations filled with a fibrillar component of the extracellular matrix. The ultrastructural appearance of IF bundles is connected to the contractional state of the sarcomeres. They appear straight in extended muscle but coil up upon contraction. In the pharynx massive IF bundles are oriented longitudinally. A second type of IF bundles follows the radially oriented sarcomeres. These reveal pronounced Z-band type structures with massive disks. IF surround the sarcomeres and seem to terminate at these disks. We discuss possible functions of the complex IF organization in body muscle and pharynx.     

A comparative study of the organization of the sarcotubular system in ascidian muscle

The caudal musculature of ascidian tadpole larvae consists of mononucleated muscle cells joined end to end in long rows flanking the notochord. A comparative study of the fine structure of these cells in larvae from different families has revealed wide variations in the pattern of organization of the sarcotubular system. The species examined can be distinguished in two groups according to the presence or absence of a system of plasma membrane invaginations equivalent to the T system of vertebrate and invertebrate striated muscle. Muscle cells from the first group of species, Clavelina lepadiformis, Ciona intestinalis and Molgula socialis, are characterized by absence of T system and show peripheral couplings of sarcoplasmic reticulum cisternae directly with the plasma membrane. In contrast, a T system is present in muscle cells of Diplosoma listerianum, Styela plicata and Botrylloides leachi. The presence of T system in ascidian muscle is not related to the taxonomic position of the various species, but rather to the intracellular disposition of the myofibrils, which are peripheral in the species of the first group whereas they occupy a more internal position in the species of the second group. The T system displays unique structural features in ascidian muscle. It consists of wide laminae invaginating from the plasma membrane and associated in longitudinally oriented dyads with sarcoplasmic reticulum cisternae in register with the I band of the myofibrils. It is apparent from these observations that, in contrast with the uniformity of myofibrillar structure in all chordates, there are basic differences between ascidians and vertebrates as regards the organization of the sarcotubular system. On the other hand, there are significant similarities in this respect between ascidian and invertebrate muscle.     

Observations on the cellular localization of dopamine in the caudate nucleus of the rat

Summary The cellular localization of dopamine in the caudate nucleus of the rat hat been studied with the highly sensitive and specific fluorescence method of Falck and Hillarp, and by electron microscopy. The histochemical studies provided strong support for the view that the dopamine is concentrated within very fine nerve fibres which have abundant varicosities with an intense fluorescence. The electron microscopical studies revealed the presence of a tightly packed plexus built up i.a. of abundant synaptic nerve terminals, many of which had a diameter below 0.4 . The terminals made synaptic contact mainly with processes that seemed to belong to an extensive dendrite net.The investigation was supported by research grants from the United States Public Health Service (02854-04), The Swedish Medical Research Council and the Knut and Alice Wallenberg Foundation.     

Submicroscopic changes of the synapse after nerve section in the acoustic ganglion of the guinea pig; an electron microscope study

The degenerative changes of the synaptic regions after nerve section have been studied with the electron microscope in the interneuronal synapse of the ventral ganglion of the acoustic nerve of the guinea pig. Fixation with buffered osmic tetroxide was carried out 22, 44, and 48 hours after destruction of the cochlea on one side; the contralateral ganglion being used as control. The submicroscopic organization of normal axosomatic and axodendritic synapses is described. In the synaptic ending four morphological components are recognized: the membrane, the mitochondria, the synaptic vesicles (19, 20), and the cytoplasmic matrix. The intimate contact of glial processes with the endings and with the surface of the nerve cell is described. At the level of the synaptic junction there is a direct contact of the limiting membranes of the ending and of the cell body or dendrite. Both contacting membranes constitute the synaptic one with a total thickness of about 250 A. This membrane has regions of higher electron density where the synaptic vesicles come into intimate contact and fuse with it. Definite degenerative submicroscopic changes in the nerve endings were observed after 22 hours of destruction of the cochlea and were much more conspicuous after 44 and 48 hours. After 22 hours there is swelling of the ending and decreased electron density of the matrix. Most synaptic vesicles have disappeared or seem to undergo a process of clumping and dissolution. Some mitochondria also show signs of degeneration. After 44 hours the synaptic vesicles have practically disappeared; mitochondria are in different stages of lysis; the membrane of the ending becomes irregular in shape, and there is shrinkage and in some cases detachment of the ending. No changes in the postsynaptic cytoplasm were observed. These observations and particularly the rapid lysis of the synaptic vesicles are discussed in correlation with data from the literature indicating the early alteration of synaptic function and the biochemical changes occurring after section of the afferent nerve. The hypothesis that the synaptic vesicles may be carriers of acetylcholine or other active substances (19, 20) and that they may act as biochemical units in synaptic transmission is also discussed.(2)     

Ultrastructural immunocytochemical localization of luteinizing hormone-releasing hormone (LH-RH) in the median eminence of the guinea pig

Summary LH-RH was localized at the ultrastructural level in axons and nerve terminals of the median eminence of the male guinea pig. LH-RH positive neuronal profiles were most concentrated in the medial-dorsal aspect of the infundibular stalk and in the post-infundibular median eminence at the level immediately following separation of the stalk from the base of the brain. LH-RH containing axon profiles were most abundant in the palisade zone; nerve terminals in contact with the hypophysial portal vasculature were relatively rare. The hormone was present within granules that measured 900–1,200 Å in axons of the palisade zone and 400–800 Å in nerve terminals abutting on the portal plexus. The differently sized granules represent heterogeneous populations.Supported in part by U.S. Public Health Service grant HD-09636 from the National Institutes of Health and RR-00167 to the Wisconsin Regional Primate Research Center from the National Institutes of Health. Primate Center Publication No. 15-031The authors wish to thank Dr. Sandy Sorrentino, Jr. for the gift of antiserum to LH-RH and Dr. Ludwig Sternberger for the peroxidase.antiperoxidase complex     

Three-dimensional structure of a vertebrate muscle Z-band: implications for titin and alpha-actinin binding

The Z-band in vertebrate striated muscles, mainly comprising actin filaments, alpha-actinin, and titin, serves to organise the antiparallel actin filament arrays in adjacent sarcomeres and to transmit tension between sarcomeres during activation. Different Z-band thicknesses, formed from different numbers of zigzag crosslinking layers and found in different fibre types, are thought to be associated with the number of repetitive N-terminal sequence domains of titin. In order to understand myofibril formation it is necessary to correlate the ultrastructures and sequences of the actin filaments, titin, and alpha-actinin in characteristic Z-bands. Here electron micrographs of the intermediate width, basketweave Z-band of plaice fin muscle have been subject to a novel 3D reconstruction process. The reconstruction shows that antiparallel actin filaments overlap in the Z-band by about 22-25 nm. There are three levels of Z-links (probably alpha-actinin) in which at each level two nearly diametrically opposed links join an actin filament to two of its antiparallel neighbours. One set of links is centrally located in the Z-band and there are flanking levels orthogonal to this. A 3D model of the observed structure shows how Z-bands of different widths may be formed and it provides insights into the structural arrangements of titin and alpha-actinin in the Z-band. The model shows that the two observed symmetries in different Z-bands, c2 and p12(1), may be attributed respectively to whether the number of Z-link levels is odd or even.     

Alterations of the Z-band in cardiac and skeletal muscles.

The heart muscle may react to various hypoxic damaging effects (e.g.N2, CO, haemorrhagic shock, electroshock) by identical responses similarly as in the case of skeletal muscle damages. One of the early manifestations of the process is the alteration of the Z-band, which is considered pathological. The alterations of the Z-band region precede the changes of the mitochondrial and sacrotubular systems and might form the morphological basis of functional changes induced by hypoxic effects. The alterations observed are differentiated from the hypertrophy of the Z-band. In the development of the alterations of the Z-band the role of other factors (e.g. calcium metabolism, sacroplasmatic membrane changes) is emphasized.     

The influence of hypokinesia on free calcium cation content in myocytes of rat skeletal muscles and myocardium

The influence of hypokinesia on the content of free Ca²⁺ and the level of NAD(P)H in myocytes of rat skeletal muscles and myocardium, and microviscosity of myocyte membranes was investigated. It has been found that hypokinesia increased the free Ca²⁺ content and NAD(P)H level in myocytes of skeletal muscles and myocardium. Alterations of structural-functional properties of membrane that appeared as an increase of membrane fluidity in the regions of lipid bilayer and protein-lipid contact were observed only in skeletal muscles. It was supposed that an increase of calcium cation level in myocytes stimulated the activity of enzymes involved in the apoptosis process that results in the decrease of muscle tissue mass.     

Rhopalia are integrated parts of the central nervous system in box jellyfish

In cubomedusae, the central nervous system (CNS) is found both in the bell (the ring nerve) and in the four eye-bearing sensory structures (the rhopalia). The ring nerve and the rhopalia are connected via the rhopalial stalks and examination of the structure of the rhopalial stalks therefore becomes important when trying to comprehend visual processing. In the present study, the rhopalial stalk of the cubomedusae Tripedalia cystophora has been examined by light microscopy, transmission electron microscopy, and electrophysiology. A major part of the ring nerve is shown to continue into the stalk and to contact the rhopalial neuropil directly. Ultrastructural analysis of synapse distribution in the rhopalial stalk has failed to show any clustering, which indicates that integration of the visual input is probably spread throughout the CNS. Together, the results indicate that cubomedusae have one coherent CNS including the rhopalia. Additionally, a novel gastrodermal nerve has been found in the stalk; this nerve is not involved in visual processing but is likely to be mechanosensory and part of a proprioceptory system.This work was supported by grants 621-2002-4873 from the Swedish Research Council to D.-E. Nilsson and 21-2204-04 from the Danish Research Council to A. Garm.     

THE ACROSOME REACTION IN MYTILUS EDULIS : I. Fine Structure of the Intact Acrosome

The intact acrosome of the Mytilus edulis spermatozoon consists of a conical vesicle, the basal side of which is deeply invaginated so that the whole vesicle forms a sheath around a very slender axial rod, about 2.7 µ long, inserted in a tube passing through the nucleus. The annular base of the acrosomal vesical is filled with a homogeneous substance; the outer wall of the vesicle is lined with a somewhat irregular layer of a particulate substance interspersed with very fine tubular elements, and its lumen is nearly filled by a strand of material which extends from the inner tip of the invagination to the apex of the acrosome. The lumen of the invagination appears empty except for the rod and a delicate sleeve-like structure which surrounds it. The plasma membrane of the sperm cell lies in immediate contact with the acrosomal membrane over its whole outer surface. In its general organization, this molluscan acrosome shows a rather close homology with that of the annelid Hydroides.     

Common antigens of stable group A streptococcal L forms and muscle fibers of human myocardium]

The immunofluorescence method was used to demonstrate that the antigens of stable streptococcus L-forms and of the cytoplasmic membrane of human myocardium muscle fibers were common. The common antigen was included into the composition of the surface membrane of the muscle cell adjacent to the sarcolemma, and of the transverse tubule membranes of the sarcoplasma reticulum passing in the Z-band region of the muscle fiber sarcomeres. The reactions is completely prevented by the exhaustion of the anti-serum to the antigen of the L-forms with the homogenate of human myocardium tissues or a suspension of the L-form cultures grown both on meat and on casein media. Exhaustion with tissue homogenate of other organs (the liver) or with concentrated nutrient medium practically failed to influence the extent of this reaction. The authors believe that the commonnes of the antigens of stable L-forms of streptococcus, group A, cultures and of the myocardium could serve as one of the causes of prolonged persistence of L-forms in human and animal organism.     

A simple model for the two dimensional blood flow in the collapse of veins

Veins in the cardiovascular system may collapse if the internal pressure is less than the external pressure. Such collapse or buckling will have important consequence in terms of the rate of blood flow. Here a steady, parallel unidirectional flow as an exact solution of the continuity and the Navier Stokes equations is constructed. Various stages of the deformation process of the elastic tube (before contact of opposite sides occurring), from an ellipse to a `strongly buckled' configuration, are obtained in analytical forms as a by-product of the calculations. The pressure – area and the pressure – flow rate diagrams computed numerically from the model agree with the trends measured experimentally. Partial Financial Support has been provided by the Research Grants Council Contract HKU 7184/04E.