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1

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Membrane specializations in the first optic neuropil of the housefly,Musca domestica L. I. Junctions between neurons (1980)

Chi, Che ; Carlson, Stanley D.

Springer

Journal of neurocytology 9 (1980), S. 429-449

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ISSN: 1573-7381

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Thin section and freeze-fracture replicas of the first optic neuropil (lamina ganglionaris) of the flyMusca were studied to determine the types, extent and location of membrane specializations between neurons. Five junctional types are found, exclusive of chemical synapses. These are gap, tight and septate junctions, close appositions between retinular (R) axons and capitate projections (in which an epithelial glial cell invaginates into an R axon). Junctional types and their cellular associations follow: gap junctions, between lamina (L) interneurons, L1–L2; tight junctions, between L1–L2; L3–L4; L4-epithelial glial cell; and R7–R8. Septate junctions, between L1–L2, L3–L4, L3-β, L4-β, α-β, and an unidentified fibre making septate junctions with L1 and L2. Close appositions are found between R axons in the distal portion of the optic cartridges of this neuropil prior to extensive R chemical synapses with L1, L2. These loci (seen in freeze-fracture replicas) have rhomboidal patches of hexagonally arrayed P face particles. Intermembranous clefts between R axons are about 50 Å and are invariably electron lucent. These points of near contact between R terminals are probably the sites of low electrical resistance measured by Shaw (1979). Capitate projections are for the first time revealed in freeze fracture surfaces. Here epithelial glia send many, short, mushroom-shaped processes invaginating into R axons forming a tenacious structural bond. All four membrane leaflets (P and E faces of R axon and glial membrane) in the capitate projection possess particles in higher densities than in the surrounding nonspecialized regions. The known, general functions of each membrane specialization were correlated with the functional capacities of those lamina neurons possessing them in an effort to interpret better the integrative capacity of this neuropil. These data provide some fine structural bases for a putative ‘blood-brain’ barrier between lamina and haemolymph, between lamina and peripheral retina, and possibly between lamina and second optic neuropil.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01204835

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Membrane specializations in the first optic neuropil of the housefly,Musca domestica L. II. Junctions between glial cells (1980)

Chi, Che ; Carlson, Stanley D.

Springer

Journal of neurocytology 9 (1980), S. 451-469

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ISSN: 1573-7381

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Membrane specializations between the three types of glial cells in the first optic neuropil (lamina ganglionaris) of the housefly were determined from thin sections and freeze-fracture replicas. Three strata of glia cells are present in the lamina, A relatively thin layer of satellite glia covers the distal (perikaryal) rind of the lamina and these cells wrap retinular axons that enter the lamina. The central synaptic fields of the lamina neurons are enclosed by epithelial glia, while the proximal surface of the lamina is capped by marginal glial cells. Satellite glia bond to each other via desmosomes, septate and gap junctions. Freeze-fracture replicas show gap junctions as aggregations of E face particles and P face pits on the intramembranous surfaces. Parallel rows of P face particles are indicative of septate junctions. Angulated, intersecting, P face particle ridges are arranged in circumferential bands around retinular axons at the glia-axon interface. Thin section correlates of these junctions are presented. Epithelial glia are characterized by elaborate series of parallel membranes which appear to be suspended in the cytoplasm but may be the invaginated plasma membranes of a neighbouring glial cell. An intermembranous cleft of 40–50 Å is noted and this area has an appreciable electron density which gives the appearance of a gap junction. When cleaved, these membranes show plaques of particles on the P face. The marginal glial cells are relatively large and are joined by a newly discovered junction which is characterized (from freeze-fracture data) by numerous, undulating, uninterrupted, parallel P face ridges which sometimes become circular and form enclosures. In thin sections, electron-dense material fills the membrane appositional areas and in tangential sections faint diffuse parallel striae are seen. This specialized cell contact may be a variant of a continuous junction although, based on fracture replicas, there are obvious similarities to tight junctions. These membrane specializations are related, in the three dimensions of the optic cartridges, to functions in a possible blood-eye barrier system.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01204836

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Synaptic vesicle activity in stimulated and unstimulated photoreceptor axons in the housefly. A freeze-fracture study (1982)

Saint Marie, Richard L. ; Carlson, Stanley D.

Springer

Journal of neurocytology 11 (1982), S. 747-761

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ISSN: 1573-7381

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Light-stimulated and unstimulated photoreceptor (retinular) axon terminals in the lamina ganglionaris (first optic neuropil) of the housefly are examined using freeze-fracture replication. The presence of numerous, cross-fractured capitate projections permits unmistakable identification of the retinular axon terminal membrane. Regardless of the conditions of illumination, the protoplasmic face (P-face) of the terminal membrane contains numerous bowtie-shaped particle clusters (active zones) which resemble theen face form and disposition of the presynaptic ribbon found in thin sections. Estimates from freeze-fractured material indicate that each retinular axon possesses at least 175 such active zones. In eyes fixed during illumination, active zones are surrounded by many membrane dimples indicative of vesicle fusion sites. Such synaptic vesicle sites are seldom encountered in terminals which are dark-adapted and fixed in the dark. Results from light-adapted eyes placed in the dark following the onset of fixation suggest that endocytosis may occur in the extrasynaptic regions of this inhibitory synapse. P-face particles are uniformly distributed throughout the extrasynaptic regions of unstimulated terminals. Particle density increases in areas peripheral to the active zones in stimulated eyes, particularly within the regions presumed to be undergoing active endocytosis. These structural findings are discussed in the context of the Heuser-Reese model of vesicle exocytosis and recycling.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01153517

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Glial membrane specializations and the compartmentalization of the lamina ganglionaris of the housefly compound eye (1983)

Saint Marie, Richard L. ; Carlson, Stanley D.

Springer

Journal of neurocytology 12 (1983), S. 243-275

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ISSN: 1573-7381

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Membrane specializations in the lamina ganglionaris of the housefly are investigated using conventional thin-section EM, freeze-fracture replication and the diffusion of colloidal lanthanum. All glial cells in the lamina are coupled by gap junctions. Desmosomes also link all glia except the epithelial glia. Extensive glia-glial and glia-neuronal septate junctions are present in the pseudocartridge zone and nuclear layer. Septate junctions in the nuclear layer intermingle with bands of interglial and glia-neuronal tight junctions. Tight junctions are also found between satellite and epithelial glia at the border of the nuclear and plexiform layers, between adjacent epithelial glial cells in the plexiform layer, between epithelial and marginal glia at the proximal boundary of the optic neuropil, between marginal glial cells, and between marginal glia and axons. Colloidal lanthanum, introduced through an incision in the cornea, penetrates the retina but is occluded from the neuropil by septate junctions in the pseudocartridge zone. The disposition of tight and septate junctions is described in relation to the compartmentalization of the lamina. Two major compartments are delineated. The first represents the nuclear layer and contains the cell bodies of second-order visual neurons (monopolar neurons). The second compartment constitutes the plexiform layer of the lamina. Within the plexiform layer, each optic cartridge is partitioned into a separate subcompartment. Also, tracheoles and axons of long visual fibres are isolated from the optic cartridges by glial tight junctions. Morphological evidence for compartmentalization is correlated with previously established electrical properties of the insect lamina ganglionaris.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01148464

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5

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The fine structure of neuroglia in the lamina ganglionaris of the housefly,Musca domestica L. (1983)

Saint Marie, Richard L. ; Carlson, Stanley D.

Springer

Journal of neurocytology 12 (1983), S. 213-241

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ISSN: 1573-7381

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Six morphologically distinct glial cell layers are described in the housefly lamina ganglionaris, a region previously thought to be composed of only three. 1. The external glial layer abuts the basement membrane of the retina. The cells of this layer have a highly involuted surface membrane and an abundance of ribosomes and rough endoplasmic reticulum (ER) throughout their cytoplasm. They envelop the traversing photoreceptor and mechanoreceptor axons as well as the large tracheoblast cells of the fenestrated layer. They are referred to as thefenestrated layer glia. 2. The second glial layer is composed of large, horizontally elongated cells with large elongate nuclei. They contain large membrane-bounded vacuoles and extensive arrays of parallel-running microtubules and smooth ER. These glia invest the photoreceptor axons through much of the multiple chiasmatic (pseudocartridge) region and are thus designated as thepseudocartridge glia. 3–4.Satellite glia comprise the third and fourth glial layers. Thin cytoplasmic processes of these multipolar glia intervene between the tightly packed monopolar neuron somata and the photoreceptor axons of the nuclear layer. The satellite glia are distinguished into two sub-groups: distal and proximal. The distal satellite glia are exclusively responsible for the large glial invaginations of the type I monopolar cell bodies. Multilaminated processes of the proximal layer of satellite glia surround the photoreceptor axons and the neurite neck of the monopolar neurons prior to their entry into the plexiform layer. The proximal satellite glia also contain prominent lipid deposits. 5.Epithelial glia are columnar cells that occupy the plexiform layer. They envelop the optic cartridges of the neuropil and are the substrate for two characteristic glial-neuronal invaginations; i.e. the capitate projection and the ‘gnarl’. The cytoplasm of the epithelial glia is electron dense and contains numerous stacked arrays of infolded membrane. 6.Marginal glia form the proximal boundary of the optic neuropil. They invest the axons entering or leaving through the base of the lamina ganglionaris. Marginal glia contain large numbers of parallel microtubules and numerous polyribosomes. Fine structural evidence is presented relevant to the role of these six glial layers in the maintenance of ionic and metabolic homeostasis across the retina-lamina barrier.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01148463

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6

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A blood-brain barrier without tight junctions in the fly central nervous system in the early postembryonic stage (1992)

Juang, Jyh-Lyh ; Carlson, Stanley D.

Springer

Cell & tissue research 270 (1992), S. 95-103

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ISSN: 1432-0878

Keywords: Blood-brain barrier ; Central nervous system ; Septate junction ; Tight junction ; Lanthanum ; Glial cell ; Maggot ; Delia platura (Insecta)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The anatomical basis of the vertebrate blood-brain barrier is a series of tight junctions between endothelial cells of capillaries in the central nervous system. Over two decades ago, tight junctions were also proposed as the basis of the blood-brain barrier in insects. Currently there is a growing understanding that septate junctions might possess barrier properties in various invertebrate epithelial cells. We now examine these two views by studying the blood-brain barrier properties of the early postembryonic larva of a dipteran fly (Delia platura) by transmission electron microscopy. Newly hatched larvae possess a functioning blood-brain barrier that excludes the extracellular tracer, ionic lanthanum. This barrier is intact throughout the second instar stage as well. The ultrastructural correlate of this barrier is a series of extensive septate junctions that pervade the intercellular space between adjacent perineurial cells. No tight junctions were located in either nerve, glial or perineurial cell layers. We suggest that the overall barrier might involve septate junctions within extensive, meandering intercellular clefts.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00381884

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Scanning electron microscopy of the insect compound eye (1972)

Carlson, Stanley D. ; Larsen, Joseph R.

Springer

Cell & tissue research 126 (1972), S. 446-453

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ISSN: 1432-0878

Keywords: Eye ; Manduca sexta ; Ommatidia ; Retinula ; Ultrastructure

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The superposition eye of the sphingid moth, Manduca sexta was explored by means of the scanning electron microscope (SEM). Specifically examined were the corneal nipple array, corneal lens, crystalline cones and tracts, photoreceptor cells and their axons. Descriptions of the external ultrastructure of the components were correlated, where possible with previously published accounts of internal ultrastructure as obtained from TEM studies. A key finding was the demonstration of the axial rotation of the eccentrically situated retinular cell, its externally noted prominence and the arrangement of the other photoreceptor cells composing the retinula. Because of the interest in superposition eye theory, the functional significance of various preretinular optic components was reviewed where it specifically related to Manduca.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00306905

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8

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Scanning electron microscopy of the insect compound eye (1972)

Carlson, Stanley D. ; Larsen, Joseph R.

Springer

Cell & tissue research 126 (1972), S. 437-445

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ISSN: 1432-0878

Keywords: Eye ; Sarcophaga bullata ; Ommatidia ; Lamina ganglionaris ; Ultrastructure

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary External and internal surfaces of the compound eye of the flesh fly, Sarcophaga bullata, were examined with a scanning electron microscope. A low patterned corneal nippleridge array and sparse setiform interfacetal hairs were observed on the corneal lens surface. Particular cleavage planes revealed outlines of the Semper Cells, their nuclei and distal terminations of photoreceptor cells. The latter, with their axonal processes, were visualized and described. These axons were noted traversing the external chiasma and entering the lamina ganglionaris where suggestions of synaptic contact were pointed out. The present descriptions were correlated with those taken from literature of the transmission electron microscope.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00306904

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9

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Analog of vertebrate anionic sites in blood-brain interface of larval Drosophila (1994)

Juang, Jyh-Lyh ; Carlson, Stanley D.

Springer

Cell & tissue research 277 (1994), S. 87-95

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ISSN: 1432-0878

Keywords: Key words: Blood-brain barrier ; Anionic sites ; Larvae ; Septate junctions ; CNS ; Glia ; Ultrastructure ; Drosophila melanogaster (Insecta)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract. The blood-brain barrier ensures brain function in vertebrates and in some invertebrates by maintaining ionic integrity of the extraneuronal bathing fluid. Recent studies have demonstrated that anionic sites on the luminal surface of vascular endothelial cells collaborate with tight junctions to effect this barrier in vertebrates. We characterize these two analogous barrier factors for the first time on Drosophila larva by an electron-dense tracer and cationic gold labeling. Ionic lanthanum entered into but not through the extracellular channels between perineurial cells. Tracer is ultimately excluded from neurons in the ventral ganglion mainly by an extensive series of (pleated sheet) septate junctions between perineurial cells. Continuous junctions, a variant of the septate junction, were not as efficient as the pleated sheet variety in blocking tracer. An anionic domain now is demonstrated in Drosophila central nervous system through the use of cationic colloidal gold in LR White embedment. Anionic domains are specifically stationed in the neural lamella and not noted in the other cell levels of the blood-brain interface. It is proposed that in the central nervous system of the Drosophila larva the array of septate junctions between perineurial cells is the physical barrier, while the anionic domains in neural lamella are a “charge-selective barrier” for cations. All of these results are discussed relative to analogous characteristics of the vertebrate blood-brain barrier.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00303084

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The distal ommatidium of the compound eye of the housefly (Musca domestica): A scanning electron microscope study (1975)

Chi, Che ; Carlson, Stanley D.

Springer

Cell & tissue research 159 (1975), S. 379-385

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ISSN: 1432-0878

Keywords: Compound eye ; Musca domestica ; Ommatidium ; Distal retinula ; Scanning electron microscopy ; Corneal lens ; Corneal pigment cell ; Pseudocone ; Semper cell ; Basement membrane

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The distal aspect of the housefly ommatidium was surveyed by the scanning electron microscope. Attention was directed to the somal eminence of the superior central cell and the lens to large pigment cell junction. The underside of each lens facet exhibits six hexagonally arranged incisures. Into each of these indentations are fitted several large pigment cells. This hexagonal indentation appears to be a tenacious anchorage. Two corneal pigment cells laterally encircle the pseudocone and at their proximal extension they enclose the Semper cells and neck of the retinula. The somal eminence of the superior central cell is about 10 μm from the base of the corneal pigment cell enclosure. Micrographs were used to construct a diagram of the ommatidium above the basement membrane. Suggestions are made as to the functional correlates of the observed ommatidial structures.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00221784

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