Freeze-drying of unfixed monolayer cultures for electron microscopic autoradiography

Summary A method has been developed for freezing, drying and embedding of unfixed monolayer cultures for electron microscopic autoradiography (EM ARG). Experimental results showed: a) Aclar 33 C was a more suitable substrate than the plastic of petri dishes, b) cultures pressed rapidly against the polished face of a large copper cylinder chilled in liquid nitrogen had better cellular morphology than did cultures dipped in Freon 12 chilled in liquid nitrogen, and c) cultures embedded in Epon alone had finer extracellular ice spaces and lower background grain densities than did cultures embedded in Epon with 1% silicone.This method has been used to evaluate the effect of fixation on the localization of the neurotransmitter, ³H-gamma-aminobutyric acid (³H-GABA), in neurons of dispersed cell cultures. EM ARG results showed that the neuronal cell bodies and vesicle elements were present in similar numbers in both glutaraldehyde fixed and freeze-dried cultures.     

Ultrastructure of the tastebuds of the red-eared turtle,Chrysemys scripta elegans

The fine structure of the turtle tastebud has been examined by light, transmission, and scanning electron microscopy. It contains five types of cells on the basis of their cytological features, designated types 1,2,3,A, and B. Types 1, 2, and 3 reach the taste pore, whereas types A and B are located basally. The type 2 cell has access to the tongue surface, i.e., the site of gustatory stimuli, and also synapses onto afferent nerves; it probably is a gustatory receptor cell and corresponds to the so-called “light” cell observed in other vertebrate tastebuds. Some cells may be differentiating. In support of this hypothesis, light microscopic autoradiography shows that postmitotic cells occur in the tastebuds within 24 hours after administration of H³-thymidine. The tastebuds of the turtle are similar to those of other vertebrates described electron-microscopically.     

Pinocytic stimulation in Dictyostelium discoideum by γ-benzene hexachloride

Pinocytic activity is greatly stimulated in γ-BHC (gamma isomer of benzene hexachloride) treated, vegetative cells of Dictyostelium discoideum as measured by ¹⁴C sucrose or FITC-dextran uptake. Transmission electron microscopic studies also reveal the presence of a greater number of pinosomal vesicles in the pesticide-treated Dictyostelium amoebae. The enhanced pinocytic activity has been discussed in relation to lipophilic interactions of γ-BHC with the hydrophobic cell surface and the observed changes in the cytoskeletal proteins of the treated cells. © 1994 Wiley-Liss, Inc.     

Occurrence of minute ring-shaped nucleoprotein particles in culture media conditioned by mammalian cells

Summary Conditioned media of 21 mammalian cell lines have been examined by electron microscopic and biochemical techniques for the presence of a minute ring-shaped nucleoprotein particle (RSP). Electron microscopy showed the presence of RSP in 20 of the 21 cell lines tested. Comparative analyses of six cell cultures for radio-active RSP, following³H-thymidine incorporation, suggested that quantitative differences exist in the amount of RSP detectable in conditioned media of normal and pathologic cells. The cell lines tested included cells of different morphologies, origin and function. Supported by a research grant from Claremont Foundation, Inc., Claremont, California.     

Localization of hyaluronic acid in synovial cells by radioautography

Cultured human synovial cells secrete hyaluronic acid (HA) into the culture medium. Glucosamine-6-³H was shown to be a direct and relatively specific precursor of HA-³H by the following observations: the susceptibility of nondialyzable radioactivity in the medium to hyaluronidase, its migration with hexuronic acid on zone electrophoresis in polyvinyl chloride, its exclusion from Sephadex G-200, and the localization of radioactivity to glucosamine after hydrolysis of the labeled polysaccharide. The presence of intracellular HA-³H was established by sequential extraction of labeled cells and by radioautography of synovial cell cultures digested with hyaluronidase in situ. When cells were exposed to medium lacking glucose, glucosamine-³H-uptake was enhanced; and this made possible electron microscopic radioautographic studies. These studies demonstrate the early and continued presence of HA-³H within the Golgi apparatus.     

Direct effects of serotonin and ketanserin on the functional morphology of embryonic chick skin in vitro

Summary Different organotypical culture methods are used to test the direct effects of serotonin and ketanserin, a S₂, α₁, and H₁ receptor antagonist in vascular tissue, on fibroblasts and epidermal cells of embryonic chick skin in vitro. From light microscopic and electron microscopic analyses, we learn that serotonin enhances keratinization and differentiation, whereas ketanserin reduces differentiation in comparison to the control cultures. Incorporation data of fragments cultured with [³H]thymidine show that ketanserin, within a dose range from 0.05 to 5 μg/ml, stimulates proliferation. Serotonin at a concentration of 10 μg/ml slightly slows down proliferation, whereas lower doses of 0.1 and 1 μg/ml result in tritium activities that do not differ from control cultures. This investigation was financially supported by the National Fund of Scientific Research, Belgium, 3.0022.87.     

A tracheal culture model of respiratory tract infection withPseudomonas Aeruginosa

Summary The pathogenesis ofPseudomonas aeruginosa for the respiratory tract has been examined using hamster tracheal organ cultures. Tracheal rings prepared from male Syrian hamsters, strain LSH/LAK, were infected withP. aeruginosa for 4 h and processed at 4-h intervals for 24 h for examination by light- and electron microscopy. Tissue destruction was observed within 8 h after infection with 10⁸ colony-forming units (cfu)/ml and within 12 h after infection with 10⁴ or 10⁶ cfu/ml. Ciliated cells that contained abnormal subcellular organelles were expelled from the epithelium. By 20 h the epithelial borders were composed primarily of nonciliated cells. Transmission- and scanning electron microscopy revealed details of the cellular destruction and attachment ofP. aeruginosa to the ciliated epithelium.Pseudomonas aeruginosa causes a rapid destruction of the epithelium of hamster trachea in cultures. Hamster tracheal organ cultures have been shown to be useful in studying the pathogenesis ofP. aeruginosa for the respiratory tract. This work was supported by Grants G-430B and G-431B from the Cystic Fibrosis Foundation.     

The Ca2+ influx induced by β-amyloid peptide 25–35 in cultured hippocampal neurons results from network excitation

Although a neurotoxic role has been postulated for the β-amyloid protein (βAP), which accumulates in brain tissues in Alzheimer's disease, a precise mechanism underlying this toxicity has not been identified. The peptide fragment consisting of amino acid residues 25 through 35 (βAP25-35), in particular, has been reported to be toxic in cultured neurons. We report that βAP25-35, applied to rat hippocampal neurons in culture, caused reversible and repeatable increases in the intracellular Ca²⁺ concentration ([Ca²⁺]_i), as measured by fura 2 fluorimetry. Furthermore, βAP25-35 induced bursts of excitatory potentials and action potential firing in individual neurons studied with whole cell current clamp recordings. The βAP25-35–induced [Ca²⁺]_i elevations and electrical activity were enhanced by removal of extracellular Mg²⁺, and they could be blocked by tetrodotoxin, by non-N-methyl-D -aspartate (NMDA) and NMDA glutamate receptor antagonists, and by the L-type Ca²⁺ channel antagonist nimodipine. Similar responses of bursts of action potentials and [Ca²⁺]_i increases were evoked by βAP1-40. Responses to βAP25-35 were not prevented by pretreatment with pertussis toxin. Excitatory responses and [Ca²⁺]_i elevations were not observed in cerebellar neuron cultures in which inhibitory synapses predominate. Although the effects of βAP25-35 depended on the activation of glutamatergic synapses, there was no enhancement of kainate- or NMDA-induced currents by βAP25-35 in voltage-clamp studies. We conclude that βAP25-35 enhances excitatory activity in glutamatergic synaptic networks, causing excitatory potentials and Ca²⁺ influx. This property may explain the toxicity of βAP25–35. © 1995 John Wiley & Sons, Inc.     

Growth and synapse formation among major classes of adult salamander retinal neurons in vitro

Adult neurons, isolated from the salamander retina, were maintained in low-density cell culture and examined for synapse formation by electrophysiological and electron microscopic techniques. Morphologically identifiable rod, cone, horizontal, bipolar, and amacrine/ganglion cells survived for many months, grew processes, and formed numerous cell contacts. Intracellular recordings showed the presence of a variety of voltage- and time-dependent conductances and both electrical and chemical transmission among these cells. At the ultrastructural level, gap junctions, monad ribbon synapses, and conventional synapses, like those present in the intact retina, were observed in sibling cultures. Thus, all major classes of adult retinal neurons, in addition to ganglion cells, are able to regenerate processes and reform synapses. The regenerated synaptic contacts are functional and structurally diverse.     

Cellular Interactions and the Secondary Response <Emphasis Type="Italic">in vitro</Emphasis>

ALTHOUGH the role of cellular cooperation in the induction of the immune response has become firmly established only recently¹, morphological evidence suggesting that such cooperation takes place is quite old. Reports² of the aggregation of lymphoid cells around macrophages³ have been confirmed: “islets”, “rosettes” or “clusters” in cultures of cells (derived from humans⁴, guinea-pigs⁵, rabbits⁶ or mice⁷) stimulated with antigen or PHA⁸ were reported. We have investigated cluster formation to ascertain its relationship, if any, to the antigen-induced stimulation of sensitized cells⁹. We used peripheral blood leucocytes from rabbits immunized to bovine serum albumin (BSA) or to human red blood cells (HRBC). The BSA was given in complete Freund's adjuvant (three intramuscular injections of 7.5 mg BSA each, into the hind legs at weekly intervals). HRBC (1 ml.) was given once into the ear vein, as a 20% suspension in saline. Cell cultures and ³H-thymidine incorporation were measured as before¹⁰. To prepare cell smears, cells were washed three times and suspended in one drop of normal rabbit serum and 1 µl. of the suspension was spread on a microscope slide. This ensured a reasonably constant number of cells per slide and made possible comparisons between different experiments. Smears were fixed with methanol and stained with Giemsa.     

Preferential Sensitization of Hypoxic Cells to Radiation <Emphasis Type="Italic">in vivo</Emphasis>

PREFERENTIAL sensitization of hypoxic cells has great potential in the radiotherapy of human tumours, where radioresistant hypoxic tumour cells may limit the cures achieved by present methods of radiotherapy in some cases¹. As an in vivo assay, the survival of epidermal cells after irradiation² has been used to investigate the differential radiosensitizing properties of N-dimethylparanitro-2-propriophenone (NDPP) on hypoxic and well-oxygenated cells. NDPP has been selected on the basis of its electron affinity in a systematic search for a substance that can mimic oxygen in its radiosensitizing ability (refs. 3–5 and see accompanying report).     

Increased endoplasmic reticulum content of a mutant of Trichoderma reesei (RUT-C30) in relation to cellulase synthesis

The structure and content of endoplasmic reticulum (ER) were studied in the shake cultures of two strains of Trichoderma reesei, one wild type (QM6a) and the other a cellulase (EC 3.2.1.4) hyper-producing and catabolite repression resistant mutant (RUT-C30). The results of quantitative electron microscopic and biochemical assays were correlated. At the stage of growth when cellulase secretion was high the ER in RUT-C30 cells was highly developed and more abundant than the ER in QM6a cells. A process regulating ER biogenesis may have been deactivated by mutation in RUT-C30 cells and thus the potential for extracellular enzyme synthesis and secretion has been enhanced.     

Osteogenesis in cultures of limb mesenchymal cells

The results of previous reports demonstrated that osteoblasts develop in cultures derived from phenotypically unexpressive stage 24 chick limb mesenchymal cells. The observations reported here suggest that initial cell plating densities may provide environmental conditions deterministic to a particular limb phenotype. Quantitative microscopic studies, histochemical localization of calcium phosphate, and electron microscopy indicate that osteoblasts develop in cultures derived from stage 24 limb mesenchymal cells. Additionally, 1–3% of the cells from stage 24 limbs are associated with mineral deposits when plated at initial high densities (5 × 10⁶ cells per 35-mm culture dish), while more than 50% of the cells are associated with cartilage by Day 9. Cultures plated at intermediate seeding densities (between 2.0 and 2.5 × 10⁶ cells per 35-mm culture dish) have minimal cartilage development, and approximately 20% of the cells are associated with mineral by Day 9. Furthermore, cultures prepared from stage 31 limb mesenchymal cells form well-developed bone nodules with both osteoblasts and osteocytes present, but no cartilage. It is clear from these observations and from a consideration of the initiation of osteogenesisin vivo that the initiation of bone development in the limb is not associated with cartilage development. Based on these studies and observations on the effect of nutrient factors on phenotypic expression in culture, an hypothesis is presented relating differential vascularization and nutrient flow to the determination of limb phenotypesin vivo.     

Dynamics of Galactolipids and Plastids in Nonphotosynthetic Cells of Glycine max Suspension Cultures : A Morphological and Biochemical Study

The age-dependent interrelationship of galactolipids and plastids in heterotrophic cell suspension cultures of Glycine max (soybean) was studied with regard to aging of nonphotosynthetic cells. Cells were propagated in the dark and under illumination with white light, and were harvested at days 7 (end of logarithmic phase), 14, and 21 (extended stationary phase). Electron microscopy revealed in dark-grown cells a proliferating decay of the amyloplast-type plastids, which could be correlated to a decrease of galactolipids. This trend was dramatically reversed in irradiated cultures, where the plastids of day 21 cells appeared rejuvenated. A concomitant increase of galactolipid content in the cells was observed, yet chlorophyll synthesis and photosynthetic activity were not induced. The dynamics of galactolipid contents did not correlate with total lipid contents in dark-grown as well as in irradiated cultures. [³H]Galactose served as a radioactive probe for the subcellular localization of galactolipids by electron microscopic autoradiography. Apart from plastids, galactolipids may also be constituents of the plasma membrane. The results render the heterotrophic cell suspension culture a suitable model to study the impact of senescence on plastids of nonphotosynthetic cells.     

Mutant Alleles at the Brown Locus Encoding Tyrosinase‐Related Protein‐1 (TRP‐1) Affect Proliferation of Mouse Melanocytes in Culture *

Tyrosinase related protein‐1 (TRP‐1) is a melanocyte‐specific gene product involved in eumelanin synthesis. Mutation in the Tyrp1 gene is associated with brown pelage in mouse and oculocutaneous albinism Type 3 in humans (OCA3). It has been demonstrated that TRP‐1 expresses DHICA oxidase activity in the murine system. However, its actual function in the human system is still unclear. The study was designed to determine the effects of mutation at two Typr1 alleles, namely the Tyrp1^b (brown) and Tyrp1^b‐cj (cordovan) compared with wild type Tyrp1^B (black) on melanocyte function and melanin biosynthesis. The most significant finding was that both of the Tyrp1 mutations (i.e. brown expressing a point mutation and cordovan expressing decreased amount of TRP‐1 protein) resulted in attenuation of cell proliferation rates. Neither necrosis nor apoptosis was responsible for the observed decrease in cell proliferation rates of the brown and cordovan melanocytes. Ultrastructural evaluation by electron microscopic analysis revealed that both mutations in Tyrp1 affected melanosome maturation without affecting its structure. These observations demonstrate that mutation in Tyrp1 compromised tyrosinase activity within the organelle. DOPA histochemistry revealed differences in melanosomal stages between black and brown melanocytes but not between black and cordovan melanocytes. There were no significant differences in tyrosine hydroxylase activities of tyrosinase and TRP‐1 in wild type black, brown and cordovan melanocyte cell lysates. We conclude that mutations in Tyrp1 compromise cell proliferation and melanosomal maturation in mouse melanocyte cultures.     

Regulation of enzymes responsible for neurotransmitter synthesis and degradation in cultured rat sympathetic neurons. II. Regulation of 16 S acetylcholinesterase by conditioned medium

The molecular forms of acetylcholinesterase (AcChE) have been studied in primary cultures of newborn rat sympathetic neurons grown either in the absence (CM^? cultures) or in the presence (CM⁺ cultures) of muscle conditioned medium. The cultures were treated with a mitotic poison to eliminate non-neuronal cells. CAT activity increased with time in culture 4- to 20-fold faster in CM⁺ than in CM^? cultures. In agreement with previous experiments (J. P. Swerts, A. Le Van Thaï, A. Vigny, and M. J. Weber, 1983, Develop. Biol.100, 1–11), AcChE activity developed at a 3-fold lower rate in CM⁺ than in CM^? cultures. This deficit in AcChE activity in CM⁺ cultures resulted from a deficit in the number of enzyme molecules immunoprecipitable with an antiserum raised against rat brain AcChE. In both types of cultures, AcChE forms were separated by sucrose gradient sedimentation into three main peaks corresponding to the 16 S and 10 S forms and a mixture of the 6.5 and 4 S forms. In 3-day-old CM⁺ and CM^? cultures, the 16 S form represented 2% of the total activity. After 12–26 days, the percentage of 16 S form raised to 15–30% in CM^? cultures, but remained lower than 5% in CM⁺ cultures. This difference was also observed when AcChE molecular forms were analyzed in the presence of protease inhibitors. A similar result was obtained by comparing cultures grown with and without a macromolecular factor partially purified from conditioned medium. These results suggest that an inverse relationship exists between the presence of 16 S AcChE and the presence of cholinergic synapses in these cultures.     

Structure of Excitatory Synapses and GABAA Receptor Localization at Inhibitory Synapses Are Regulated by Neuroplastin-65

Formation, maintenance, and activity of excitatory and inhibitory synapses are essential for neuronal network function. Cell adhesion molecules (CAMs) are crucially involved in these processes. The CAM neuroplastin-65 (Np65) highly expressed during periods of synapse formation and stabilization is present at the pre- and postsynaptic membranes. Np65 can translocate into synapses in response to electrical stimulation and it interacts with subtypes of GABA_A receptors in inhibitory synapses. Here, we report that in the murine hippocampus and in hippocampal primary culture, neurons of the CA1 region and the dentate gyrus (DG) express high Np65 levels, whereas expression in CA3 neurons is lower. In neuroplastin-deficient (Np^−/−) mice the number of excitatory synapses in CA1 and DG, but not CA3 regions is reduced. Notably this picture is mirrored in mature Np^−/− hippocampal cultures or in mature CA1 and DG wild-type (Np^+/+) neurons treated with a function-blocking recombinant Np65-Fc extracellular fragment. Although the number of GABAergic synapses was unchanged in Np^−/− neurons or in mature Np65-Fc-treated Np^+/+ neurons, the ratio of excitatory to inhibitory synapses was significantly lower in Np^−/− cultures. Furthermore, GABA_A receptor composition was altered at inhibitory synapses in Np^−/− neurons as the α1 to α2 GABA_A receptor subunit ratio was increased. Changes of excitatory and inhibitory synaptic function in Np^−/− neurons were confirmed evaluating the presynaptic release function and using patch clamp recording. These data demonstrate that Np65 is an important regulator of the number and function of synapses in the hippocampus.     

Electron acceptor availability alters carbon and energy metabolism in a thermoacidophile

The thermoacidophilic Acidianus strain DS80 displays versatility in its energy metabolism and can grow autotrophically and heterotrophically with elemental sulfur (S°), ferric iron (Fe³⁺) or oxygen (O₂) as electron acceptors. Here, we show that autotrophic and heterotrophic growth with S° as the electron acceptor is obligately dependent on hydrogen (H₂) as electron donor; organic substrates such as acetate can only serve as a carbon source. In contrast, organic substrates such as acetate can serve as electron donor and carbon source for Fe³⁺ or O₂ grown cells. During growth on S° or Fe³⁺ with H₂ as an electron donor, the amount of CO₂ assimilated into biomass decreased when cultures were provided with acetate. The addition of CO₂ to cultures decreased the amount of acetate mineralized and assimilated and increased cell production in H₂/Fe³⁺ grown cells but had no effect on H₂/S° grown cells. In acetate/Fe³⁺ grown cells, the presence of H₂ decreased the amount of acetate mineralized as CO₂ in cultures compared to those without H₂. These results indicate that electron acceptor availability constrains the variety of carbon sources used by this strain. Addition of H₂ to cultures overcomes this limitation and alters heterotrophic metabolism.     

Energy conservation during nitrate respiration in Paracoccus denitrificans

P/2e ratios were calculated from anaerobic chemostat cultures of Paracoccus denitrificans with nitrogenous oxides as electron acceptor. P/2e ratios were calculated, using the Y _ATP ^max values determined for aerobic cultures. When succinate was the carbon and energy source the average P/2e values of the sulphate-and succinate-limited cultures with nitrate as electron acceptor were 0.5 and 0.7, respectively, and of the nitrite-limited culture 0.9. With gluconate as carbon and energy source the average P/2e values of the gluconate-limited with nitrate as electron acceptor and nitrate limited cultures were 0.9 and 1.1, respectively.H⁺/O ratios measured in cells obtained from sulphate-, succinate, nitrite-, gluconate-and nitratelimited cultures yielded respective average values of 3.4, 4.5, 3.5, 4.8 and 6.2 for endogenous substrates. From our data we conclude that sulphate-and nitritelimitation causes the loss of site I phosphorylation. Nitrite has no influence on the maximum growth yield on ATP. We propose that metabolism in heterotrophically grown cells of Paracoccus dentrificans is regulated on the level of phosphorylation in the site I region of the electron transport chain.