Trypan Blue - Adapting a Dye Used for Labelling Dead Cells to Visualize Pinocytosis in Viable Cells.

BACKGROUND/AIMS: Trypan blue is routinely used in cell culture experiments to distinguish between dead cells, which are labelled by trypan blue, and viable cells, which are apparently free of any staining. The assumption that trypan blue labelling is restricted to dead cells derives from the observation that rupture of the plasma membrane correlates with intense trypan blue staining. However, decades ago, trypan blue has been used to trace fluid uptake by viable macrophage-like cells in animals. These studies contributed to the concept of the reticuloendothelial system in vertebrates. Trypan blue itself does not show a fluorescence signal, but trypan blue-labelled proteins do. Therefore, intracellular localization of trypan blue-labelled proteins could give a clue to the entrance pathway of the dye in viable cells. METHODS: We used fluorescence microscopy to visualize trypan blue positive structures and to evaluate whether the bactericide, silver, enhances cellular trypan blue uptake in the brain macrophage-like cell line, BV-2. The pattern of chromatin condensation, visualized by DAPI staining, was used to identify the cell death pathway. RESULTS: We observed that silver nitrate at elevated concentrations (≥ 10 µM) induced in most cells a necrotic cell death pathway. Necrotic cells, identified by pycnotic nuclei, showed an intense and homogenous trypan blue staining. Apoptotic cells, characterized by crescent-like nuclear chromatin condensations, were not labelled by trypan blue. At lower silver nitrate concentrations, most cells were viable, but they showed trypan blue labelling. Viable cells showed a cell-type specific distribution of heterochromatin and revealed a perinuclear accumulation of bright trypan blue-labelled vesicles and, occasionally, a faint homogenous trypan blue labelling of the cytoplasm and nucleus. Amiloride, which prevents macropinocytosis by blocking the Na+ / H+ exchange, suppressed perinuclear accumulation of dye-labelled vesicles. Swelling of cells in a hypotonic solution induced an intense intracellular accumulation of trypan blue. Cells exposed to a hypotonic solution in the presence of 5-nitro-2-(3-phenylpropylamino) benzoic acid (NPPB), which blocks volume-regulated ion channels, prevented labelling of the cytoplasm and nucleus but did not affect labelling of perinuclear vesicles. CONCLUSION: In viable cells trypan blue-labelled vesicles indicate trypan blue uptake by macropinocytosis and trypan blue-labelled cytosol could indicate a further entry pathway for the dye, like activated volume-regulated channels. Accordingly, fluorescence microscopic analysis of trypan blue-labelled cells allows not only a discrimination between necrotic and apoptotic cell death pathway but also a discrimination between the mode of trypan blue uptake in viable cells - via pinocytosis or via activated volume-regulated ion channels - in the same preparation at the single cell level.

Effect of Glycine on BV-2 Microglial Cells Treated with Interferon-γ and Lipopolysaccharide.

Microglia are first-line defense antigen-presenting phagocytes in the central nervous system. Activated microglial cells release pro-inflammatory cytokines and can trigger an oxidative burst. The amino acid glycine exerts anti-inflammatory, immunomodulatory and cytoprotective effects and influences cell volume regulation. This study aimed to investigate the role of glycine in the modulation of inflammatory processes in mouse BV-2 microglial cells. Inflammatory stress was induced by lipopolysaccharide/interferon-γ (LPS/IFN-γ) treatment for 24 h in the absence or presence of 1 or 5 mM glycine. Cells were analyzed by flow cytometry for cell volume, side scatter, apoptosis/necrosis and expression of activation-specific surface markers. Apoptosis progression was monitored by life cell imaging. Reduced glutathione/oxidized glutathione (GSH/GSSG) ratios and release of the pro-inflammatory cytokines IL-6 and TNF-α were measured using luminescence-based assays and ELISA, respectively. We found that LPS/IFN-γ-induced apoptosis was decreased and the fraction of living cells was increased by glycine. Expression of the surface markers CD11b, CD54 and CD80 was dose-dependently increased, while IL-6 and TNF-α release was not altered compared to LPS/IFN-γ-treated cells. We showed that in BV-2 microglial cells glycine improves viability and counteracts deleterious responses to LPS/IFN-γ, which might be relevant in neurodegenerative processes associated with inflammation, like Alzheimer's or Parkinson's disease.

A Swelling-Activated Chloride Current in Microglial Cells is Suppressed by Epac and Facilitated by PKA - Impact on Phagocytosis.

BACKGROUND/AIMS: Volume-regulated anion channels (VRACs) are of particular importance in regulating the cell volume (CV) and give rise to the swelling-activated Cl- current (ICl,swell), a main component driving global regulatory volume decrease (RVD) during cell swelling. Because ICl,swell affects numerous CV-regulated processes like migration, we assume that its role is also indispensable for phagocytosis which requires local cell swelling. Noradrenaline (NA) modulates phagocytosis in macrophages and microglial cells, macrophage-related cells in the central nervous system. Therefore we evaluated whether NA modulates ICl,swell and phagocytosis in microglia. METHODS: Experiments were performed in murine microglial BV-2 and primary mouse microglial cells. Patch clamp experiments were performed in BV-2 cells using the amphotericin-perforated method to minimize cytosolic disturbances. Phagocytosis was quantified by scanning electron microscopy. RESULTS: Following activation of ICl,swell by a hypotonic bath solution, noradrenaline, as well as the ß-adrenergic agonist isoproterenol, evoked a transient decrease of ICl,swell. Repeated application of adrenergic agonists caused a decline of this electrical response. Application of the agonist of exchange protein directly activated by cAMP (Epac), 8-pCPT-2-O-Me-cAMP, or the protein kinase A inhibitor H89 caused a persistent suppression of ICl,swell. When isoproterenol was added concomitantly with the hypotonic saline, ICl,swell developed more rapidly compared to control conditions. Uptake of IgG-coated beads was suppressed by NA or H89 when quantified after 15 min of exposure. CONCLUSION: The activation of ß-adrenergic receptors in microglial cells triggers a cAMP-Epac-dependent and a cAMP-PKA-dependent cascade which affects phagocytosis via modulation of the swelling-activated Cl- current ICl,swell.

Glycine Induces Migration of Microglial BV-2 Cells via SNAT-Mediated Cell Swelling.

BACKGROUND/AIMS: The neutral, non-essential amino acid glycine has manifold functions and effects under physiological and pathophysiological conditions. Besides its function as a neurotransmitter in the central nervous system, glycine also exerts immunomodulatory effects and as an osmolyte it participates in cell volume regulation. During phagocytosis, glycine contributes to (local) cell volume-dependent processes like lamellipodium formation. Similar to the expansion of the lamellipodium we assume that glycine also affects the migration of microglial cells in a cell volume-dependent manner. METHODS: Mean cell volume (MCV) and cell migration were determined using flow cytometry and trans-well migration assays, respectively. Electrophysiological recordings of the cell membrane potential (Vmem) and swelling-dependent chloride (Cl-) currents (IClswell, VSOR, VRAC) were performed using the whole-cell patch clamp technique. RESULTS: In the murine microglial cell line BV-2, flow cytometry analysis revealed that glycine (5 mM) increases the MCV by ∼9%. The glycine-dependent increase in MCV was suppressed by the partial sodium-dependent neutral amino acid transporter (SNAT) antagonist MeAIB and augmented by the Cl- current blocker DCPIB. Electrophysiological recordings showed that addition of glycine activates a Cl- current under isotonic conditions resembling features of the swelling-activated Cl- current (IClswell). The cell membrane potential (Vmem) displayed a distinctive time course after glycine application; initially, glycine evoked a rapid depolarization mediated by Na+-coupled glycine uptake via SNAT, followed by a further gradual depolarization, which was fully suppressed by DCPIB. Interestingly, glycine significantly increased migration of BV-2 cells, which was suppressed by MeAIB, suggesting that SNAT is involved in the migration process of microglial cells. CONCLUSION: We conclude that glycine acts as a chemoattractant for microglial cells presumably by a cell volume-dependent mechanism involving SNAT-mediated cell swelling.

Sex, age, and sex hormones affect recall of words in a directed forgetting paradigm.

During the course of serious discussion, an unexpected interruption may induce forgetting of the original topic of a conversation. Sex, age, and sex hormone levels may affect frequency and extension of forgetting. In a list-method directed forgetting paradigm, subjects have to learn two word lists. After learning list 1, subjects receive either a forget or a remember list 1 cue. When the participants had learned list 2 and completed a distraction task, they were asked to write down as many recalled items as possible, starting either with list 1 or list 2 items. In the present study, 96 naturally cycling women, 60 oral contraceptive users, 56 postmenopausal women, and 41 young men were assigned to one of these different experimental conditions. Forget-cued young subjects recall fewer list 1 items (list 1 forgetting) but more list 2 items (list 2 enhancement) compared with remember-cued subjects. However, forget-cued postmenopausal women showed reduced list 1 forgetting but enhanced list 2 retention. Remember-cued naturally cycling women recalled more list 1 items than oral contraceptive users, young men, and postmenopausal women. In forget-cued follicular women, salivary progesterone correlated positively with recalled list 2 items. Salivary 17ß-estradiol did not correlate with recalled list 1 or list 2 items in either remember- or forget-cued young women. However, salivary 17ß-estradiol correlated with item recall in remember-cued postmenopausal women. Our findings suggest that sex hormones do not globally modulate verbal memory or forgetting, but selectively affect cue-specific processing. © 2016 Wiley Periodicals, Inc.

Behavioural evidence for sex differences in the overlap between subtraction and multiplication.

The present study aims to identify factors that may influence the dissociability of number magnitude processing and arithmetic fact retrieval at the behavioural level. To that end, we assessed both subtraction and multiplication performance in a within-subject approach and evaluated the interdependence of unit-decade integration measures on the one hand as well as sex differences in the interdependence of performance measures on the other hand. We found that subtraction items requiring borrowing (e.g. 53-29 = 24, 3 < 9) are more error prone than subtraction items not requiring borrowing (e.g. 59-23 = 34, 9 > 3), thereby demonstrating a borrowing effect, which has been suggested as a measure of unit-decade integration in subtraction. Furthermore, we observed that multiplication items with decade-consistent distractors (e.g. 6 × 4 = 28 instead of 24) are more error prone that multiplication items with decade-inconsistent distractors (e.g. 6 × 4 = 30 instead of 24), thereby demonstrating a decade-consistency effect, which has been suggested as a measure of unit-decade integration in simple multiplication. However, the borrowing effect in subtraction was not correlated with the effect of decade consistency in simple multiplication in either men or women. This indicates that unit-decade integration arises from different systems in subtraction and multiplication. Nevertheless, men outperformed women not only in subtraction, but also in multiplication. Furthermore, subtraction and multiplication performance on correct solution probes were correlated in women, but unrelated in men. Thus, the view of differential systems for number magnitude processing and arithmetic fact retrieval may not be universal across sexes.

Intentional updating in episodic memory: Low testosterone associates with enhanced memory updating.

OBJECTIVES: Although there is consensus that sex hormones modulate memory, we have an incomplete understanding of their role in remembering and forgetting. Humans continuously update memory, forgetting old, out-of-date information and encoding new, more relevant information. Updating processes can be studied with the list method of directed forgetting. METHODS: In the list method of directed forgetting task, subjects study two lists of items and, after study of list 1, are asked to either forget or remember the list for an upcoming memory test. Free testosterone level was quantified from saliva samples. Directed forgetting and saliva testosterone were evaluated in young men (aged between 18 and 28 years). RESULTS: Following a forget cue, recall of list-1 items was reduced and recall of list-2 items was enhanced. However, only recall of list-2 items was associated with free testosterone level. Following a forget cue, participants with low testosterone levels showed higher recall of list-2 items than participants with high testosterone levels. CONCLUSION: The selective association between testosterone level and list-2 recall is consistent with two-mechanism accounts of memory updating, where the forgetting effect is due to impaired retrieval and the enhancement effect to improved encoding. On the basis of this view, the present results indicate that low testosterone levels are associated with improved binding of the newly encoded memories to their context cue.

From the nucleus to the plasma membrane: translocation of the nuclear proteins histone H3 and lamin B1 in apoptotic microglia.

Nuclear autoantibodies have been found in patients with autoimmune diseases. One possible source for nuclear antigens are apoptotic cells. However, the mechanism of how apoptotic cells make nuclear factors accessible to the immune system is still elusive. In the present study, we investigated the redistribution of nuclear components after UV irradiation in the microglial cell line BV-2 and in primary mouse microglia at the ultrastructural level. We used transmission electron microscopy-coupled electron energy loss spectroscopy (EELS) to measure phosphorus as an indicator for nucleic acids and immunogold labeling to detect histone H3 and lamin B1 in apoptotic cells. EELS revealed elevated concentrations of phosphorus in nuclear and cytoplasmic condensed chromatin compared to the remaining cytoplasm. Furthermore, immunolabeling of lamin B1 and histone H3 was detected in apoptotic microglia not only in the nucleus, but also in the cytoplasm, and even at the plasma membrane. Confocal images of apoptotic microglia, which were not previously permeabilized, showed patches of histone H3 and lamin B1 labeling at the cell surface. The pan-caspase inhibitor Z-VAD-FMK (carbobenzoxy-valyl-alanyl-aspartyl-[O-methyl]-fluoromethylketone) prevented the occurrence of cytoplasmic condensed chromatin in apoptotic microglia. Our findings indicate that nuclear components leak from the nucleus into the cytoplasm in apoptotic microglia. At least histone H3 and lamin B1 reach the cell surface, this may promote autoreactive processes.

Glycine modulates membrane potential, cell volume, and phagocytosis in murine microglia.

Phagocytes form engulfment pseudopodia at the contact area with their target particle by a process resembling cell volume (CV) regulatory mechanisms. We evaluated whether the osmoregulatory active neutral amino acid glycine, which contributes to CV regulation via activation of sodium-dependent neutral amino acid transporters (SNATs) improves phagocytosis in isotonic and hypertonic conditions in the murine microglial cell line BV-2 and primary microglial cells (pMG). In BV-2 cells and pMG, RT-PCR analysis revealed expression of SNATs (Slc38a1, Slc38a2), but not of GlyRs (Glra1-4). In BV-2 cells, glycine (5 mM) led to a rapid Na(+)-dependent depolarization of membrane potential (V mem). Furthermore, glycine increased CV by about 9%. Visualizing of phagocytosis of polystyrene microspheres by scanning electron microscopy revealed that glycine (1 mM) increased the number of BV-2 cells containing at least one microsphere by about 13%. Glycine-dependent increase in phagocytosis was suppressed by the SNAT inhibitor α-(methylamino)isobutyric acid (MeAIB), by replacing extracellular Na(+) with choline, and under hypertonic conditions, but not by the GlyR antagonist strychnine or the GlyR agonist taurine. Interestingly, hypertonicity-induced suppression of phagocytosis was rescued by glycine. These findings demonstrate that glycine increases phagocytosis in iso- and hypertonic conditions by activation of SNATs.

Chloride channel blockers suppress formation of engulfment pseudopodia in microglial cells.

BACKGROUND/AIMS: Phagocytosis depends on the formation of engulfment pseudopodia surrounding the target. We tested in microglia, monocyte-derived cells in the brain, whether a swelling-activated Cl(-)-current (I(Cl,swell)), required for global cell volume (CV) regulation, also contributes to local expansion and retraction of engulfment pseudopodia. METHODS: We used scanning electron microscopy (SEM) and confocal laser scanning microscopy (CLSM) to visualize and quantify the uptake of polystyrene microbeads (MBs) by microglial cells. Flow cytometry was used for cell volume measurments and I(Cl,swell) was measured by whole-cell patch clamp. RESULTS: We found that exposure of microglial BV-2 cells to MBs in Cl(-)-free extracellular solution attenuated MB uptake and that the Cl(-)-channel blockers DIOA, flufenamic acid, NPPB and DCPIB suppressed the uptake of MBs in BV-2 cells and in primary microglial cells. Microglial cells exposed to MBs in the presence of Cl(-) channel blockers failed to extend engulfment pseudopodia. We observed that cells containing at least three MBs revealed an about twofold increase in current density of I(Cl, swell) compared to cells without MB. Osmotic challenges to stimulate global CV regulation before exposure to MBs modulated phagocytosis. Pre-conditioning of cells in hypo- or hypertonic medium for 12-16 hours caused a decrease in MB uptake. CONCLUSION: These findings indicate that I(Cl,swell) contributes to formation of engulfment pseudopodia and participates in engulfment and particle uptake in microglial cells.

Perturbation of intracellular K(+) homeostasis with valinomycin promotes cell death by mitochondrial swelling and autophagic processes.

Perturbation of cellular K(+) homeostasis is a common motif in apoptosis but it is unknown whether a decrease in intracellular K(+) alone is sufficient to replicate apoptotic hallmarks. We investigated, which mode of cell death is induced by decreasing the intracellular K(+) concentration using valinomycin, a highly K(+)-selective ionophore. Valinomycin treatment induced mitochondrial swelling and minor nuclear changes in cell lines (BV-2, C6, HEK 293), and in primary mouse microglia and astrocytes. In the microglial cell line BV-2, we identified and quantified three phenotypes in valinomycin-exposed cells. The first and most prevalent phenotype (62 ± 2%) was characterized by swollen mitochondria and no chromatin condensation, and the second (25 ± 3%) by swollen mitochondria and slight chromatin condensation. Only the third phenotype (11 ± 4%) fulfilled criteria of apoptosis by having normal-sized mitochondria and strongly condensed chromatin. Valinomycin-induced swelling of mitochondria was not altered by the adenine nucleotide translocase inhibitor bongkrekic acid (BA), the pan caspase inhibitor Z-VAD-FMK, changing extracellular K(+) or Cl(-) concentrations, or the membrane-permeable Ca(2+) chelator BAPTA-AM. Only co-exposure of cells to valinomycin and the Ca(2+) ionophore ionomycin in high K(+) Cl(-)-free extracellular solution suppressed mitochondrial swelling. Ionomycin alone caused shrinkage of mitochondria. Additionally, valinomycin promoted autophagic processes, which were further enhanced by preincubation with BA or with Z-VAD-FMK. Valinomycin-dependent chromatin condensation was inhibited by BA, Z-VAD-FMK, BAPTA-AM, and ionomycin. Our findings demonstrate that mitochondrial swelling and autophagy are common features of valinomycin-exposed cells. Accordingly, valinomycin promotes an autophagic cell death mode, but not apoptosis.

From Pinocytosis to Methuosis-Fluid Consumption as a Risk Factor for Cell Death.

The volumes of a cell [cell volume (CV)] and its organelles are adjusted by osmoregulatory processes. During pinocytosis, extracellular fluid volume equivalent to its CV is incorporated within an hour and membrane area equivalent to the cell's surface within 30 min. Since neither fluid uptake nor membrane consumption leads to swelling or shrinkage, cells must be equipped with potent volume regulatory mechanisms. Normally, cells respond to outwardly or inwardly directed osmotic gradients by a volume decrease and increase, respectively, i.e., they shrink or swell but then try to recover their CV. However, when a cell death (CD) pathway is triggered, CV persistently decreases in isotonic conditions in apoptosis and it increases in necrosis. One type of CD associated with cell swelling is due to a dysfunctional pinocytosis. Methuosis, a non-apoptotic CD phenotype, occurs when cells accumulate too much fluid by macropinocytosis. In contrast to functional pinocytosis, in methuosis, macropinosomes neither recycle nor fuse with lysosomes but with each other to form giant vacuoles, which finally cause rupture of the plasma membrane (PM). Understanding methuosis longs for the understanding of the ionic mechanisms of cell volume regulation (CVR) and vesicular volume regulation (VVR). In nascent macropinosomes, ion channels and transporters are derived from the PM. Along trafficking from the PM to the perinuclear area, the equipment of channels and transporters of the vesicle membrane changes by retrieval, addition, and recycling from and back to the PM, causing profound changes in vesicular ion concentrations, acidification, and-most importantly-shrinkage of the macropinosome, which is indispensable for its proper targeting and cargo processing. In this review, we discuss ion and water transport mechanisms with respect to CVR and VVR and with special emphasis on pinocytosis and methuosis. We describe various aspects of the complex mutual interplay between extracellular and intracellular ions and ion gradients, the PM and vesicular membrane, phosphoinositides, monomeric G proteins and their targets, as well as the submembranous cytoskeleton. Our aim is to highlight important cellular mechanisms, components, and processes that may lead to methuotic CD upon their derangement.

L-Glutamine-induced apoptosis in microglia is mediated by mitochondrial dysfunction.

Under physiological conditions, astrocytes take up L-glutamate from the synaptic gap, metabolize it to L-glutamine and return it to neurons, where L-glutamine is metabolized to L-glutamate and stored in neurotransmitter vesicles. However, under pathological conditions, such as hepatic failure, L-glutamine and ammonium are elevated globally in the brain. The Trojan horse hypothesis of L-glutamine toxicity assumes that intramitochondrial hydrolysis of L-glutamine enhances ammonium locally and leads to mitochondrial dysfunction. In the present study, we show that exposure of murine primary microglia as well as of the microglial cell-line BV-2 to L-glutamine promotes chromatin condensation and formation of crescent-like structures in the nucleus. Furthermore, L-glutamine induced an increase in annexin-V labelling, cell shrinkage (apoptotic volume decrease), cell fragmentation and formation of apoptotic bodies. Inhibition of the phosphate-activated glutaminase with 6-diazo-5-oxo-L-norleucine suppressed chromatin condensation and annexin-V labelling in L-glutamine-exposed cells. In addition, inhibition of the glutamine synthetase with L-methionine sulfoximine suppressed chromatin condensation and annexin-V labelling in ammonium-exposed cells. L-glutamine and ammonium enhanced production of reactive oxygen species, as detected with CM-H(2)DCFDA. Apoptosis, induced by L-glutamine, was inhibited either by the radical scavenger alpha-tocopherol or by the nitric oxide synthase blocker N (G)-methyl-L-arginine. Cyclosporin A, a ligand of the permeability transition pore complex component cyclophilin D, prevented L-glutamine-triggered apoptosis. Furthermore, blockade of caspase-9 activity with Z-LEHD-FMK prevented L-glutamine-triggered apoptosis. Taken together, our results indicate that hydrolysis of l-glutamine and, accordingly, accumulation of ammonium in mitochondria induce the intrinsic pathway of apoptosis, characterized by mitochondrial dysfunction and activation of caspase-9, which activates caspase-3.

cAMP-dependent chloride conductance evokes ammonia-induced blebbing in the microglial cell line, BV-2.

Cell blebbing is a key feature in apoptosis. Because blebbing dynamically alters cell volume and regulatory volume changes have been linked to chloride (Cl) channels, we evaluated an association between blebbing and Cl channels activity. We used scanning electron microscopy, confocal laser microscopy, and cell sorting to quantify cell volume and blebbing and whole-cell recording to characterize Cl(-) currents. We found that blockade of Cl channel activity as well as inhibition of adenylyl cyclase or protein kinase A (PKA) activity suppressed ammonia-induced blebbing in the microglia cell line, BV-2. In further experiments, we elucidated the common mechanism of Cl channel activity and cyclic adenosine 3',5'-monophosphate (cAMP)-dependent pathway on cell blebbing. These experiments indicated that perfusion of cells with cAMP or the catalytic subunit of PKA activated a Cl(-) current under normotonic conditions. The pharmacological profile (sensitivity to 5-nitro-2-(3-phenylpropylamino)benzoic acid [NPPB], flufenamic acid, and [(dihydroindenyl)oxy]alkanoic acid [DIOA]), outward rectification, and kinetic of the current were identical to the swelling-activated Cl channel. Superfusion of cells with ammonia elicited an outwardly rectifying current sensitive to Cl channel blockers. We propose that ammonia induces a PKA-dependent phosphorylation of Cl channels. Localized influx of Cl(-) is followed by influx of water, required for bleb expansion.

Heterogeneous effects of distinct tocopherol analogues on NO release, cell volume, and cell death in microglial cells.

Tocopherols (vitamin E) are potent antioxidants as well as modulators of enzymes involved in signal transduction, like nitric oxide synthase (NOS). In primary murine microglial cells and in the microglial cell line BV-2, alpha-, gamma-, and delta-tocopherol and alpha-tocopherol acid succinate, respectively, promote nitric oxide (NO) release. The NOS inhibitors aminoguanidine and N(G)-methyl-L-arginine (L-NMMA) suppressed alpha- and gamma-tocopherol-induced NO release, but had no significant effect on delta-tocopherol- and alpha-tocopherol acid succinate-induced NO release. In BV-2 cells, but not in primary microglial cells, gamma- and delta-tocopherol and alpha-tocopherol acid succinate, respectively, led to cell death, characterized by exposition of phosphatidylserine on the cell surface, chromatin condensation, changes in cell volume, and formation of blebs on the cell surface. Aminoguanidine, L-NMMA, and the NO scavenger 2-phenyl-4,4,5,5-tetramethylimidazoline-1-oxyl 3-oxide (PTIO) enhanced apoptosis in gamma-tocopherol-exposed cells and suppressed apoptosis in delta-tocopherol-treated cells, but had no effect on cells supplemented with alpha-tocopherol acid succinate. The NO donors sodium nitroprusside and 2-(N,N-diethylamino)-diazenolate 2-oxide enhanced apoptosis in gamma- or delta-tocopherol-treated cells, but rescued cells from alpha-tocopherol acid succinate-induced cell death.

Blockade of chloride channels suppresses engulfment of microspheres in the microglial cell line, BV-2.

Microglial cells, monocyte-derived cells in the brain, phagocytose apoptotic and necrotic cells during neurodegenerative processes. As uptake of particles increases cellular volume and swelling-activated chloride channels participate in volume regulation, we investigated the phagocytotic capacity of microglial cells exposed to blockers of swelling-activated chloride channels. We visualized engulfment of hydrophobic polystyrenic microspheres (4 microm in diameter) in the microglial cell line, BV-2, using scanning electron microscopy and confocal laser microscopy. Microspheres instead of apoptotic cells were used because in scanning electron micrographic images, engulfed particles were clearly discriminated from attached ones. Exposure of BV-2 cells to the chloride channel blocker, flufenamic acid (200 microM) or NPPB (200 microM), eliminated uptake of microspheres almost completely. SITS (1 mM), which blocks chloride channels and to some extend K-Cl cotransporters (KCC), had only a moderate inhibiting impact on particle uptake. DIOA, a compound that inhibits KCC as well as chloride channels, did not inhibit particle uptake in BV-2 cells. Osmotic challenge by hypoosmotic saline (60% saline) elicited a swelling-activated chloride channel sensitive to SITS (1 mM) and flufenamic acid (200 microM). Because uptake of particles requires formation of engulfment pseudopodia, we hypothesize that engulfment pseudopodia are initially nothing but local swellings and that activation of swelling-activated chloride channels participates in the formation of these swellings.

Corticosterone response in a resident-intruder-paradigm depends on social state and coping style in adolescent male Balb-C mice.

OBJECTIVE: Social stressors modulate the hypothalamic-pituitary-adrenal axis in rodents. However, reports on the association between corticosterone level and behavioural responses to the stressor are ambivalent. This may depend on the experimental paradigm, species- and strain-differences, duration of exposure to the stressor, but also on using either the social state (dominant or subordinate) or the coping style (proactive or passive) of an animal to correlate the corticosterone level with. DESIGN AND SETTING: We used male Balb-C mice in a resident-intruder paradigm. Adolescent intruders (aged five to eight weeks) were transferred into the cage of an adult resident (aged about four month) for five minutes. The interactions were video-taped for behavioural analysis. Ten minutes after the encounters, intruders were sacrificed and blood samples were collected. RESULTS: Dominant intruders showed offensive behaviours (attack, chase, tail tracking) and won most of the fights, whereas subordinate intrudes showed mainly submissive behaviours (flight, freezing) and were further classified into active and passive subordinates. Active subordinates displayed significantly more flight-behaviour than passive subordinates. Dominant intruders showed significantly higher post-stress levels of corticosterone than subordinates, which did not differ from control mice, which experienced five minutes of novel-cage exposure. Comparing all three behavioural phenotypes we found the lowest corticosterone levels in active subordinates. CONCLUSION: Social state significantly affects the HPA-axis response to acute social stressors.

Ultraviolet irradiation-induced apoptosis does not trigger nuclear fragmentation but translocation of chromatin from nucleus into cytoplasm in the microglial cell-line, BV-2.

Chromatin condensation, decrease of nuclear volume, and nuclear fragmentation are key features of apoptosis (programmed cell death) in many eukaryotic cells. How chromatin is redistributed in a continuously shrinking nucleus is an intriguing question. To evaluate this interesting spatial problem, we studied the ultrastructural distribution of chromatin in distinct stages of apoptosis using the microglial cell-line, BV-2, as a model and UV irradiation as a trigger of apoptosis. During apoptosis, condensed chromatin accumulated initially at the nuclear periphery and, subsequently, occupied almost the entire nucleus. Surprisingly, nuclei did not fragmentize, but apoptotic cells showed condensed chromatin in the nucleus as well as in the nucleus-attached cytoplasm. During apoptosis, the nuclear envelope dilated and decreased in extension by formation of numerous electron lucent vesicles, which accumulated in the cytoplasm. Furthermore, we observed in BV-2 cells well-known apoptotic features, like increased caspase-3/7 activity and annexin V labeling, as well as a sequence of cell morphological alterations, including cell shrinkage, zeiosis, and formation of apoptotic bodies. Thus, our findings suggest that UV-induced chromatin degradation is not restricted to the nucleus but may also take place in the cytoplasm in BV-2 cells.

An artificial three-dimensional matrix promotes ramification in the microglial cell-line, BV-2.

Three-dimensional (3D) cell culture yields strikingly different cell phenotypes compared to two-dimensional (2D) cell culture. Since microglia, monocyte derived immune cells in the brain, exist in a variety of cell shapes ranging from amoeboid to ramified, we evaluated the impact of 2D versus 3D culture conditions on cell shape. The microglial cell-line, BV-2, was either cultured on poly-D-lysine coated dishes (2D culture conditions) or in a BD Pura Matrix Peptide Hydrogel (3D culture conditions) in the absence or presence of the extracellular matrix proteins, fibronectin and collagen type I, respectively. We identified five distinct morphological phenotypes (amoeboid, bipolar, tripolar, multipolar, ramified) and compared the frequency distribution of these phenotypes under different culture conditions using a chi(2) test. Culture of BV-2 cells in an inert 3D matrix shifted the frequency distribution from an amoeboid dominated population, which is typical for BV-2 cells cultured under conventional 2D conditions, to a population dominated by multipolar phenotypes. Fibronectin or collagen type I significantly suppressed matrix-induced ramification. These cell culture experiments illustrate the dependency of cell shape on spatial distribution of potential adhesion sites.

Progesterone and its metabolites 5-dihydroprogesterone and 5-3-tetrahydroprogesterone decrease LPS-induced NO release in the murine microglial cell line, BV-2.

OBJECTIVE: Microglial cells, important immunosurveillance cells in the nervous system, respond to pathogens with an increase in inducible nitric oxide synthase (iNOS) expression and nitric oxide (NO) release. Because excessive release of NO may be neurotoxic, tight regulation of nitrosative stress is required. DESIGN AND SETTING: We cultured the murine microglial cell-line, BV-2, with bacterial lipopolysaccharide (LPS) to induce NO synthesis and quantified the impact of progesterone and its metabolites, 5alpha-dihydroprogesterone (DHP) and 5alpha-3alpha-tetrahydroprogesterone (THP), on NO release. RESULTS: Our in vitro experiments showed that in BV-2 cells LPS-induced NO release is suppressed by progesterone and THP. Both neurosteroids decreased NO release by about 40% when used at a concentration of 10 microM. NO release was less sensitive to DHP. This neurosteroid decreased NO release only by 20% when used at a concentration of 10 microM. NO release was sensitive to N(G)-methyl-L-arginine (L-NMMA), a completive inhibitor of NOS, indicating that LPS-induced NO release is mediated by NOS activity. Trypan blue exclusion experiments showed that the ratio of viable to dead cells did not vary using different concentrations of progesterone. Furthermore, progesterone did not increase apoptosis or necrosis when estimated by the distribution of DAPI-labelled condensed chromatin. CONCLUSION: These experiments indicate that the decline in NO release is mainly due to modulation of NOS activity or expression. Because progesterone, DHP, and THP are synthesized in astrocytes and oligodendrocytes, these neurosteroids may locally suppress an immune response.