Hubert H Kerschbaum’s research while affiliated with University of Salzburg and other places

What is this page?


This page lists works of an author who doesn't have a ResearchGate profile or hasn't added the works to their profile yet. It is automatically generated from public (personal) data to further our legitimate goal of comprehensive and accurate scientific recordkeeping. If you are this author and want this page removed, please let us know.

Publications (107)


Phase contrast images showing the gradual development of vacuoles in 3T3 cells incubated in 33% DMEM. Approximately the same area was imaged at a 40 × magnification every time. The vacuoles were barely visible at 30 min; their substantial expansion occurred by 2 h and they became large and numerous by 4–6 h. Arrows point at representative vacuoles or their precursors (at 0.5 h). Based on 6 experiments with 3T3 cells and 102 cells analyzed, 92 ± 7% of the cells had at least one vacuole (V1), 86 ± 15% had at least five vacuoles (V5), and 74 ± 20% had at least one vacuole with a diameter of > 2 µm (V2µm). Scale bar, 25 μm.
(A,B) Bright-field images of HeLa cells incubated for 6 h with VNGO in the low-sodium buffer (A) or in the same buffer, where 0.075 mM KCl was replaced with 0.15 M sucrose (B). Cell swelling and the absence of vacuoles were observed in the buffer with normal chloride content; however, partial replacement of chloride with sucrose reversed the swelling and resulted in multiple vacuoles. The high-sodium, low-potassium buffer had a similar effect. The V values were V1 = 80–89%, V5 = 74–89%, V2μm = 14–50% for sodium and potassium-based buffers supplemented with sucrose but zero in the absence of sucrose. Scale bar, 15 μm. (C) The simulation of the effect of sucrose at a high ion permeability due to ionophores (p = 1 for all ions, using the definitions adopted in the software) and with the Na,K pump inhibited by ouabain (β = 0.001) showed that at a steady state, intracellular chloride becomes depleted when part of external chloride is replaced with isotonic sucrose.
Phase contrast images of the LateVacs. (A) 3T3 cells incubated in the gluconate buffer. (B) 3T3 cells incubated in the low-sodium buffer. (C) HeLa cells incubated in the nitrate buffer. All the incubations were carried out for 6 h. These images cannot necessarily be seen as representative, because the size and the number of vacuoles varied between experiments (see Table 1), but they were common enough. Scale bar, 20 μm.
The effect of double WNK1/WNK3 knockout (DKO) on vacuolation. Wildtype and mutant HEK cells were observed after a 6 h incubation in the hypotonic solution (33% DMEM) or in a low-chloride buffer based on sodium nitrate. Also see Table 2 for quantification. Scale bar, 25 µm.
Confocal images of lipid staining reveal the membrane surrounding a single hypotonically-induced LateVac in HeLa (incubated overnight in 25% DMEM). The contrast inversion in bright field at defocusing indicates that the vacuoles have a low dry mass concentration: while optically denser compartments show a dark rim at overfocusing (the objective positioned too far from the object, BF1) and a light rim at underfocusing (objective brought too close, BF2), the vacuoles display the opposite behavior. Scale bar, 10 μm.

+5

Delayed vacuolation in mammalian cells caused by hypotonicity and ion loss
  • Article
  • Full-text available

November 2024

·

36 Reads

Emily Zook

·

Yingzhou Edward Pan

·

Anna Wipplinger

·

[...]

·

Prolonged exposure of mammalian cells to hypotonic environments stimulates the development of sometimes large and numerous vacuoles of unknown origin. Here, we investigate the nature and formation of these vacuoles, which we term LateVacs. Vacuolation starts after osmotic cell swelling has subsided and continues for many hours thereafter. Most of the vacuoles are positive for the lysosomal marker LAMP-1 but not for the autophagosomal marker LC3. Vacuoles do not appear to have acidic pH, as they exclude LysoTracker and acridine orange; inhibiting the V-ATPase with bafilomycin A1 has no effect on their formation. No LateVacs were formed in cells with a knockout of the essential LRRC8A subunit of the volume-regulated anion channel (VRAC). Since the main feature of cells recovered from hypotonic swelling should be reduced chloride concentration, we tested if chloride depletion can act as a signal for vacuolation. Indeed, four different low-chloride buffers resulted in the development of similar vacuoles. Moreover, vacuolation was suppressed in WNK1/WNK3 double knockouts or by the inhibition of WNK kinase, which is activated by low chloride; in hypotonic media, the WNK inhibitor had a similar effect. However, exposing cells to a low-sodium, high-potassium medium also resulted in vacuoles, which were insensitive to WNK. We conclude that vacuole development can be triggered either by the loss of chloride or by the loss of sodium.

Download

Lipid-nanoparticle-induced vacuolization in microglia

November 2024

·

29 Reads

Communications Biology

Lipid-containing vacuoles in microglia were discovered more than one hundred years ago in the brain of patients showing neurodegenerative processes. Recently, molecular-biological studies demonstrated specific changes in lipid-metabolism related to neurodegeneration. Despite that already Alzheimer described a distinct glia phenotype having large, lipid-containing vacuoles (Gitterzellen), little is known about how microglia convert lipid metabolites into a vacuolated phenotype. We studied the impact of liver-derived, insoluble, lipid-enriched nanoparticles (Lef-NP) ( ~ 20 nm) and of ceramide-coated Percoll-nanoparticles (Cer-NP) ( ~ 20 nm) on vacuolization in microglia. Lipidomic analysis of Lef-NP revealed numerous distinct lipids, including pro-inflammatory ceramides, which are enriched in the brain of Alzheimer patients. Video microscopy revealed that hepatocyte-derived Lef-NP and Cer-NP enhanced macropinocytosis, followed by macropinosome swelling and formation of the Gitterzellen phenotype. Neither ceramide nor Percoll-nanoparticles induced Gitterzellen-formation. Electron-tomography visualized membrane contact-sites between nanoparticle-loaded endosomes, endoplasmic reticulum cisternae and mitochondria. Suppression of lipid-nanoparticle-induced Gitterzellen-formation by amiloride, which supresses macropinocytosis, and bafilomycin A, an endosomal acidification inhibitor, further confirmed a pinocytotic pathway in Gitterzellen-formation. Bafilomycin A also reversed Gitterzellen to a ramified microglia phenotype. Our experimental findings suggest that lipid-nanoparticles but not emulsified lipids provoke vacuolization in microglia, and provide a simple in-vitro model for a pathogenic process taking years in the human brain.



Fronto-parietal alpha ERD and visuo-spatial attention in pregnant women

January 2023

·

49 Reads

·

3 Citations

Brain Research

Many pregnant women report impairments in their attentional capacities. However, comparative studies between pregnant and non-pregnant women using standardised attention paradigms are rare and inconsistent. During attention tasks alpha activity is known to suppress irrelevant sensory inputs and previous studies show that a large event-related desynchronisation (ERD) in the alpha range prior to target-onset predicts enhanced attentional processing. We quantified the relationship between performance (accuracy, response time) in a standardised visuo-spatial attention task and alpha ERD (∼6–12 Hz) as well as saliva estradiol level in fifteen pregnant women (M = 26.6, SD = 3.0 years) compared to fifteen non-pregnant, naturally cycling women (M = 23.1, SD = 4.3 years). Compared to non-pregnant women, alpha frequency was increased in pregnant women. Furthermore, pregnant women showed a greater magnitude of the alpha ERD prior to target-onset and a moderate increase in accuracy compared to non-pregnant women. In addition, accuracy correlated negatively with estradiol in pregnant women as well as with frontal alpha ERD in all women. These correlational findings indicate that pregnancy-related enhancement in alpha desynchronisation in a fronto-parietal network might modulate accuracy during a visuo-spatial attention task.


Oral Contraceptives Modulate the Relationship Between Resting Brain Activity, Amygdala Connectivity and Emotion Recognition – A Resting State fMRI Study

March 2022

·

183 Reads

·

13 Citations

Recent research into the effects of hormonal contraceptives on emotion processing and brain function suggests that hormonal contraceptive users show (a) reduced accuracy in recognizing emotions compared to naturally cycling women, and (b) alterations in amygdala volume and connectivity at rest. To date, these observations have not been linked, although the amygdala has certainly been identified as core region activated during emotion recognition. To assess, whether volume, oscillatory activity and connectivity of emotion-related brain areas at rest are predictive of participant’s ability to recognize facial emotional expressions, 72 participants (20 men, 20 naturally cycling women, 16 users of androgenic contraceptives, 16 users of anti-androgenic contraceptives) completed a brain structural and resting state fMRI scan, as well as an emotion recognition task. Our results showed that resting brain characteristics did not mediate oral contraceptive effects on emotion recognition performance. However, sex and oral contraceptive use emerged as a moderator of brain-behavior associations. Sex differences did emerge in the prediction of emotion recognition performance by the left amygdala amplitude of low frequency oscillations (ALFF) for anger, as well as left and right amygdala connectivity for fear. Anti-androgenic oral contraceptive users (OC) users stood out in that they showed strong brain-behavior associations, usually in the opposite direction as naturally cycling women, while androgenic OC-users showed a pattern similar to, but weaker, than naturally cycling women. This result suggests that amygdala ALFF and connectivity have predictive values for facial emotion recognition. The importance of the different connections depends heavily on sex hormones and oral contraceptive use.


Macropinocytosis occurring in a section of a multinucleated giant cell from a rat non-parenchymal hepatic cell line putatively representing immortalized monocytes (Kupffer cells). The image series shows a section of a giant cell where pinocytosis occurs. The process starts with the formation of a membrane ruffle at minute 2 (2′; arrow) from which an array of vesicles (pinosomes) originates (3′–4′). Further ruffling can be seen at the cell periphery (2′; arrowhead). A second ruffle is forming at minute 5 (5′; arrow) from which additional pinosomes derive (5′–7′). The whole pinosome array subsequently moves toward the center area of the giant cell (8′–18′) locating to the vicinity of a nucleus (N in 18′). Terminally, the vesicles start to disappear in the perinuclear (pericentral) cytosol (20′). Scale bar = 10 μm. The whole live cell imaging sequence can be seen in Supplementary Video 1.
Simplified scheme of key processes in vesicle/vacuole formation and processing during normal macropinocytosis and in methuosis. Macropinocytosis is an actin-driven process that is triggered by various stimuli. It starts with ruffling of the plasma membrane (PM) and formation of a pinocytotic cup, which engulfs extracellular fluid and forms a pinosome by membrane fusion at the tip of a lamellipodium-like structure. Its membrane contains ion channels and transporters, receptors, among other various PM constituents, e.g., phospholipids. The nascent pinosome unselectively engulfs extracellular fluid, along with its ions, nutrients, and metabolites and eventually also toxins or drugs. It may also enclose particulate matter-like exosomes, micro- or nanoparticles, or pathogens such as bacteria and viruses (pink enclosed structure). Under normal conditions (green vesicles), pinosomes move centripetally, become more and more acidic, shrink along their route, and become tubulated, a process necessary for proper sorting and recycling of the vesicles and their cargo. This requires also its decoration with distinct phospholipids and proteins (not shown). Reusable membrane proteins may become inserted again into the PM when vesicles fuse with it. This also recycles incorporated membrane back to the PM and relieves its tension. Vesicles designated for delivery of their contents to lysosomes—for further processing, digestion, or destruction—fuse with them and finally resolve. The resulting products may be further used, e.g., for the cell’s nutrition. To ensure these processes, cell volume regulation and vesicular volume regulation must work hand in hand. This becomes evident from the fact that during pinocytosis, an extracellular fluid volume and membrane area equivalent to the cell’s volume and to the cell’s surface are incorporated within 1 h and 30 min, respectively. The volume regulatory mechanisms involve movement of ions and osmolytes across the PM by means of specific ion channels and transporters. The driving forces for these fluxes are determined by the electrochemical gradients. Water flux is driven mainly by the osmotic (ΔΠ) but eventually also by the hydrostatic (ΔP) pressure differences. The water permeability of the PM is greatly enhanced by water channels (aquaporins, blue). All of these movements are primarily driven by the activity of the Na⁺/K⁺-ATPase (red transporter in the PM), an ion pump that moves Na⁺ ions out of and K⁺ ions into the cell, while hydrolyzing ATP as energy source. This process sets up the required ionic and osmotic gradients and determines the electrical potential difference Ψ across the PM. The mechanisms for vesicular volume regulation follow the same rules and are in principle identical to those in cell volume regulation, while utilizing their individual set of transporters and channels. In methuosis, a lethal process of aberrant pinocytosis where cells “drink themselves to death,” these processes are severely disturbed (brown vesicles). Fluid uptake by macropinocytosis is enhanced, and instead of shrinking, the vesicles swell, do not acidify, remain non-functional, and do not fuse with lysosomes, but instead they with each other. This leads to the formation of giant vacuoles, catastrophic cell swelling, and consequently to rupture of the PM, cell lysis, and death.
Synopsis of various aspects in macropinocytosis and ion transport in cell volume regulation and vesicular volume regulation, which are also relevant in methuosis. Red dotted arrows indicate action/s on target/s; black arrows indicate metabolic conversion; green combs, phosphoinositides; red combs, inositolphosphates; yellow combs, sugars; green squares, important metabolites; orange letters, ion(s); blue letters, enzymes; ECF, extracellular fluid; ICF, intracellular fluid; IVF, intravesicular fluid; G, heterotrimeric G protein; TKR, tyrosine kinase receptor; NKA, Na⁺/K⁺-ATPase; SOCE, store-operated Ca²⁺ entry; Ψ, transmembrane electrical potential difference. For the meaning of colored asterisks, see insert in the right lower part. For details, nomenclature, and further abbreviations, see text and list of abbreviations.
From Pinocytosis to Methuosis—Fluid Consumption as a Risk Factor for Cell Death

June 2021

·

242 Reads

·

33 Citations

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.


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

June 2021

·

118 Reads

·

13 Citations

Cellular Physiology and Biochemistry

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.


Impact of menstrual cycle phase and oral contraceptives on sleep and overnight memory consolidation

December 2020

·

144 Reads

·

22 Citations

Journal of Sleep Research

Sleep spindles benefit declarative memory consolidation and are considered to be a biological marker for general cognitive abilities. However, the impact of sexual hormones and hormonal oral contraceptives (OCs) on these relationships are less clear. Thus, we here investigated the influence of endogenous progesterone levels of naturally cycling women and women using OCs on nocturnal sleep and overnight memory consolidation. Nineteen healthy women using OCs (MAge = 21.4, SD = 2.1 years) were compared to 43 healthy women with a natural menstrual cycle (follicular phase: n = 16, MAge = 21.4, SD = 3.1 years; luteal phase: n = 27, MAge = 22.5, SD = 3.6 years). Sleep spindle density and salivary progesterone were measured during an adaptation and an experimental night. A word pair association task preceding the experimental night followed by two recalls (pre‐sleep and post‐sleep) was performed to test declarative memory performance. We found that memory performance improved overnight in all women. Interestingly, women using OCs (characterized by a low endogenous progesterone level but with very potent synthetic progestins) and naturally cycling women during the luteal phase (characterized by a high endogenous progesterone level) had a higher fast sleep spindle density compared to naturally cycling women during the follicular phase (characterized by a low endogenous progesterone level). Furthermore, we observed a positive correlation between endogenous progesterone level and fast spindle density in women during the luteal phase. Results suggest that the use of OCs and the menstrual cycle phase affects sleep spindles and therefore should be considered in further studies investigating sleep spindles and cognitive performance.


Fig. 4. Activation of I Cl,swell in the presence of isoproterenol (ISOP). (A) Time course of I Cl,swell activation under hypotonic conditions in the absence (control, CO; n=7) and presence of 1 µM isoproterenol (ISOP; n=6). Each circle represents the current obtained every 10 seconds at -100 mV (inward currents, lower traces) and +100 mV (outward currents, upper traces). Dotted lines denote 95% confidence intervals. Data were fitted by a sigmoidal Boltzmann function which was used to calculate the time to reach the half-maximal current activation (T 50 ). (B) T 50 values for outward currents at +100 mV and inward currents at -100 mV in the absence (control, CO) and presence of 1 µM ISOP. Data were determined from individual sigmoidal Boltzmann fits. Means±SEM. Asterisks denote significant difference from the respective control value. ** p<0.01.
Fig. 8. Noradrenergic suppression of IgG-coated microspheres uptake in primary microglial cells. (A) Representative image of primary microglial cells showing attached (one example is shown with an arrowhead) as well as engulfed (one example is shown with an arrow) microspheres. (B) Average effect on microsphere uptake in the absence (CO) [white bar] and presence of (1) the α-and β-adrenergic agonist noradrenaline (NA 1µM) [black bar], (2) the α2-adrenergic antagonist, yohimbine (10 µM) [grey bar], (3) NA (1 µM) in addition yohimbine (10 µM) [hatched bar] and (4) the α1-adrenergic agonist, phenylephrine (PHE 10 µM) [dark grey bar]. Primary microglial cells were exposed to IgG-coated microspheres for 15 min (n=3). Asterisks denote significant differences when compared to control [white bar] and dollar signs $ denote denote significant differences when compared to CO + yohimbine [grey bar]. Hashes indicate significant differences as indicated. Mean±SEM; * p<0.05, ** p<0.01, *** p<0.001; $$ p<0.01; # p<0.05.
A Swelling-Activated Chloride Current in Microglial Cells is Suppressed by Epac and Facilitated by PKA - Impact on Phagocytosis

April 2019

·

45 Reads

·

10 Citations

Cellular Physiology and Biochemistry

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 β-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 β-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.


Fig. 2. Hypotonic stimulation of BV-2 cells leads to ICl swell activation. Ruptured patch clamp recordings. A. ICl swell activation over time. Mean whole cell currents at +100 and-100 mV of 4-5 individual cells evoked by 15% reduction in extracellular osmolality (hypo) recorded in response to voltage ramps (inset). B. Cl-currents of an individual cell in response to voltage steps (inset) under isotonic conditions, hypotonic conditions (showing typical outward rectification and inactivation over time at constant positive holding potentials), under hypotonic conditions in presence of NPPB (150 µM) and after washout of the inhibitor. C. Current-voltage relations obtained from the tracings shown in (B).
Fig. 3. Hypotonic stimulation of BV-2 cells by a 30% reduction in extracellular osmolality (hypo) causes an initial hyperpolarization followed by a sustained depolarization of V mem. Perforated patch clamp recordings. A. Time course of V mem of a single experiment. Each dot is the mean V mem over 15 s. a. Close-up of the time course. The arrow indicates the initial hyperpolarization. B. Mean V mem under isotonic (iso) conditions (n=11) and under hypotonic (hypo) conditions in absence and presence of DCPIB. 1, initial hyperpolarization (n=11); 2, slow ICl swell-mediated depolarization (n=11); 3 (hatched bar), repolarization under DCPIB (10 µM; n=8). *, p<0.05; **, p<0.01; ***, p<0.001; ns, not significant.
Glycine Induces Migration of Microglial BV-2 Cells via SNAT-Mediated Cell Swelling

October 2018

·

108 Reads

·

12 Citations

Cellular Physiology and Biochemistry

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.


Citations (83)


... For the purpose of the experiment, the choreography was specifically altered to suit the movement abilities and safety of the pregnant woman, and the performance was expressly allowed by a doctor. Regarding the use of EEG during pregnancy, there are already published reports on the safety of this technology in pregnancy [13]. ...

Reference:

Mobile brain imaging in butoh dancers: from rehearsals to public performance
Fronto-parietal alpha ERD and visuo-spatial attention in pregnant women
  • Citing Article
  • January 2023

Brain Research

... Physiological signals provide more comprehensive and complex information and their results are more accurate [3], [4]. There are a lot of physiological signals and brain imaging techniques such as fMRI [8], PET, MEG, and EEG [9] that express brain states, and they are used in emotion recognition [10]- [12]. Among these methods, although fMRI and PET have a high spatial resolution, their temporal resolution is not as well as EEG and MEG signals. ...

Oral Contraceptives Modulate the Relationship Between Resting Brain Activity, Amygdala Connectivity and Emotion Recognition – A Resting State fMRI Study

... Trypan blue was used to localize the dead cells following the Kerschbaum et al. (2021) protocol. For 1 min at RT, the leaves were merged in 40 ml of 0.01 g of trypan blue. ...

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

Cellular Physiology and Biochemistry

... The first observation of cell demise influenced by increased vesicular fluid absorption and the formation of inflated macropinosomes was made in 2008. The connection was made by studying the effect of overstimulation of micropinocytosis on Ras-triggered death in glioblastoma cells [24]. The researchers noticed a previously unseen process that originated from cytoplasmic vacuolation, followed by cell swelling and plasma membrane rupture. ...

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

... Combined OC users appear to perform better on these tasks compared to early follicular or preovulatory NC women (Gogos, 2013;Peragine et al., 2020), women in their inactive pill phase (i.e., taking placebo pills; Mordecai et al., 2008), and men (Gogos, 2013;Jensen et al., 2023;Peragine et al., 2020). Importantly, while there is evidence of null effects (Gurvich et al., 2020;Kuhlmann and Wolf, 2005;Plamberger et al., 2021), no study to date has suggested detrimental effects of OC on verbal memory (Gurvich et al., 2023). Though it has also been reported with word lists (Gogos, 2013;Mordecai et al., 2008), the OC advantage was more consistently detected in the delayed recall of short stories (Gogos, 2013;Jensen et al., 2023;Peragine et al., 2020). ...

Impact of menstrual cycle phase and oral contraceptives on sleep and overnight memory consolidation

Journal of Sleep Research

... [11][12][13][14] The previous studies revealed that the activation of the cAMP/PKA pathway could promote phagocytosis in microglia. [15][16][17] Since the activation of ADORA3 inhibits cAMP, whether the inhibition of ADORA3 could protect against VaD by promoting the phagocytosis of microglia has also attracted our attention. ...

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

Cellular Physiology and Biochemistry

... Consistent with our findings, glycine increases neuronal activity, at least in PAG networks, and stimulates social play behavior. Glycine has also been shown to act as an attractant 57 and activator of microglia, 58 the main ''gardener'' in brain tissue. 59 Taken together, our data suggest that glycine coordinates playful behavior. ...

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

Cellular Physiology and Biochemistry

... L6 myoblasts exposed to monensin contained abnormally elongated mitochondria, an observation not previously reported in this cell type. In freshwater algae and aquatic plants (Micrasterias denticulata and Lemna sp.), ionic stress induces the elongation and fusion of mitochondria, possibly as a mechanism to assist respiration and prevent stress-induced rupture of the mitochondrial outer membrane [46]. Thus, mitochondria in L6 myoblasts may fuse to maintain their function under ion imbalance caused by ionophore exposure, although further investigation is needed to confirm this. ...

Ionic stress induces fusion of mitochondria to 3-D networks: An electron tomography study

Journal of Structural Biology

... Both encoding and involuntary recall of intrusive memories were associated with inferior frontal cortex activity . Miedl et al. (2018) revealed enhanced neural threat processing (comprising dACC, amygdala, and AI) during viewing of aversive film clips relative to a neutral control condition, which was modulated by estradiol levels and hormonal contraception. Exploratory analyses showed that heightened rostral ACC, middle, and inferior frontal cortex activity during aversive film-viewing was associated with lower intrusion frequency three months after the experiment, suggesting regulatory frontal activity to attenuate long-term intrusion formation. ...

Neural activity during traumatic film viewing is linked to endogenous estradiol and hormonal contraception
  • Citing Article
  • October 2017

Psychoneuroendocrinology

... Reproductive aging in women presents a critical period for neurological changes that can have long-term implications for the risk of cognitive impairment and AD later in life. Over the menopausal transition, some women experience a decline in memory performance [2,89], functional changes in episodic and working memory networks [35,36], reduced cerebral glucose metabolism [90,91], increased amyloid-beta deposition [92], and reduced volumes of gray and white matter in regions vulnerable in AD [92]. Further, early surgical menopause was significantly associated with increased risk of AD [93,94]. ...

Sex, Age, and Sex Hormones Affect Recall of Words in a Directed Forgetting Paradigm
  • Citing Article
  • February 2017

Journal of Neuroscience Research