Linda Judák scite author profile

Microglia are the main immune cells of the brain and contribute to common brain diseases. However, it is unclear how microglia influence neuronal activity and survival in the injured brain in vivo. Here we develop a precisely controlled model of brain injury induced by cerebral ischaemia combined with fast in vivo two-photon calcium imaging and selective microglial manipulation. We show that selective elimination of microglia leads to a striking, 60% increase in infarct size, which is reversed by microglial repopulation. Microglia-mediated protection includes reduction of excitotoxic injury, since an absence of microglia leads to dysregulated neuronal calcium responses, calcium overload and increased neuronal death. Furthermore, the incidence of spreading depolarization (SD) is markedly reduced in the absence of microglia. Thus, microglia are involved in changes in neuronal network activity and SD after brain injury in vivo that could have important implications for common brain diseases.

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Alcohol Disrupts Levels and Function of the Cystic Fibrosis Transmembrane Conductance Regulator to Promote Development of Pancreatitis

Maléth

et al. 2015

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BACKGROUND & AIMS Excessive consumption of ethanol is one of the most common causes of acute and chronic pancreatitis. Alterations to the gene encoding the cystic fibrosis transmembrane conductance regulator (CFTR) also cause pancreatitis. However, little is known about the role of CFTR in the pathogenesis of alcohol-induced pancreatitis. METHODS We measured CFTR activity based on chloride concentrations in sweat from patients with cystic fibrosis, patients admitted to the emergency department because of excessive alcohol consumption, and healthy volunteers. We measured CFTR levels and localization in pancreatic tissues and in patients with acute or chronic pancreatitis induced by alcohol. We studied the effects of ethanol, fatty acids, and fatty acid ethyl esters on secretion of pancreatic fluid and HCO3− , levels and function of CFTR, and exchange of Cl− for HCO3− in pancreatic cell lines as well as in tissues from guinea pigs and CFTR knockout mice after administration of alcohol. RESULTS Chloride concentrations increased in sweat samples from patients who acutely abused alcohol but not in samples from healthy volunteers, indicating that alcohol affects CFTR function. Pancreatic tissues from patients with acute or chronic pancreatitis had lower levels of CFTR than tissues from healthy volunteers. Alcohol and fatty acids inhibited secretion of fluid and HCO3− , as well as CFTR activity, in pancreatic ductal epithelial cells. These effects were mediated by sustained increases in concentrations of intracellular calcium and adenosine 3’,5’-cyclic monophosphate, depletion of adenosine triphosphate, and depolarization of mitochondrial membranes. In pancreatic cell lines and pancreatic tissues of mice and guinea pigs, administration of ethanol reduced expression of CFTR messenger RNA, reduced the stability of CFTR at the cell surface, and disrupted folding of CFTR at the endoplasmic reticulum. CFTR knockout mice given ethanol or fatty acids developed more severe pancreatitis than mice not given ethanol or fatty acids. CONCLUSIONS Based on studies of human, mouse, and guinea pig pancreata, alcohol disrupts expression and localization of the CFTR. This appears to contribute to development of pancreatitis. Strategies to increase CFTR levels or function might be used to treat alcohol-associated pancreatitis.

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Fast 3D Imaging of Spine, Dendritic, and Neuronal Assemblies in Behaving Animals

Szalay

Judák

Katona

et al. 2016

Neuron

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SummaryUnderstanding neural computation requires methods such as 3D acousto-optical (AO) scanning that can simultaneously read out neural activity on both the somatic and dendritic scales. AO point scanning can increase measurement speed and signal-to-noise ratio (SNR) by several orders of magnitude, but high optical resolution requires long point-to-point switching time, which limits imaging capability. Here we present a novel technology, 3D DRIFT AO scanning, which can extend each scanning point to small 3D lines, surfaces, or volume elements for flexible and fast imaging of complex structures simultaneously in multiple locations. Our method was demonstrated by fast 3D recording of over 150 dendritic spines with 3D lines, over 100 somata with squares and cubes, or multiple spiny dendritic segments with surface and volume elements, including in behaving animals. Finally, a 4-fold improvement in total excitation efficiency resulted in about 500 × 500 × 650 μm scanning volume with genetically encoded calcium indicators (GECIs).

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Trypsin Reduces Pancreatic Ductal Bicarbonate Secretion by Inhibiting CFTR Cl− Channels and Luminal Anion Exchangers

et al. 2011

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Background & Aims The effects of trypsin on pancreatic ductal epithelial cells (PDEC) vary among species and depend on localization of proteinase-activated receptor-2 (PAR-2). Bicarbonate secretion is similar in human and guinea pig PDEC; we compared its localization in these cell types and isolated guinea pig ducts to study the effects of trypsin and a PAR-2 agonist on this process. Methods PAR-2 localization was analyzed by immunohistochemistry in guinea pig and human pancreatic tissue samples (from 15 patients with chronic pancreatitis and 15 without pancreatic disease). Functions of guinea pig PDEC were studied by microperfusion of isolated ducts, measurements of intracellular pH (pHi) and Ca2+ concentration [Ca2+]i, and patch clamp analysis. The effect of pH on trypsinogen autoactivation was assessed using recombinant human cationic trypsinogen. Results PAR-2 localized to the apical membrane of human and guinea pig PDEC. Trypsin increased [Ca2+]i and pHi, and inhibited secretion of bicarbonate by the luminal anion exchanger and the cystic fibrosis transmembrane conductance regulator (CFTR) Cl- channel. Autoactivation of human cationic trypsinogen accelerated when the pH was reduced from 8.5 to 6.0. PAR-2 expression was strongly down-regulated, at transcriptional and protein levels, in the ducts of patients with chronic pancreatitis, consistent with increased activity of intraductal trypsin. Importantly, in PAR-2 knockout mice, the effects of trypsin were PAR-2 dependent. Conclusions Trypsin reduces pancreatic ductal bicarbonate secretion via PAR-2–dependent inhibition of the apical anion exchanger and the CFTR Cl- channel. This could contribute to the development of chronic pancreatitis, decreasing luminal pH and promoting premature activation of trypsinogen in the pancreatic ducts.

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Ethanol and its non-oxidative metabolites profoundly inhibit CFTR function in pancreatic epithelial cells which is prevented by ATP supplementation

Judák

Hegyi

Rakonczay

et al. 2013

Pflugers Arch - Eur J Physiol

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Excessive alcohol consumption is a major cause of acute pancreatitis, but the mechanism involved is not well understood. Recent investigations suggest that pancreatic ductal epithelial cells (PDECs) help defend the pancreas from noxious agents such as alcohol. Because the cystic fibrosis transmembrane conductance regulator (CFTR) Cl(-) channel plays a major role in PDEC physiology and mutated CFTR is often associated with pancreatitis, we tested the hypothesis that ethanol affects CFTR to impair ductal function. Electrophysiological studies on native PDECs showed that ethanol (10 and 100 mM) increased basal, but reversibly blocked, forskolin-stimulated CFTR currents. The inhibitory effect of ethanol was mimicked by its non-oxidative metabolites, palmitoleic acid ethyl ester (POAEE) and palmitoleic acid (POA), but not by the oxidative metabolite, acetaldehyde. Ethanol, POAEE and POA markedly reduced intracellular ATP (ATPi) which was linked to CFTR inhibition since the inhibitory effects were almost completely abolished if ATPi depletion was prevented. We propose that ethanol causes functional damage of CFTR through an ATPi-dependent mechanism, which compromises ductal fluid secretion and likely contributes to the pathogenesis of acute pancreatitis. We suggest that the maintenance of ATPi may represent a therapeutic option in the treatment of the disease.

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Na⁺/Ca²⁺exchangers regulate the migration and proliferation of human gastric myofibroblasts

Kemény

Schnúr

Czepán

et al. 2013

American Journal of Physiology-Gastrointestinal and Liver Physi

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Sharp-wave ripple doublets induce complex dendritic spikes in parvalbumin interneurons in vivo

et al. 2022

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Neuronal plasticity has been shown to be causally linked to coincidence detection through dendritic spikes (dSpikes). We demonstrate the existence of SPW-R-associated, branch-specific, local dSpikes and their computational role in basal dendrites of hippocampal PV+ interneurons in awake animals. To measure the entire dendritic arbor of long thin dendrites during SPW-Rs, we used fast 3D acousto-optical imaging through an eccentric deep-brain adapter and ipsilateral local field potential recording. The regenerative calcium spike started at variable, NMDA-AMPA-dependent, hot spots and propagated in both direction with a high amplitude beyond a critical distance threshold (~150 µm) involving voltage-gated calcium channels. A supralinear dendritic summation emerged during SPW-R doublets when two successive SPW-R events coincide within a short temporal window (~150 ms), e.g., during more complex association tasks, and generated large dSpikes with an about 2.5-3-fold amplitude increase which propagated down to the soma. Our results suggest that these doublet-associated dSpikes can work as a dendritic-level temporal and spatial coincidence detector during SPW-R-related network computation in awake mice.

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Háromdimenziós, gyors, kétfoton-pásztázó eljárások sejt- és hálózatszintű idegsejtvizsgálatokhoz

Szalay¹,

Judák²,

Szadai³

et al. 2015

Orvosi Hetilap

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Bevezetés: A kétfoton-mikroszkópia ideális eszköz annak tanulmányozására, hogy a különböző jeleket hogyan dolgozza fel az élő agyszövet. Kezdetben a pásztázó képalkotással teljes képeket készítettek, ami nem alkalmas gyors 3D-s jelek, mint például akciós potenciálok nyomon követésére. Célkitűzés: A szerzők célja különféle neuronalis aktivitás mintázatok mérése volt optikai úton. Módszer: A szerzők új lézerpásztázó módszereket dolgoztak ki és kifejlesztették az ezeket megvalósító mikroszkóphardvert. Eredmények: Többszörös vonal menti pásztázás lehetővé teszi, hogy a kísérletező több, számára érdekes mintarészletet mérjen, ennek eredményeképpen nemcsak a mintavételi sebesség nő, hanem a fl uoreszcens tranziensek jel-zaj viszonya is. Ezen elvet továbbvíve kifejlesztettek egy akusztooptikai eltérítő-kön alapuló 3D lézerpásztázó kétfoton-mikroszkópot, amely milliméteres mélységelérési tartománnyal és milliszekundum alatti időfelbontással rendelkezik. Használhatóságának bizonyítására visszaterjedő akciós potenciálok terjedését vizsgálták több száz mikrométer hosszú nyúlványokban, továbbá egérlátókéregben idegsejtek százaiban mérték szimultán a sejtek Ca 2+ -tranzienseit 3D véletlen címzésű üzemmódban, in vivo. Következtetések: A pásztázás leszűkí-tése az érdekes területekre nagy jel-zaj viszonyt és gyors ismétlési sebességet tesz lehetővé, miközben a kétfoton-mikroszkópok nagy behatolási mélysége is megtartott. Orv. Hetil., 2015, 156(52), 2120-2126. Kulcsszavak: mikroszkóp, háromdimenziós képalkotás, idegsejt-képalkotásFast three-dimensional two-photon scanning methods for studying neuronal physiology on cellular and network level Introduction: Two-photon microscopy is the ideal tool to study how signals are processed in the functional brain tissue. However, early raster scanning strategies were inadequate to record fast 3D events like action potentials. Aim: The aim of the authors was to record various neuronal activity patterns with high signal-to-noise ratio in an optical manner. Method: Authors developed new data acquisition methods and microscope hardware. Results: Multiple Line Scanning enables the experimenter to select multiple regions of interests, doing this not just increases repetition speed, but also the signal-to-noise ratio of the fl uorescence transients. On the same principle, an acousto-optical defl ector based 3D scanning microscope has been developed with a sub-millisecond temporal resolution and a millimeter z-scanning range. Its usability is demonstrated by obtaining 3D optical recordings of action potential backpropagation in several hundred micrometers long neuronal processes of single neurons and by 3D random-access

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Linda Judák

Microglia protect against brain injury and their selective elimination dysregulates neuronal network activity after stroke

Alcohol Disrupts Levels and Function of the Cystic Fibrosis Transmembrane Conductance Regulator to Promote Development of Pancreatitis

Fast 3D Imaging of Spine, Dendritic, and Neuronal Assemblies in Behaving Animals

Trypsin Reduces Pancreatic Ductal Bicarbonate Secretion by Inhibiting CFTR Cl− Channels and Luminal Anion Exchangers

Ethanol and its non-oxidative metabolites profoundly inhibit CFTR function in pancreatic epithelial cells which is prevented by ATP supplementation

Na⁺/Ca²⁺exchangers regulate the migration and proliferation of human gastric myofibroblasts

Sharp-wave ripple doublets induce complex dendritic spikes in parvalbumin interneurons in vivo

Háromdimenziós, gyors, kétfoton-pásztázó eljárások sejt- és hálózatszintű idegsejtvizsgálatokhoz

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Linda Judák

Microglia protect against brain injury and their selective elimination dysregulates neuronal network activity after stroke

Alcohol Disrupts Levels and Function of the Cystic Fibrosis Transmembrane Conductance Regulator to Promote Development of Pancreatitis

Fast 3D Imaging of Spine, Dendritic, and Neuronal Assemblies in Behaving Animals

Trypsin Reduces Pancreatic Ductal Bicarbonate Secretion by Inhibiting CFTR Cl− Channels and Luminal Anion Exchangers

Ethanol and its non-oxidative metabolites profoundly inhibit CFTR function in pancreatic epithelial cells which is prevented by ATP supplementation

Na+/Ca2+exchangers regulate the migration and proliferation of human gastric myofibroblasts

Sharp-wave ripple doublets induce complex dendritic spikes in parvalbumin interneurons in vivo

Háromdimenziós, gyors, kétfoton-pásztázó eljárások sejt- és hálózatszintű idegsejtvizsgálatokhoz

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Na⁺/Ca²⁺exchangers regulate the migration and proliferation of human gastric myofibroblasts