Your search keyword '"Kaestner L"' showing total 287 results

151. Commentary: Voltage Gating of Mechanosensitive PIEZO Channels.

Author

Kaestner L and Egee S

Published

2018

152. Editorial: The Red Cell Life-Cycle From Erythropoiesis to Clearance.

Author

Kaestner L and Bogdanova A

Published

2018

153. A Previously Unrecognized Ca 2+ -inhibited Nonselective Cation Channel in Red Blood Cells.

Author

Petkova-Kirova P, Hertz L, Makhro A, Danielczok J, Huisjes R, Llaudet-Planas E, Mañú-Pereira MDM, Vives Corrons JL, van Wijk R, Bogdanova A, and Kaestner L

Abstract

Supplemental Digital Content is available in the text.

Published

2018

154. Classification of red blood cell shapes in flow using outlier tolerant machine learning.

Author

Kihm A, Kaestner L, Wagner C, and Quint S

Subjects

Blood Flow Velocity, Cell Shape physiology, Erythrocytes physiology, Humans, Hydrodynamics, Machine Learning, Models, Theoretical, Neural Networks, Computer, Computational Biology methods, Erythrocytes classification, Erythrocytes cytology

Abstract

The manual evaluation, classification and counting of biological objects demands for an enormous expenditure of time and subjective human input may be a source of error. Investigating the shape of red blood cells (RBCs) in microcapillary Poiseuille flow, we overcome this drawback by introducing a convolutional neural regression network for an automatic, outlier tolerant shape classification. From our experiments we expect two stable geometries: the so-called 'slipper' and 'croissant' shapes depending on the prevailing flow conditions and the cell-intrinsic parameters. Whereas croissants mostly occur at low shear rates, slippers evolve at higher flow velocities. With our method, we are able to find the transition point between both 'phases' of stable shapes which is of high interest to ensuing theoretical studies and numerical simulations. Using statistically based thresholds, from our data, we obtain so-called phase diagrams which are compared to manual evaluations. Prospectively, our concept allows us to perform objective analyses of measurements for a variety of flow conditions and to receive comparable results. Moreover, the proposed procedure enables unbiased studies on the influence of drugs on flow properties of single RBCs and the resulting macroscopic change of the flow behavior of whole blood., Competing Interests: The authors have declared that no competing interests exist.

Published

2018

155. Squeezing for Life - Properties of Red Blood Cell Deformability.

Author

Huisjes R, Bogdanova A, van Solinge WW, Schiffelers RM, Kaestner L, and van Wijk R

Abstract

Deformability is an essential feature of blood cells (RBCs) that enables them to travel through even the smallest capillaries of the human body. Deformability is a function of (i) structural elements of cytoskeletal proteins, (ii) processes controlling intracellular ion and water handling and (iii) membrane surface-to-volume ratio. All these factors may be altered in various forms of hereditary hemolytic anemia, such as sickle cell disease, thalassemia, hereditary spherocytosis and hereditary xerocytosis. Although mutations are known as the primary causes of these congenital anemias, little is known about the resulting secondary processes that affect RBC deformability (such as secondary changes in RBC hydration, membrane protein phosphorylation, and RBC vesiculation). These secondary processes could, however, play an important role in the premature removal of the aberrant RBCs by the spleen. Altered RBC deformability could contribute to disease pathophysiology in various disorders of the RBC. Here we review the current knowledge on RBC deformability in different forms of hereditary hemolytic anemia and describe secondary mechanisms involved in RBC deformability.

Published

2018

156. The Red Blood Cells on the Move!

Author

Bogdanova A and Kaestner L

Published

2018

157. Voltage-Activated Ion Channels in Non-excitable Cells-A Viewpoint Regarding Their Physiological Justification.

Author

Kaestner L, Wang X, Hertz L, and Bernhardt I

Published

2018

158. Red Blood Cell Passage of Small Capillaries Is Associated with Transient Ca 2+ -mediated Adaptations.

Author

Danielczok JG, Terriac E, Hertz L, Petkova-Kirova P, Lautenschläger F, Laschke MW, and Kaestner L

Abstract

When red blood cells (RBCs) pass constrictions or small capillaries they need to pass apertures falling well below their own cross section size. We used different means of mechanical stimulations (hypoosmotic swelling, local mechanical stimulation, passing through microfluidic constrictions) to observe cellular responses of human RBCs in terms of intracellular Ca 2+ -signaling by confocal microscopy of Fluo-4 loaded RBCs. We were able to confirm our in vitro results in a mouse dorsal skinfold chamber model showing a transiently increased intracellular Ca 2+ when RBCs were passing through small capillaries in vivo . Furthermore, we performed the above-mentioned in vitro experiments as well as measurements of RBCs filterability under various pharmacological manipulations (GsMTx-4, TRAM-34) to explore the molecular mechanism of the Ca 2+ -signaling. Based on these experiments we conclude that mechanical stimulation of RBCs activates mechano-sensitive channels most likely Piezo1. This channel activity allows Ca 2+ to enter the cell, leading to a transient activation of the Gardos-channel associated with K + , Cl - , and water loss, i.e., with a transient volume adaptation facilitating the passage of the RBCs through the constriction.

Published

2017

159. An adaptation of astronomical image processing enables characterization and functional 3D mapping of individual sites of excitation-contraction coupling in rat cardiac muscle.

Author

Tian Q, Kaestner L, Schröder L, Guo J, and Lipp P

Subjects

Algorithms, Animals, Rats, Excitation Contraction Coupling, Heart physiology, Imaging, Three-Dimensional methods

Abstract

In beating cardiomyocytes, synchronized localized Ca 2+ transients from thousands of active excitation-contraction coupling sites (ECC couplons) comprising plasma and sarcoplasmic reticulum membrane calcium channels are important determinants of the heart's performance. Nevertheless, our knowledge about the properties of ECC couplons is limited by the lack of appropriate experimental and analysis strategies. We designed CaCLEAN to untangle the fundamental characteristics of ECC couplons by combining the astronomer's CLEAN algorithm with known properties of calcium diffusion. CaCLEAN empowers the investigation of fundamental properties of ECC couplons in beating cardiomyocytes without pharmacological interventions. Upon examining individual ECC couplons at the nanoscopic level, we reveal their roles in the negative amplitude-frequency relationship and in β-adrenergic stimulation, including decreasing and increasing firing reliability, respectively. CaCLEAN combined with 3D confocal imaging of beating cardiomyocytes provides a functional 3D map of active ECC couplons (on average, 17,000 per myocyte). CaCLEAN will further enlighten the ECC-couplon-remodelling processes that underlie cardiac diseases.

Published

2017

160. Is Increased Intracellular Calcium in Red Blood Cells a Common Component in the Molecular Mechanism Causing Anemia?

Author

Hertz L, Huisjes R, Llaudet-Planas E, Petkova-Kirova P, Makhro A, Danielczok JG, Egee S, Del Mar Mañú-Pereira M, van Wijk R, Vives Corrons JL, Bogdanova A, and Kaestner L

Abstract

For many hereditary disorders, although the underlying genetic mutation may be known, the molecular mechanism leading to hemolytic anemia is still unclear and needs further investigation. Previous studies revealed an increased intracellular Ca 2+ in red blood cells (RBCs) from patients with sickle cell disease, thalassemia, or Gardos channelopathy. Therefore we analyzed RBCs' Ca 2+ content from 35 patients with different types of anemia (16 patients with hereditary spherocytosis, 11 patients with hereditary xerocytosis, 5 patients with enzymopathies, and 3 patients with hemolytic anemia of unknown cause). Intracellular Ca 2+ in RBCs was measured by fluorescence microscopy using the fluorescent Ca 2+ indicator Fluo-4 and subsequent single cell analysis. We found that in RBCs from patients with hereditary spherocytosis and hereditary xerocytosis the intracellular Ca 2+ levels were significantly increased compared to healthy control samples. For enzymopathies and hemolytic anemia of unknown cause the intracellular Ca 2+ levels in RBCs were not significantly different. These results lead us to the hypothesis that increased Ca 2+ levels in RBCs are a shared component in the mechanism causing an accelerated clearance of RBCs from the blood stream in channelopathies such as hereditary xerocytosis and in diseases involving defects of cytoskeletal components like hereditary spherocytosis. Future drug developments should benefit from targeting Ca 2+ entry mediating molecular players leading to better therapies for patients.

Published

2017

161. The potential of erythrocytes as cellular aging models.

Author

Kaestner L and Minetti G

Subjects

Animals, Humans, Mammals metabolism, Cellular Senescence, Erythrocytes cytology, Models, Biological

Published

2017

162. The buckling instability of aggregating red blood cells.

Author

Flormann D, Aouane O, Kaestner L, Ruloff C, Misbah C, Podgorski T, and Wagner C

Subjects

Healthy Volunteers, Humans, Protein Binding, Cell Shape, Erythrocyte Aggregation, Erythrocytes cytology, Erythrocytes metabolism, Fibrinogen metabolism

Abstract

Plasma proteins such as fibrinogen induce the aggregation of red blood cells (RBC) into rouleaux, which are responsible for the pronounced shear thinning behavior of blood, control the erythrocyte sedimentation rate (ESR) - a common hematological test - and are involved in many situations of physiological relevance such as structuration of blood in the microcirculation or clot formation in pathological situations. Confocal microscopy is used to characterize the shape of RBCs within rouleaux at equilibrium as a function of macromolecular concentration, revealing the diversity of contact zone morphology. Three different configurations that have only been partly predicted before are identified, namely parachute, male-female and sigmoid shapes, and quantitatively recovered by numerical simulations. A detailed experimental and theoretical analysis of clusters of two cells shows that the deformation increases nonlinearly with the interaction energy. Models indicate a forward bifurcation in which the contacting membrane undergoes a buckling instability from a flat to a deformed contact zone at a critical value of the interaction energy. These results are not only relevant for the understanding of the morphology and stability of RBC aggregates, but also for a whole class of interacting soft deformable objects such as vesicles, capsules or cells in tissues.

Published

2017

163. 'Gardos Channelopathy': a variant of hereditary Stomatocytosis with complex molecular regulation.

Author

Fermo E, Bogdanova A, Petkova-Kirova P, Zaninoni A, Marcello AP, Makhro A, Hänggi P, Hertz L, Danielczok J, Vercellati C, Mirra N, Zanella A, Cortelezzi A, Barcellini W, Kaestner L, and Bianchi P

Subjects

Adenosine Triphosphate metabolism, Adolescent, Adult, Calcium Signaling, Child, Erythrocytes metabolism, Erythroid Precursor Cells metabolism, Family, Female, Glycolysis, Humans, Infant, Inheritance Patterns genetics, Intermediate-Conductance Calcium-Activated Potassium Channels genetics, Male, Models, Biological, Pedigree, Sodium metabolism, Anemia, Hemolytic, Congenital genetics, Channelopathies genetics, Hydrops Fetalis genetics, Mutation genetics

Abstract

The Gardos channel is a Ca 2+ sensitive, K + selective channel present in several tissues including RBCs, where it is involved in cell volume regulation. Recently, mutations at two different aminoacid residues in KCNN4 have been reported in patients with hereditary xerocytosis. We identified by whole exome sequencing a new family with two members affected by chronic hemolytic anemia carrying mutation R352H in the KCNN4 gene. No additional mutations in genes encoding for RBCs cytoskeletal, membrane or channel proteins were detected. We performed functional studies on patients' RBCs to evaluate the effects of R352H mutation on the cellular properties and eventually on the clinical phenotype. Gardos channel hyperactivation was demonstrated in circulating erythrocytes and erythroblasts differentiated ex-vivo from peripheral CD34+ cells. Pathological alterations in the function of multiple ion transport systems were observed, suggesting the presence of compensatory effects ultimately preventing cellular dehydration in patient's RBCs; moreover, flow cytometry and confocal fluorescence live-cell imaging showed Ca 2+ overload in the RBCs of both patients and hypersensitivity of Ca 2+ uptake by RBCs to swelling. Altogether these findings suggest that the 'Gardos channelopathy' is a complex pathology, to some extent different from the common hereditary xerocytosis.

Published

2017

164. PKCα diffusion and translocation are independent of an intact cytoskeleton.

Author

Hui X, Sauer B, Kaestner L, Kruse K, and Lipp P

Subjects

Actins metabolism, Calcium metabolism, Fluorescent Antibody Technique, HEK293 Cells, Humans, Microscopy, Fluorescence, Microtubules metabolism, Protein Binding, Protein Multimerization, Protein Transport, Cytoskeleton metabolism, Protein Kinase C-alpha metabolism

Abstract

Translocation of cytosolic cPKC to the plasma membrane is a key event in their activation process but its exact nature is still unclear with particular dispute whether sole diffusion or additional active transport along the cell's cytoskeleton contributes to cPKC's dynamics. This was addressed by analyzing the recruitment behavior of PKCα while manipulating the cytoskeleton. Photolytic Ca 2+ uncaging allowed us to quantify the kinetics of PKCα redistribution to the plasma membrane when fused to monomeric, dimeric and tetrameric fluorescence proteins. Results indicated that translocation kinetics were modulated by the state of oligomerization as expected for varying Stokes' radii of the participating proteins. Following depolymerization of the microtubules and the actin filaments we found that Ca 2+ induced membrane accumulation of PKCα was independent of the filamentous state of the cytoskeleton. Fusion of PKCα to the photo-convertible fluorescent protein Dendra2 enabled the investigation of PKCα-cytoskeleton interactions under resting conditions. Redistribution following spatially restricted photoconversion showed that the mobility of the fusion protein was independent of the state of the cytoskeleton. Our data demonstrated that in living cells neither actin filaments nor microtubules contribute to PKCα's cytosolic mobility or Ca 2+ -induced translocation to the plasma membrane. Instead translocation is a solely diffusion-driven process.

Published

2017

165. The Molecular Structure of Human Red Blood Cell Membranes from Highly Oriented, Solid Supported Multi-Lamellar Membranes.

Author

Himbert S, Alsop RJ, Rose M, Hertz L, Dhaliwal A, Moran-Mirabal JM, Verschoor CP, Bowdish DM, Kaestner L, Wagner C, and Rheinstädter MC

Subjects

Aspirin administration & dosage, Erythrocyte Membrane drug effects, Humans, Molecular Structure, Silicon chemistry, X-Ray Diffraction, Erythrocyte Membrane chemistry

Abstract

We prepared highly oriented, multi-lamellar stacks of human red blood cell (RBC) membranes applied on silicon wafers. RBC ghosts were prepared by hemolysis and applied onto functionalized silicon chips and annealed into multi-lamellar RBC membranes. High resolution X-ray diffraction was used to determine the molecular structure of the stacked membranes. We present direct experimental evidence that these RBC membranes consist of nanometer sized domains of integral coiled-coil peptides, as well as liquid ordered (l o ) and liquid disordered (l d ) lipids. Lamellar spacings, membrane and hydration water layer thicknesses, areas per lipid tail and domain sizes were determined. The common drug aspirin was added to the RBC membranes and found to interact with RBC membranes and preferably partition in the head group region of the l o domain leading to a fluidification of the membranes, i.e., a thinning of the bilayers and an increase in lipid tail spacing. Our results further support current models of RBC membranes as patchy structures and provide unprecedented structural details of the molecular organization in the different domains.

Published

2017

166. Trifluoperazine-Induced Suicidal Erythrocyte Death and S-Nitrosylation Inhibition, Reversed by the Nitric Oxide Donor Sodium Nitroprusside.

Author

Ghashghaeinia M, Wesseling MC, Ramos E, Petkova-Kirova P, Waibel S, Lang E, Bissinger R, Alzoubi K, Edelmann B, Hosseinzadeh Z, Dreischer P, Shahvaroughi-Farahani A, Mrowietz U, Köberle M, Kaestner L, Bernhardt I, Martínez-Ruiz A, Wieder T, and Lang F

Subjects

Action Potentials drug effects, Calcium metabolism, Cell Size drug effects, Erythrocyte Membrane drug effects, Erythrocytes cytology, Erythrocytes drug effects, Erythrocytes physiology, Hemolysis drug effects, Humans, Ionomycin toxicity, Microscopy, Fluorescence, Nitric Oxide metabolism, Patch-Clamp Techniques, Phosphatidylserines toxicity, Protein Processing, Post-Translational drug effects, Eryptosis drug effects, Nitric Oxide Donors pharmacology, Nitroprusside pharmacology, Trifluoperazine toxicity

Abstract

Background and Purpose: The high potency antipsychotic drug trifluoperazine (10-[3-(4-methyl-1-piperazinyl)-propyl]-2-(trifluoromethyl)-(10)H-phenothiazine dihydrochloride; TFP) may either counteract or promote suicidal cell death or apoptosis. Similar to apoptosis, erythrocytes may enter eryptosis, characterized by phosphatidylserine exposure at the cell surface and cell shrinkage. Eryptosis can be stimulated by an increase in cytoplasmic Ca2+ concentration ([Ca2+]i) and inhibited by nitric oxide (NO). We explored whether TFP treatment of erythrocytes induces phosphatidylserine exposure, cell shrinkage, and calcium influx, whether it impairs S-nitrosylation and whether these effects are inhibited by NO., Methods: Phosphatidylserine exposure at the cell surface was estimated from annexin-V-binding, cell volume from forward scatter, [Ca2+]i from Fluo3-fluorescence, and protein nitrosylation from fluorescence switch of the Bodipy-TMR/Sypro Ruby signal., Results: Exposure of human erythrocytes to TFP significantly enhanced the percentage of annexin-V-binding cells, raised [Ca2+]i, and decreased S-nitrosylation. The effect of TFP on annexin-V-binding was not affected by removal of extracellular Ca2+ alone, but was significantly inhibited by pre-treatment with sodium nitroprusside (SNP), an effect significantly augmented by additional removal of extracellular Ca2+. A 3 hours treatment with 0.1 µM Ca2+ ionophore ionomycin triggered annexin-V-binding and cell shrinkage, effects fully reversed by removal of extracellular Ca2+., Conclusions: TFP induces eryptosis and decreases protein S-nitrosylation, effects blunted by nitroprusside. The effect of nitroprusside is attenuated in the presence of extracellular Ca2+., (© 2017 The Author(s). Published by S. Karger AG, Basel.)

Published

2017

167. NMDA Receptor Activity in Circulating Red Blood Cells: Methods of Detection.

Author

Makhro A, Kaestner L, and Bogdanova A

Subjects

Animals, Blotting, Western, Brain metabolism, Calcium metabolism, Electrophysiology, Humans, Immunoassay, Microglia metabolism, Erythrocytes metabolism, Receptors, N-Methyl-D-Aspartate metabolism

Abstract

Abundance and activity of N-methyl-D-aspartate (NMDA) in circulating red blood cells contributes to the maintenance of intracellular Ca 2+ in these cells and, by doing that, controls red cell volume, membrane stability, and O 2 carrying capacity. Detection of the NMDA receptor activity in red blood cells is challenging as the number of its copies is low and shows substantial cell-to-cell heterogeneity. Receptor abundance is reliably assessed using the radiolabeled antagonist ([ 3 H]MK-801) binding technique. Uptake of Ca 2+ following the NMDA receptor activation is detected in cells loaded with Ca 2+ -sensitive fluorescent dye Fluo-4 AM. Both microfluorescence live-cell imaging and flow cytometry may be used for fluorescence intensity detection. Automated patch clamp is currently used for recording of electric currents triggered by the stimulation of the NMDA receptor. These currents are mediated by the Ca 2+ -sensitive K + (Gardos) channels that open upon Ca 2+ uptake via the active NMDA receptor. Furthermore, K + flux through the Gardos channels induced by the NMDA receptor stimulation in red blood cells may be detected using unidirectional K + ( 86 Rb + ) influx.

Published

2017

168. Does Erythropoietin Regulate TRPC Channels in Red Blood Cells?

Author

Danielczok J, Hertz L, Ruppenthal S, Kaiser E, Petkova-Kirova P, Bogdanova A, Krause E, Lipp P, Freichel M, Kaestner L, and Birnbaumer L

Subjects

Animals, Cations, Divalent, Erythrocytes cytology, Erythrocytes metabolism, Gene Expression, Humans, Ion Transport drug effects, Mice, Primary Cell Culture, Species Specificity, TRPC Cation Channels genetics, Calcium metabolism, Dinoprostone pharmacology, Erythrocytes drug effects, Erythropoietin pharmacology, TRPC Cation Channels metabolism

Abstract

Background: Cation channels play an essential role in red blood cells (RBCs) ion homeostasis. One set of ion channels are the transient receptor potential channels of canonical type (TRPC channels). The abundance of these channels in primary erythroblasts, erythroid cell lines and RBCs was associated with an increase in intracellular Ca2+ upon stimulation with Erythropoietin (Epo). In contrast two independent studies on Epo-treated patients revealed diminished basal Ca2+ concentration or reduced phosphatidylserine exposure to the outer membrane leaflet., Methods: To resolve the seemingly conflicting reports we challenged mature human and mouse RBCs of several genotypes with Epo and Prostaglandin E2 (PGE2) and recorded the intracellular Ca2+ content. Next Generation Sequencing was utilised to approach a molecular analysis of reticulocytes., Results/conclusions: Our results allow concluding that Epo and PGE2 regulation of the Ca2+ homeostasis is distinctly different between murine and human RBCs and that changes in intracellular Ca2+ upon Epo treatment is a primary rather than a compensatory effect. In human RBCs, Epo itself has no effect on Ca2+ fluxes but inhibits the PGE2-induced Ca2+ entry. In murine mature RBCs functional evidence indicates TRPC4/C5 mediated Ca2+ entry activated by Epo whereas PGE2 leads to a TRPC independent Ca2+ entry., (© 2017 The Author(s)Published by S. Karger AG, Basel.)

Published

2017

169. C2-domain mediated nano-cluster formation increases calcium signaling efficiency.

Author

Bonny M, Hui X, Schweizer J, Kaestner L, Zeug A, Kruse K, and Lipp P

Subjects

Calcium metabolism, Cell Membrane enzymology, Computer Simulation, Fluorescence Resonance Energy Transfer, HEK293 Cells, Humans, Macromolecular Substances metabolism, Protein Domains, Stochastic Processes, Structure-Activity Relationship, Tetradecanoylphorbol Acetate pharmacology, Calcium Signaling, Nanoparticles chemistry, Protein Kinase C-alpha chemistry, Protein Kinase C-alpha metabolism

Abstract

Conventional protein kinase Cs (cPKCs) are key signaling proteins for transducing intracellular Ca 2+ signals into downstream phosphorylation events. However, the lifetime of individual membrane-bound activated cPKCs is an order of magnitude shorter than the average time needed for target-protein phosphorylation. Here, we employed intermolecular Förster resonance energy transfer (FRET) in living cells combined with computational analysis to study the spatial organization of cPKCs bound to the plasma membrane. We discovered Ca 2+ -dependent cPKC nano-clusters that significantly extend cPKC's plasma-membrane residence time. These protein patterns resulted from self-assembly mediated by Ca 2+ -binding C2-domains, which are widely used for membrane-targeting of Ca 2+ -sensing proteins. We also established clustering of other unrelated C2-domain containing proteins, suggesting that nano-cluster formation is a key step for efficient cellular Ca 2+ -signaling.

Published

2016

170. Cardiac N-methyl D-aspartate Receptors as a Pharmacological Target.

Author

Makhro A, Tian Q, Kaestner L, Kosenkov D, Faggian G, Gassmann M, Schwarzwald C, and Bogdanova A

Subjects

Animals, Female, Heart drug effects, Humans, Male, Myocytes, Cardiac metabolism, Organ Culture Techniques, Rats, Rats, Wistar, Receptors, N-Methyl-D-Aspartate metabolism, Drug Delivery Systems methods, Excitatory Amino Acid Agonists administration & dosage, Excitatory Amino Acid Antagonists administration & dosage, Myocytes, Cardiac drug effects, Receptors, N-Methyl-D-Aspartate agonists, Receptors, N-Methyl-D-Aspartate antagonists & inhibitors

Abstract

This study focuses on characterization of the cardiac N-methyl D-aspartate receptors (NMDARs) as a target for endogenous and synthetic agonists and antagonists. Using isolated perfused rat hearts, we have shown that intracoronary administration of the NMDAR agonists and antagonists has a pronounced effect on autonomous heart function. Perfusion of rat hearts with autologous blood supplemented with NMDAR agonists was associated with induction of tachycardia, sinus arrhythmia, and ischemia occurring within physiological plasma concentration range for glutamate and glycine. Intracoronary administration of the NMDAR antagonists exerted an antiarrhythmic effect and resulted in bradycardia and improvement of capillary perfusion. Action of antagonists eliprodil, Ro25-6981, memantine, ketamine, and MK-801 on autonomous heart function diverged strikingly from that of L-type Ca channel blockers. Cardiac NMDAR subunit composition differed from that of neuronal receptors and was age specific and chamber specific. Transcripts of the GluN3A and GluN2D were found in all heart chambers, whereas expression of GluN1 and GluN2A and 2C was restricted to the atria. Expression of the GluN2B protein in ventricles increased markedly with age of the animals. The obtained data reveal that NMDARs are expressed in rat heart contributing to the autonomic heart rate regulation and the function of the cardiac conduction system.

Published

2016

171. Comparing the impact of an acute exercise bout on plasma amino acid composition, intraerythrocytic Ca(2+) handling, and red cell function in athletes and untrained subjects.

Author

Makhro A, Haider T, Wang J, Bogdanov N, Steffen P, Wagner C, Meyer T, Gassmann M, Hecksteden A, Kaestner L, and Bogdanova A

Subjects

Adult, Female, Humans, Male, Young Adult, Amino Acids blood, Athletes, Calcium metabolism, Erythrocyte Membrane metabolism, Erythrocytes metabolism, Exercise

Abstract

The N-methyl d-aspartate receptors (NMDARs) mediating Ca(2+) uptake upon stimulation with glutamate and glycine were recently discovered in red blood cells (RBC) of healthy humans. Activation of these receptors with agonists triggered transient Ca(2+)-dependent decrease in hemoglobin oxygen affinity in RBC suspension. The aim of this study was to assess the potential physiological relevance of this phenomenon. Two groups formed by either healthy untrained volunteers or endurance athletes were subjected to a stepwise incremental cycling test to exhaustion. Plasma glutamate levels, activity of the NMDARs, and hemoglobin O2 affinity were measured in blood samples obtained before and after the exercise in both groups. Increase in plasma glutamate levels following exercise was observed in both groups. Transient Ca(2+) accumulation in response to the NMDAR stimulation with NMDA and glycine was followed by facilitated Ca(2+) extrusion from the RBC and compensatory decrease in cytosolic Ca(2+) levels. Short-term activation of the receptors triggered a transient decrease in O2 affinity of hemoglobin in both groups. These exercise-induced responses were more pronounced in athletes compared to the untrained subjects. Athletes were initially presented with lower basal intracellular Ca(2+) levels and hemoglobin oxygen affinity compared to non-trained controls. High basal plasma glutamate levels were associated with induction of hemolysis and formation of echinocytes upon stimulation with the receptor agonists. These findings suggest that glutamate release occurring during exhaustive exercise bouts may acutely facilitate O2 liberation from hemoglobin and improve oxygen delivery to the exercising muscle., (Copyright © 2016 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2016

172. Hyperaldosteronism induces left atrial systolic and diastolic dysfunction.

Author

Reil JC, Tauchnitz M, Tian Q, Hohl M, Linz D, Oberhofer M, Kaestner L, Reil GH, Thiele H, Steendijk P, Böhm M, Neuberger HR, and Lipp P

Subjects

Animals, Calcium metabolism, Diastole, Hyperaldosteronism physiopathology, Rats, Rats, Sprague-Dawley, Sarcoplasmic Reticulum drug effects, Sarcoplasmic Reticulum metabolism, Systole, Ventricular Function, Left drug effects, Ventricular Pressure drug effects, Aldosterone pharmacology, Atrial Function, Left drug effects, Heart Atria drug effects, Hemodynamics drug effects, Myocardial Contraction drug effects, Pressure

Abstract

Patients with hypertension and hyperaldosteronism show an increased risk of stroke compared with patients with essential hypertension. Aim of the study was to assess the effects of aldosterone on left atrial function in rats as a potential contributor to thromboembolism. Osmotic mini-pumps delivering 1.5 μg aldosterone/h were implanted in rats subcutaneously (Aldo, n = 39; controls, n = 38). After 8 wk, left ventricular pressure-volume analysis of isolated working hearts was performed, and left atrial systolic and diastolic function was also assessed by atrial pressure-diameter loops. Moreover, left atrial myocytes were isolated to investigate their global and local Ca 2+ handling and contractility. At similar heart rates, pressure-volume analysis of isolated hearts and in vivo hemodynamic measurements revealed neither systolic nor diastolic left ventricular dysfunction in Aldo. In particular, atrial filling pressures and atrial size were not increased in Aldo. Aldo rats showed a significant reduction of atrial late diastolic A wave, atrial active work index, and increased V waves. Consistently, in Aldo rats, sarcomere shortening and the amplitude of electrically evoked global Ca 2+ transients were substantially reduced. Sarcoplasmic reticulum-Ca 2+ content and fractional Ca 2+ release were decreased, substantiated by a reduced sarcoplasmic reticulum calcium ATPase activity, resulting from a reduced CAMKII-evoked phosphorylation of phospholamban. Hyperaldosteronism induced atrial systolic and diastolic dysfunction, while atrial size and left ventricular hemodynamics, including filling pressures, were unaffected in rats. The described model suggests a direct causal link between hyperaldosteronism and decreased atrial contractility and diastolic compliance., (Copyright © 2016 the American Physiological Society.)

Published

2016

173. Red Cell Properties after Different Modes of Blood Transportation.

Author

Makhro A, Huisjes R, Verhagen LP, Mañú-Pereira Mdel M, Llaudet-Planas E, Petkova-Kirova P, Wang J, Eichler H, Bogdanova A, van Wijk R, Vives-Corrons JL, and Kaestner L

Abstract

Transportation of blood samples is unavoidable for assessment of specific parameters in blood of patients with rare anemias, blood doping testing, or for research purposes. Despite the awareness that shipment may substantially alter multiple parameters, no study of that extent has been performed to assess these changes and optimize shipment conditions to reduce transportation-related artifacts. Here we investigate the changes in multiple parameters in blood of healthy donors over 72 h of simulated shipment conditions. Three different anticoagulants (K3EDTA, Sodium Heparin, and citrate-based CPDA) for two temperatures (4°C and room temperature) were tested to define the optimal transportation conditions. Parameters measured cover common cytology and biochemistry parameters (complete blood count, hematocrit, morphological examination), red blood cell (RBC) volume, ion content and density, membrane properties and stability (hemolysis, osmotic fragility, membrane heat stability, patch-clamp investigations, and formation of micro vesicles), Ca(2+) handling, RBC metabolism, activity of numerous enzymes, and O2 transport capacity. Our findings indicate that individual sets of parameters may require different shipment settings (anticoagulants, temperature). Most of the parameters except for ion (Na(+), K(+), Ca(2+)) handling and, possibly, reticulocytes counts, tend to favor transportation at 4°C. Whereas plasma and intraerythrocytic Ca(2+) cannot be accurately measured in the presence of chelators such as citrate and EDTA, the majority of Ca(2+)-dependent parameters are stabilized in CPDA samples. Even in blood samples from healthy donors transported using an optimized shipment protocol, the majority of parameters were stable within 24 h, a condition that may not hold for the samples of patients with rare anemias. This implies for as short as possible shipping using fast courier services to the closest expert laboratory at reach. Mobile laboratories or the travel of the patients to the specialized laboratories may be the only option for some groups of patients with highly unstable RBCs.

Published

2016

174. Novel potential serological prostate cancer biomarkers using CT100+ cancer antigen microarray platform in a multi-cultural South African cohort.

Author

Adeola HA, Smith M, Kaestner L, Blackburn JM, and Zerbini LF

Subjects

Adult, Aged, Aged, 80 and over, Autoantibodies blood, Case-Control Studies, Cohort Studies, Early Detection of Cancer, Humans, Male, Middle Aged, Neoplasm Grading, Prognosis, Prostatic Hyperplasia diagnosis, Prostatic Hyperplasia epidemiology, Prostatic Neoplasms diagnosis, Prostatic Neoplasms epidemiology, Protein Array Analysis, Proteomics, South Africa epidemiology, Antigens, Neoplasm blood, Biomarkers, Tumor blood, Prostate metabolism, Prostatic Hyperplasia blood, Prostatic Neoplasms blood

Abstract

There is a growing need for high throughput diagnostic tools for early diagnosis and treatment monitoring of prostate cancer (PCa) in Africa. The role of cancer-testis antigens (CTAs) in PCa in men of African descent is poorly researched. Hence, we aimed to elucidate the role of 123 Tumour Associated Antigens (TAAs) using antigen microarray platform in blood samples (N = 67) from a South African PCa, Benign prostatic hyperplasia (BPH) and disease control (DC) cohort. Linear (fold-over-cutoff) and differential expression quantitation of autoantibody signal intensities were performed. Molecular signatures of candidate PCa antigen biomarkers were identified and analyzed for ethnic group variation. Potential cancer diagnostic and immunotherapeutic inferences were drawn. We identified a total of 41 potential diagnostic/therapeutic antigen biomarkers for PCa. By linear quantitation, four antigens, GAGE1, ROPN1, SPANXA1 and PRKCZ were found to have higher autoantibody titres in PCa serum as compared with BPH where MAGEB1 and PRKCZ were highly expressed. Also, p53 S15A and p53 S46A were found highly expressed in the disease control group. Statistical analysis by differential expression revealed twenty-four antigens as upregulated in PCa samples, while 11 were downregulated in comparison to BPH and DC (FDR = 0.01). FGFR2, COL6A1and CALM1 were verifiable biomarkers of PCa analysis using urinary shotgun proteomics. Functional pathway annotation of identified biomarkers revealed similar enrichment both at genomic and proteomic level and ethnic variations were observed. Cancer antigen arrays are emerging useful in potential diagnostic and immunotherapeutic antigen biomarker discovery.

Published

2016

175. In silico verification and parallel reaction monitoring prevalidation of potential prostate cancer biomarkers.

Author

Adeola HA, Calder B, Soares NC, Kaestner L, Blackburn JM, and Zerbini LF

Subjects

Biomarkers, Tumor urine, Computer Simulation, Gene Expression Regulation, Neoplastic, Humans, Male, Neoplasm Proteins urine, Prostatic Neoplasms pathology, Biomarkers, Tumor biosynthesis, Neoplasm Proteins biosynthesis, Prostatic Neoplasms urine, Proteomics

Abstract

Purpose: Targeted proteomics of potential biomarkers is often challenging. Hence, we developed an intermediate workflow to streamline potential urinary biomarkers of prostate cancer (PCa)., Materials & Methods: Using previously discovered potential PCa biomarkers; we selected proteotypic peptides for targeted validation. Preliminary in silico immunohistochemical and single reaction monitoring (SRM) verification was performed. Successful PTPs were then prevalidated using parallel reaction monitoring (PRM) and reconfirmed in 15 publicly available databases., Results: Stringency-based targetable potential biomarkers were shortlisted following in silico screening. PRM reveals top 12 potential biomarkers including the top ranking seven in silico verification-based biomarkers. Database reconfirmation showed differential expression between PCa and benign/normal prostatic urine samples., Conclusion: The pragmatic penultimate screening step, described herein, would immensely improve targeted proteomics validation of potential disease biomarkers.

Published

2016

176. Novel Insights in the Regulation of Phosphatidylserine Exposure in Human Red Blood Cells.

Author

Wesseling MC, Wagner-Britz L, Nguyen DB, Asanidze S, Mutua J, Mohamed N, Hanf B, Ghashghaeinia M, Kaestner L, and Bernhardt I

Subjects

Annexin A5 genetics, Annexin A5 metabolism, Benzophenanthridines pharmacology, Cells, Cultured, Charybdotoxin pharmacology, Erythrocyte Count, Erythrocytes, Gene Expression Regulation, Humans, Intermediate-Conductance Calcium-Activated Potassium Channels antagonists & inhibitors, Intermediate-Conductance Calcium-Activated Potassium Channels genetics, Intermediate-Conductance Calcium-Activated Potassium Channels metabolism, Methomyl analogs & derivatives, Methomyl pharmacology, Naphthalenes pharmacology, Phosphatidylserines chemistry, Phospholipid Transfer Proteins antagonists & inhibitors, Phospholipid Transfer Proteins genetics, Phospholipid Transfer Proteins metabolism, Protein Kinase C-alpha antagonists & inhibitors, Protein Kinase C-alpha genetics, Protein Kinase C-alpha metabolism, Signal Transduction, Calcimycin pharmacology, Calcium metabolism, Lysophospholipids pharmacology, Phosphatidylserines metabolism, Tetradecanoylphorbol Acetate pharmacology

Abstract

Background/aims: In previous publications we were able to demonstrate the exposure of phosphatidylserine (PS) in the outer membrane leaflet after activation of red blood cells (RBCs) by lysophosphatidic acid (LPA), phorbol-12 myristate-13acetate (PMA), or 4-bromo-A23187 (A23187). It has been concluded that three different mechanisms are responsible for the PS exposure in human RBCs: (i) Ca2+-stimulated scramblase activation (and flippase inhibition) by A23187, LPA, and PMA; (ii) PKCα activation by LPA and PMA; and (iii) enhanced lipid flip flop caused by LPA. Further studies aimed to elucidate interconnections between the increased Ca2+ content, scramblase- and PKCα-activation. In addition, the role of the Ca2+-activated K+ channel (Gardos channel) activity in the process of PS exposure needs to be investigated., Methods: The intracellular Ca2+ content and the PS exposure of RBCs have been investigated after treatment with LPA (2.5 µM), PMA (6 µM), or A23187 (2 µM). Fluo-4 and annexin V-FITC has been used to detect intracellular Ca2+ content and PS exposure, respectively. Both parameters (Ca2+ content, PS exposure) were studied using flow cytometry. Inhibitors of the scramblase, the PKCα, and the Gardos channel have been applied., Results: The percentage of RBCs showing PS exposure after activation with LPA, PMA, or A23187 is significantly reduced after inhibition of the scramblase using the specific inhibitor R5421 as well as after the inhibition of the PKCα using chelerythrine chloride or calphostin C. The inhibitory effect is more pronounced when the scramblase and the PKCα are inhibited simultaneously. Additionally, the inhibition of the Gardos channel using charybdotoxin resulted in a significant reduction of the percentage of RBCs showing PS exposure under all conditions measured. Similar results were obtained when the Gardos channel activity was suppressed by increased extracellular K+ content., Conclusion: PS exposure is mediated by the Ca2+-dependent scramblase but also by PKCα activated by LPA and PMA in a Ca2+-dependent and a Ca2+-independent manner. Furthermore, we hypothesize that a hyperpolarisation of RBCs caused by the opening of the Gardos channel is essential for the scramblase activity as well as for a fraction of the LPA-induced Ca2+ entry., (© 2016 The Author(s) Published by S. Karger AG, Basel.)

Published

2016

177. Endothelin-1-induced remodelling of murine adult ventricular myocytes.

Author

Viero C, Wegener S, Scholz A, Ruppenthal S, Tian Q, Tabellion W, Kreinest M, Laschke MW, Kaestner L, and Lipp P

Subjects

Animals, Cells, Cultured, Infusion Pumps, Implantable, Male, Rats, Rats, Wistar, Calcium metabolism, Endothelin-1 administration & dosage, Myocytes, Cardiac drug effects, Myocytes, Cardiac metabolism

Abstract

The precise role of hormones binding to Gαq protein-coupled receptors (H-GαqPCRs) in chronic heart diseases remains poorly understood. To address this, we used a model of cultured adult rat ventricular myocytes stimulated with endothelin-1 (ET-1) or phenylephrine (PE) over a period of 8 days in vitro (DIV). Chronically treated cells showed an increased number of arrhythmogenic Ca(2+) transients when electrically paced at 0.5 Hz. While their post-rest behaviour was preserved, from DIV6 onwards the amplitude of caffeine-evoked Ca(2+) transients was increased in hormone-treated cells, suggesting an elevated sarcoplasmic reticulum Ca(2+) load. The duration of electrically evoked global Ca(2+) transients gradually increased over the culturing time indicating decreased activity of processes removing cytosolic Ca(2+). In treated cells, spontaneous Ca(2+) sparks displayed smaller amplitudes from DIV6 onwards, and a slower decay period for PE (from DIV3) and for ET-1 (from DIV6). This cellular functional remodelling was associated with changes in gene expression: chronic ET-1 treatment decreased PKCγ transcripts, whereas PE increased PKCγ and SERCA2a transcripts as probed by qPCR. Western blot analysis confirmed the upregulation of PKCγ with PE. To study ET-1 receptor desensitization in vivo, osmotic minipumps containing either NaCl or ET-1 were implanted in mice and Ca(2+) signalling was studied in acutely isolated ventricular myocytes after 2 weeks of chronic treatment. Interestingly, while cellular responses to isoproterenol stimulation were preserved in ET-1 treated animals, the inotropic response of myocytes to ET-1 stimulation was abrogated. We therefore conclude that chronic stimulation of cardiac myocytes by H-GαqPCRs induces cellular remodelling of Ca(2+) cycling with altered PKCγ expression and promotion of arrhythmogenic cellular responses., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

178. Cardiac remodeling in Gαq and Gα11 knockout mice.

Author

Wiesen K, Kaiser E, Schröder L, Scholz A, Ruppenthal S, Reil JC, Backes C, Meese E, Meier C, Bogdanova A, Lipp P, and Kaestner L

Subjects

Animals, Cardiomegaly genetics, Cardiomegaly pathology, GTP-Binding Protein alpha Subunits, Gq-G11 genetics, Male, Mice, Mice, Knockout, Mice, Transgenic, Myocytes, Cardiac physiology, Signal Transduction physiology, Stroke Volume physiology, Cardiomegaly metabolism, GTP-Binding Protein alpha Subunits, Gq-G11 deficiency, Heart Rate physiology, Ventricular Remodeling physiology

Abstract

Background: Although both Gαq- and Gα11-protein signaling are believed to be involved in the regulation of cardiac hypertrophy, their detailed contribution to myocardial function remains elusive., Methods and Results: We studied remodeling processes in healthy transgenic mice with genetically altered Gαq/Gα11-expression, in particular a global Gα11-knockout and a novel inducible cardiac specific Gαq-knockout, as well as a combined double knockout (dKO) mouse line. Echocardiography and telemetric ECG recordings revealed that compared with wild type mice, hearts of dKO mice showed an increased ejection fraction and a decreased heart rate, irrespective of age resulting in a maintained cardiac output. We attributed these findings to the lack of Gα11, which the absence was associated with a decreased afterload. Histological analysis of the extracellular matrix in the heart depicted a diminished presence of collagen in aging hearts of dKO mice compared to wild-type mice. The results of a transcriptome analysis on isolated ventricular cardiac myocytes revealed alterations of the activity of genes involved in the Gαq/Gα11-dependent regulation of the extracellular matrix, such as the matricellular protein Cyr61., Conclusions: From our data we conclude that Gαq/Gα11 signaling pathways play a pivotal role in maintaining gene activity patterns. For the heart we revealed their importance in modulating the properties of the extracellular matrix, a mechanism that might be an important contributor and mechanistic basis for the development of pressure-overload induced cardiac hypertrophy., (Copyright © 2015 Elsevier Ireland Ltd. All rights reserved.)

Published

2016

179. Measurements of Intracellular Ca2+ Content and Phosphatidylserine Exposure in Human Red Blood Cells: Methodological Issues.

Author

Wesseling MC, Wagner-Britz L, Boukhdoud F, Asanidze S, Nguyen DB, Kaestner L, and Bernhardt I

Subjects

Calcium analysis, Erythrocytes cytology, Flow Cytometry, Fluorescent Dyes analysis, Humans, Microscopy, Fluorescence, Optical Imaging, Phosphatidylserines analysis, Calcium metabolism, Erythrocytes metabolism, Lysophospholipids metabolism, Phosphatidylserines metabolism

Abstract

Background/aims: The increase of the intracellular Ca2+ content as well as the exposure of phosphatidylserine (PS) on the outer cell membrane surface after activation of red blood cells (RBCs) by lysophosphatidic acid (LPA) has been investigated by a variety of research groups. Carrying out experiments, which we described in several previous publications, we observed some discrepancies when comparing data obtained by different investigators within our research group and also between batches of LPA. In addition, we found differences comparing the results of double and single labelling experiments (for Ca2+ and PS). Furthermore, the results of PS exposure depended on the fluorescent dye used (annexin V-FITC versus annexin V alexa fluor® 647). Therefore, it seems necessary to investigate these methodological approaches in more detail to be able to quantify results and to compare data obtained by different research groups., Methods: The intracellular Ca2+ content and the PS exposure of RBCs separated from whole blood have been investigated after treatment with LPA (2.5 µM) obtained from three different companies (Sigma-Aldrich, Cayman Chemical Company, and Santa Cruz Biotechnology Inc.). Fluo-4 and x-rhod-1 have been used to detect intracellular Ca2+ content, annexin V alexa fluor® 647 and annexin V-FITC have been used for PS exposure measurements. Both parameters (Ca2+ content, PS exposure) were studied using flow cytometry and fluorescence microscopy., Results: The percentage of RBCs showing increased intracellular Ca2+ content as well as PS exposure changes significantly between different LPA manufacturers as well as on the condition of mixing of LPA with the RBC suspension. Furthermore, the percentage of RBCs showing PS exposure is reduced in double labelling compared to single labelling experiments and depends also on the fluorescent dye used. Finally, data on Ca2+ content are slightly affected whereas PS exposure data are not affected significantly by the measuring method (flow cytometry, fluorescence microscopy)., Conclusion: The LPA batch used and the mixing procedure of LPA and the RBC suspension has to be taken into consideration when comparing results of intracellular Ca2+ content and PS exposure of RBCs after LPA activation. In addition, one should consider that the results of single and double labelling experiments might be different depending on the fluorescent dyes used., (© 2016 The Author(s) Published by S. Karger AG, Basel.)

Published

2016

180. Differential Behavior of Fibroblasts and Epithelial Cells on Structured Implant Abutment Materials: A Comparison of Materials and Surface Topographies.

Author

Nothdurft FP, Fontana D, Ruppenthal S, May A, Aktas C, Mehraein Y, Lipp P, and Kaestner L

Subjects

Blotting, Western, Cell Adhesion, Cell Proliferation, Cells, Cultured, Humans, Immunohistochemistry, Materials Testing, Microscopy, Electron, Scanning, Spectrometry, X-Ray Emission, Surface Properties, Titanium, Zirconium, Dental Abutments, Dental Implants, Epithelial Cells physiology, Fibroblasts physiology

Abstract

Purpose: The aim of this study was to compare the proliferation and attachment behavior of fibroblasts and epithelial cells on differently structured abutment materials., Materials and Methods: Three different surface topographies were prepared on zirconia and titanium alloy specimens and defined as follows: machined (as delivered without further surface modification), smooth (polished), and rough (sandblasted). Energy-dispersive X-ray spectroscopy, topographical analysis, and water contact angle measurements were used to analyze the surface properties. Fibroblasts (HGF1) and epithelial cells (HNEpC) grown on the specimens were investigated 24 hours and 72 hours after seeding and counted using fluorescence imaging. To investigate adhesion, the abundance and arrangement of the focal adhesion protein vinculin were evaluated by immunocytochemistry., Results: Similar surface topographies were created on both materials. Fibroblasts exhibited significant higher proliferation rates on comparable surface topographies of zirconia compared with the titanium alloy. The proliferation of fibroblasts and epithelial cells was optimal on different substrate/topography combinations. Cell spreading was generally higher on polished and machined surfaces than on sandblasted surfaces. Rough surfaces provided favorable properties in terms of cellular adhesion of fibroblasts but not of epithelial cells., Conclusions: Our data support complex soft tissue cell-substrate interactions: the fibroblast and epithelial cell response is influenced by both the material and surface topography., (© 2014 Wiley Periodicals, Inc.)

Published

2015

181. Genetically Encoded Voltage Indicators in Circulation Research.

Author

Kaestner L, Tian Q, Kaiser E, Xian W, Müller A, Oberhofer M, Ruppenthal S, Sinnecker D, Tsutsui H, Miyawaki A, Moretti A, and Lipp P

Subjects

Action Potentials genetics, Animals, Animals, Genetically Modified, Cardiovascular System metabolism, Fluorescence Resonance Energy Transfer, Gene Expression, Genes, Reporter, Humans, Recombinant Fusion Proteins genetics, Research, Voltage-Sensitive Dye Imaging, Biosensing Techniques, Membrane Potentials genetics, Myocytes, Cardiac metabolism

Abstract

Membrane potentials display the cellular status of non-excitable cells and mediate communication between excitable cells via action potentials. The use of genetically encoded biosensors employing fluorescent proteins allows a non-invasive biocompatible way to read out the membrane potential in cardiac myocytes and other cells of the circulation system. Although the approaches to design such biosensors date back to the time when the first fluorescent-protein based Förster Resonance Energy Transfer (FRET) sensors were constructed, it took 15 years before reliable sensors became readily available. Here, we review different developments of genetically encoded membrane potential sensors. Furthermore, it is shown how such sensors can be used in pharmacological screening applications as well as in circulation related basic biomedical research. Potentials and limitations will be discussed and perspectives of possible future developments will be provided.

Published

2015

182. A background Ca2+ entry pathway mediated by TRPC1/TRPC4 is critical for development of pathological cardiac remodelling.

Author

Camacho Londoño JE, Tian Q, Hammer K, Schröder L, Camacho Londoño J, Reil JC, He T, Oberhofer M, Mannebach S, Mathar I, Philipp SE, Tabellion W, Schweda F, Dietrich A, Kaestner L, Laufs U, Birnbaumer L, Flockerzi V, Freichel M, and Lipp P

Subjects

Angiotensin II metabolism, Angiotensinogen metabolism, Animals, Calcium metabolism, Cardiomegaly physiopathology, Hemodynamics physiology, Homeostasis physiology, Mice, Knockout, Ventricular Remodeling, Calcium Channels physiology, Calcium Signaling physiology, Cardiomegaly metabolism, Myocytes, Cardiac metabolism, TRPC Cation Channels physiology

Abstract

Aims: Pathological cardiac hypertrophy is a major predictor for the development of cardiac diseases. It is associated with chronic neurohumoral stimulation and with altered cardiac Ca(2+) signalling in cardiomyocytes. TRPC proteins form agonist-induced cation channels, but their functional role for Ca(2+) homeostasis in cardiomyocytes during fast cytosolic Ca(2+) cycling and neurohumoral stimulation leading to hypertrophy is unknown., Methods and Results: In a systematic analysis of multiple knockout mice using fluorescence imaging of electrically paced adult ventricular cardiomyocytes and Mn(2+)-quench microfluorimetry, we identified a background Ca(2+) entry (BGCE) pathway that critically depends on TRPC1/C4 proteins but not others such as TRPC3/C6. Reduction of BGCE in TRPC1/C4-deficient cardiomyocytes lowers diastolic and systolic Ca(2+) concentrations both, under basal conditions and under neurohumoral stimulation without affecting cardiac contractility measured in isolated hearts and in vivo. Neurohumoral-induced cardiac hypertrophy as well as the expression of foetal genes (ANP, BNP) and genes regulated by Ca(2+)-dependent signalling (RCAN1-4, myomaxin) was reduced in TRPC1/C4 knockout (DKO), but not in TRPC1- or TRPC4-single knockout mice. Pressure overload-induced hypertrophy and interstitial fibrosis were both ameliorated in TRPC1/C4-DKO mice, whereas they did not show alterations in other cardiovascular parameters contributing to systemic neurohumoral-induced hypertrophy such as renin secretion and blood pressure., Conclusions: The constitutively active TRPC1/C4-dependent BGCE fine-tunes Ca(2+) cycling in beating adult cardiomyocytes. TRPC1/C4-gene inactivation protects against development of maladaptive cardiac remodelling without altering cardiac or extracardiac functions contributing to this pathogenesis., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author 2015. For permissions please email: journals.permissions@oup.com.)

Published

2015

183. Channelizing the red blood cell: molecular biology competes with patch-clamp.

Author

Kaestner L

Published

2015

184. Discovery of novel candidate urinary protein biomarkers for prostate cancer in a multiethnic cohort of South African patients via label-free mass spectrometry.

Author

Adeola HA, Soares NC, Paccez JD, Kaestner L, Blackburn JM, and Zerbini LF

Subjects

Aged, Aged, 80 and over, Black People, Early Detection of Cancer, Humans, Male, Middle Aged, Prostatic Hyperplasia diagnosis, Prostatic Hyperplasia ethnology, Prostatic Hyperplasia urine, Prostatic Neoplasms diagnosis, Prostatic Neoplasms ethnology, Proteome metabolism, Proteomics, South Africa, Tandem Mass Spectrometry, White People, Biomarkers, Tumor urine, Prostatic Neoplasms urine

Abstract

Purpose: Improvement in diagnostic accuracy of prostate cancer (PCa) progression using MS-based methods to analyze biomarkers in our African, Caucasian, and Mixed Ancestry patients can advance early detection and treatment monitoring., Experimental Design: MS-based proteomic analysis of pooled (N = 36) and individual samples (N = 45) of PCa, benign prostatic hyperplasia, normal healthy controls, and patients with other uropathies was used to identify differences in proteomics profile. Samples were analyzed for potential biomarkers and proteome coverage in African, Caucasian, and Mixed Ancestry PCa patients., Results: A total of 1102 and 5595 protein groups and nonredundant peptides, respectively, were identified in the pooling experiments (FDR = 0.01). Twenty potential biomarkers in PCa were identified and fold differences ± 2SD were observed in 17 proteins using intensity-based absolute quantification. Analysis of 45 individual samples yielded 1545 and 9991 protein groups and nonredundant peptides, respectively. Seventy-three (73) proteins groups, including existing putative PCa biomarkers, were found to be potential biomarkers of PCa by label-free quantification and demonstrated ethnic trends within our PCa cohort., Conclusion and Clinical Relevance: Urinary proteomics is a promising route to PCa biomarker discovery and may serve as source of ethnic-related biomarkers of PCa., (© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2015

185. Conceptual and technical aspects of transfection and gene delivery.

Author

Kaestner L, Scholz A, and Lipp P

Subjects

Calcium Phosphates chemistry, Calcium Phosphates metabolism, Cell-Penetrating Peptides chemistry, Cell-Penetrating Peptides metabolism, Dendrimers chemistry, Dendrimers metabolism, Polyamines chemistry, Polyamines metabolism, Polyelectrolytes, Transfection, Viruses genetics, Viruses metabolism, Gene Transfer Techniques

Abstract

Genetically modified animals are state of the art in biomedical research as gene therapy is a promising perspective in the attempt to cure hereditary diseases. Both approaches have in common that modified or corrected genetic information must be transferred into cells in general or into particular cell types of an organism. Here we give an overview of established and emerging methods of transfection and gene delivery and provide conceptual and technical advantages and drawbacks of their particular use. Additionally, based on a flow chart, we compiled a rough guideline to choose a gene transfer method for a particular field of application., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

186. Arrhythmia causes lipid accumulation and reduced glucose uptake.

Author

Lenski M, Schleider G, Kohlhaas M, Adrian L, Adam O, Tian Q, Kaestner L, Lipp P, Lehrke M, Maack C, Böhm M, and Laufs U

Subjects

AMP-Activated Protein Kinases metabolism, Action Potentials, Aged, Animals, Calcium metabolism, Calcium-Calmodulin-Dependent Protein Kinase Type 2 metabolism, Female, Glucose Transporter Type 4 physiology, Humans, Male, Middle Aged, Myocytes, Cardiac metabolism, Rats, Rats, Sprague-Dawley, Signal Transduction, Atrial Fibrillation metabolism, Glucose metabolism, Lipid Metabolism

Abstract

Atrial fibrillation (AF) is characterized by irregular contractions of atrial cardiomyocytes and increased energy demand. The aim of this study was to characterize the influence of arrhythmia on glucose and fatty acid (FA) metabolism in cardiomyocytes, mice and human left atrial myocardium. Compared to regular pacing, irregular (pseudo-random variation at the same number of contractions/min) pacing of neonatal rat cardiomyocytes induced shorter action potential durations and effective refractory periods and increased diastolic [Ca(2+)]c. This was associated with the activation of Ca(2+)/calmodulin-dependent protein kinase II (CaMKII) and AMP-activated protein kinase (AMPK). Membrane expression of fatty acid translocase (FAT/CD36) and (14)C-palmitic acid uptake were augmented while membrane expression of glucose transporter subtype 4 (GLUT-4) as well as (3)H-glucose uptake were reduced. Inhibition of AMPK and CaMKII prevented these arrhythmia-induced metabolic changes. Similar alterations of FA metabolism were observed in a transgenic mouse model (RacET) for spontaneous AF. Consistent with these findings samples of left atrial myocardium of patients with AF compared to matched samples of patients with sinus rhythm showed up-regulation of CaMKII and AMPK and increased membrane expression of FAT/CD36, resulting in lipid accumulation. These changes of FA metabolism were accompanied by decreased membrane expression of GLUT-4, increased glycogen content and increased expression of the pro-apoptotic protein bax. Irregular pacing of cardiomyocytes increases diastolic [Ca(2+)]c and activation of CaMKII and AMPK resulting in lipid accumulation, reduced glucose uptake and increased glycogen synthesis. These metabolic changes are accompanied by an activation of pro-apoptotic signalling pathways.

Published

2015

187. Detecting calcium in cardiac muscle: fluorescence to dye for.

Author

Lipp P and Kaestner L

Subjects

Animals, Fluorescent Dyes chemistry, Fluorescent Dyes classification, Humans, Muscle Cells drug effects, Muscle Cells metabolism, Calcium Signaling, Fluorescent Dyes pharmacology, Myocardium metabolism

Published

2014

188. Confocal FLIM of genetically encoded FRET sensors for quantitative Ca2+ imaging.

Author

Sauer B, Tian Q, Lipp P, and Kaestner L

Subjects

HEK293 Cells, Humans, Photons, Transfection, Biosensing Techniques, Calcium metabolism, Fluorescence Resonance Energy Transfer methods, Genes, Reporter, Microscopy, Confocal methods, Microscopy, Fluorescence methods

Abstract

Fluorescence lifetime imaging (FLIM) is a powerful imaging mode that can be combined with confocal imaging. Changes in the fluorescence decay time of a donor in an intramolecular Förster resonance energy transfer (FRET)-based biosensor provide intrinsic quantitative data. Here, we describe a protocol using both the Ca(2+) sensor TN-XL, which uses troponin C, as the Ca(2+)-sensing unit, and the FLIM technology based on time-correlated single-photon counting., (© 2014 Cold Spring Harbor Laboratory Press.)

Published

2014

189. Differential targeting of cPKC and nPKC decodes and regulates Ca²⁺ and lipid signalling.

Author

Hui X, Kaestner L, and Lipp P

Subjects

Endoplasmic Reticulum, Calcium metabolism, Lipid Metabolism, Protein Kinase C metabolism, Signal Transduction

Abstract

Protein kinases C (PKCs) are ubiquitously expressed and play critical roles in a plethora of physiological and pathophysiological processes. Owing to PKCs' highly conserved phosphorylation consensus sequence, it has been difficult to distinguish the role of individual PKC isoforms. Recently, the identification of novel membrane targeting via subcellularly targeted diacylglycerol production found for novel PKCs (nPKCs), together with a characterization of their putative functions, has shed new light on the specific roles of individual PKCs in cellular processes.

Published

2014

190. Two-dimensional imaging of fast intracellular Ca2+ release.

Author

Tian Q, Kaestner L, and Lipp P

Subjects

Animals, Calcium Signaling, Cells, Cultured, Image Processing, Computer-Assisted, Microscopy, Confocal, Myocytes, Cardiac metabolism, Time Factors, Calcium metabolism, Intracellular Space metabolism, Molecular Imaging methods

Abstract

Asynchronous release of calcium (Ca(2+))-for example, the generation of Ca(2+) alternans in cardiac myocytes-is a phenomenon important in the development of cardiac arrhythmogenesis. The development of a failure to release Ca(2+) at individual release sites can be regarded as a major contributor to cardiac pathologies such as hypertrophy. Although confocal linescans provide sufficient temporal resolution to investigate the physiological and pathological cardiac excitation-contraction (EC) coupling, linescans can only image ∼1.5% of the cross section of myocytes, which raises doubts about how representative such recordings are, especially in light of nonhomogeneous uncoupling of Ca(2+) channels and ryanodine receptors. Nowadays, the speed of confocal microscopes has been greatly improved, enabling two-dimensional (2D) imaging at sufficient image rates (>100 frames/sec). To understand better the physiological and pathophysiological EC coupling of cardiomyocytes, we describe here a protocol to monitor fast intracellular Ca(2+) signals using fast 2D confocal scanning., (© 2014 Cold Spring Harbor Laboratory Press.)

Published

2014

191. Multi-channel imaging of cellular signaling: interplay of Ca2+ and conventional protein kinase C.

Author

Lipp P, Hui X, Reither G, and Kaestner L

Subjects

Adenosine Triphosphate metabolism, HEK293 Cells, Humans, Protein Transport, Calcium Signaling, Microscopy, Confocal instrumentation, Microscopy, Confocal methods, Optical Imaging instrumentation, Optical Imaging methods, Protein Kinase C-alpha metabolism

Abstract

To investigate the coupling between the calcium (Ca(2+)) signal and the conventional protein kinase C alpha (PKCα) translocation, which are both transient processes, a sectioning imaging technique with sufficient scanning speed is required. Here, we describe how to use a Nipkow-disk-based confocal system with an image splitter for two cameras to acquire simultaneously both the Ca(2+) signal and images of PKCα fused to the fluorescent protein DsRed2 in HEK293 cells on ATP stimulation., (© 2014 Cold Spring Harbor Laboratory Press.)

Published

2014

192. Multi-beam two-photon imaging of fast Ca2+ signals in the Langendorff mouse heart.

Author

Hammer K, Lipp P, and Kaestner L

Subjects

Animals, Mice, Calcium Signaling, Heart physiology, Microscopy, Fluorescence, Multiphoton methods, Optical Imaging methods

Abstract

Although the role of calcium (Ca(2+)) in excitation-contraction coupling in the heart can be comprehensively studied at the cellular level, propagation of Ca(2+) signals intercellularly requires tissue-based investigations. To access cells below the epicardium, an optical-sectioning technique is necessary. Multi-photon microscopy allows reliable imaging for penetration to depths of up to 0.5 mm. Here, we provide a protocol that uses multibeam two-photon microscopy for measuring Ca(2+) signals in a Langendorff-perfused mouse heart., (© 2014 Cold Spring Harbor Laboratory Press.)

Published

2014

193. Two-photon photolysis combined with a kilobeam array scanner to probe calcium signaling in cardiomyocytes.

Author

Sauer B, Oberhofer M, Lipp P, and Kaestner L

Subjects

Photolysis, Calcium Signaling, Cytological Techniques methods, Microscopy, Fluorescence, Multiphoton methods, Myocytes, Cardiac physiology, Optical Imaging methods

Abstract

Photorelease of caged compounds allows a fast and defined intracellular increase in calcium (Ca(2+)) or other biologically relevant substances or molecules without impinging on other cellular functions. In particular, two-photon photolysis (2PP) allows a spatially restricted uncaging in sub-femtoliter volumes. Here, we describe how to combine 2PP with a confocal kilobeam array scanner and provide an example where Ca(2+) is released in an isolated cardiac myocyte., (© 2014 Cold Spring Harbor Laboratory Press.)

Published

2014

194. Irisin does not mediate resistance training-induced alterations in resting metabolic rate.

Author

Scharhag-Rosenberger F, Meyer T, Wegmann M, Ruppenthal S, Kaestner L, Morsch A, and Hecksteden A

Subjects

Adult, Analysis of Variance, Body Weight, Energy Intake, Female, Humans, Male, Middle Aged, Muscle, Skeletal physiology, Sedentary Behavior, Adiposity, Basal Metabolism physiology, Fibronectins blood, Muscle Strength, Resistance Training

Abstract

Purpose: This study aimed to investigate the effects of a 6-month preventive resistance training program on resting metabolic rate (RMR) and its associations with fat-free mass (FFM) and the newly described myokine irisin as two potential mechanistic links between exercise training and RMR., Methods: In a randomized controlled trial, 74 sedentary healthy male and female participants either completed 6 months of high-repetition resistance training 3 d·wk in accordance with the American College of Sports Medicine recommendations (RT: n = 37; 47 ± 7 yr; body mass index, 25.0 ± 3.4 kg·m) or served as controls (CO: n = 37; 50 ± 7 yr; body mass index, 24.2 ± 3.2 kg·m). Strength (one-repetition maximum), RMR (indirect calorimetry), body fat (caliper method), and serum irisin concentration (enzyme-linked immunosorbent assay) were measured before and after 6 months of training., Results: Training led to an increase in strength (one-repetition maximum leg press, 16% ± 7%; P < 0.001). RMR increased in RT (1671 ± 356 vs 1843 ± 385 kcal·d, P < 0.001) but not in CO (1587 ± 285 vs 1602 ± 294 kcal·d, P = 0.97; group-time interaction, P < 0.01). Body weight (RT, -0.5 ± 2.4 kg; CO, 0.1 ± 2.3 kg), body fat percentage (RT, -1.1% ± 2.5%; CO, -0.7% ± 2.9%), and FFM (RT, 0.4 ± 2.1 kg; CO, 0.6 ± 1.9 kg) did not develop differently between groups (group-time interaction: P = 0.29, P = 0.54, and P = 0.59, respectively). Serum irisin concentration increased in CO (70.8 ± 83.4 ng·mL, P < 0.001) but not in RT (22.4 ± 92.6 ng·mL, P = 0.67; group-time interaction, P < 0.01). The change in RMR was not associated with the change in FFM (r = -0.11, P = 0.36) or irisin (r = -0.004, P = 0.97)., Conclusions: Preventive resistance training elicits an increase in RMR. However, in contrast to currently discussed hypotheses, this increase does not seem to be mediated by training-induced changes in FFM or circulating irisin concentration, which casts doubt in the meaning of irisin for human energy balance.

Published

2014

195. Regulation of red cell life-span, erythropoiesis, senescence, and clearance.

Author

Kaestner L and Bogdanova A

Published

2014

196. Targeted activation of conventional and novel protein kinases C through differential translocation patterns.

Author

Hui X, Reither G, Kaestner L, and Lipp P

Subjects

Calcium metabolism, Cell Line, Cell Membrane metabolism, Cyclic AMP-Dependent Protein Kinases metabolism, Diglycerides biosynthesis, Endoplasmic Reticulum metabolism, Enzyme Activation, GTP-Binding Protein alpha Subunits, Gq-G11 metabolism, GTP-Binding Protein alpha Subunits, Gs metabolism, Guanine Nucleotide Exchange Factors genetics, HEK293 Cells, Humans, Indoles pharmacology, Inositol 1,4,5-Trisphosphate chemistry, Inositol 1,4,5-Trisphosphate Receptors metabolism, Maleimides pharmacology, Phosphoinositide Phospholipase C genetics, Phosphorylation drug effects, Protein Kinase C-alpha antagonists & inhibitors, Protein Kinase C-alpha genetics, Protein Kinase C-delta antagonists & inhibitors, Protein Kinase C-delta genetics, Protein Transport physiology, RNA Interference, RNA, Small Interfering, Tetradecanoylphorbol Acetate pharmacology, Calcium Signaling physiology, Cyclic AMP metabolism, Protein Kinase C-alpha metabolism, Protein Kinase C-delta metabolism

Abstract

Activation of the two ubiquitous families of protein kinases, protein kinase A (PKA) and protein kinase C (PKC), is thought to be independently coupled to stimulation of Gαs and Gαq, respectively. Live-cell confocal imaging of protein kinase C fluorescent protein fusion constructs revealed that simultaneous activation of Gαs and Gαq resulted in a differential translocation of the conventional PKCα to the plasma membrane while the novel PKCδ was recruited to the membrane of the endoplasmic reticulum (ER). We demonstrate that the PKCδ translocation was driven by a novel Gαs-cyclic AMP-EPAC-RAP-PLCε pathway resulting in specific diacylglycerol production at the membrane of the ER. Membrane-specific phosphorylation sensors revealed that directed translocation resulted in phosphorylation activity confined to the target membrane. Specific stimulation of PKCδ caused phosphorylation of the inositol-1,4,5-trisphosphate receptor and dampening of global Ca(2+) signaling revealed by graded flash photolysis of caged inositol-1,4,5-trisphosphate. Our data demonstrate a novel signaling pathway enabling differential decoding of incoming stimuli into PKC isoform-specific membrane targeting, significantly enhancing the versatility of cyclic AMP signaling, thus demonstrating the possible interconnection between the PKA and PKC pathways traditionally treated independently. We thus provide novel and elementary understanding and insights into intracellular signaling events., (Copyright © 2014, American Society for Microbiology. All Rights Reserved.)

Published

2014

197. Genetically encoded Ca2+ indicators in cardiac myocytes.

Author

Kaestner L, Scholz A, Tian Q, Ruppenthal S, Tabellion W, Wiesen K, Katus HA, Müller OJ, Kotlikoff MI, and Lipp P

Subjects

Animals, Diagnostic Imaging methods, Gene Transfer Techniques, Humans, Myocytes, Cardiac metabolism, Calcium Signaling genetics, Fluorescent Dyes, Myocytes, Cardiac chemistry, Myocytes, Cardiac physiology, Transgenes

Abstract

Genetically encoded Ca(2+) indicators constitute a powerful set of tools to investigate functional aspects of Ca(2+) signaling in isolated cardiomyocytes, cardiac tissue, and whole hearts. Here, we provide an overview of the concepts, experiences, state of the art, and ongoing developments in the use of genetically encoded Ca(2+) indicators for cardiac cells and heart tissue. This review is supplemented with in vivo viral gene transfer experiments and comparisons of available genetically encoded Ca(2+) indicators with each other and with the small molecule dye Fura-2. In the context of cardiac myocytes, we provide guidelines for selecting a genetically encoded Ca(2+) indicator. For future developments, we discuss improvements of a broad range of properties, including photophysical properties such as spectral spread and biocompatibility, as well as cellular and in vivo applications.

Published

2014

198. Calcium homeostasis in red blood cells of dialysis patients in dependence of erythropoietin treatment.

Author

Wang J, van Bentum K, Sester U, and Kaestner L

Published

2014

199. N-methyl-D-aspartate receptors in human erythroid precursor cells and in circulating red blood cells contribute to the intracellular calcium regulation.

Author

Makhro A, Hänggi P, Goede JS, Wang J, Brüggemann A, Gassmann M, Schmugge M, Kaestner L, Speer O, and Bogdanova A

Subjects

Adult, Animals, Cells, Cultured, Erythrocytes drug effects, Erythroid Precursor Cells drug effects, Excitatory Amino Acid Antagonists pharmacology, Female, Humans, Intracellular Fluid drug effects, Male, Middle Aged, Rats, Receptors, N-Methyl-D-Aspartate antagonists & inhibitors, Calcium physiology, Erythrocytes physiology, Erythroid Precursor Cells physiology, Intracellular Fluid physiology, Receptors, N-Methyl-D-Aspartate physiology

Abstract

The presence of N-methyl-d-aspartate receptor (NMDAR) was previously shown in rat red blood cells (RBCs) and in a UT-7/Epo human myeloid cell line differentiating into erythroid lineage. Here we have characterized the subunit composition of the NMDAR and monitored its function during human erythropoiesis and in circulating RBCs. Expression of the NMDARs subunits was assessed in erythroid progenitors during ex vivo erythropoiesis and in circulating human RBCs using quantitative PCR and flow cytometry. Receptor activity was monitored using a radiolabeled antagonist binding assay, live imaging of Ca(2+) uptake, patch clamp, and monitoring of cell volume changes. The receptor tetramers in erythroid precursor cells are composed of the NR1, NR2A, 2C, 2D, NR3A, and 3B subunits of which the glycine-binding NR3A and 3B and glutamate-binding NR2C and 2D subunits prevailed. Functional receptor is required for survival of erythroid precursors. Circulating RBCs retain a low number of the receptor copies that is higher in young cells compared with mature and senescent RBC populations. In circulating RBCs the receptor activity is controlled by plasma glutamate and glycine. Modulation of the NMDAR activity in RBCs by agonists or antagonists is associated with the alterations in whole cell ion currents. Activation of the receptor results in the transient Ca(2+) accumulation, cell shrinkage, and alteration in the intracellular pH, which is associated with the change in hemoglobin oxygen affinity. Thus functional NMDARs are present in erythroid precursor cells and in circulating RBCs. These receptors contribute to intracellular Ca(2+) homeostasis and modulate oxygen delivery to peripheral tissues.

Published

2013

200. Irisin and exercise training in humans - results from a randomized controlled training trial.

Author

Hecksteden A, Wegmann M, Steffen A, Kraushaar J, Morsch A, Ruppenthal S, Kaestner L, and Meyer T

Subjects

Adult, Female, Humans, Male, Middle Aged, Serum chemistry, Exercise physiology, Fibronectins blood

Abstract

Background: The recent discovery of a new myokine (irisin) potentially involved in health-related training effects has gained great attention, but evidence for a training-induced increase in irisin remains preliminary. Therefore, the present study aimed to determine whether irisin concentration is increased after regular exercise training in humans., Methods: In a randomized controlled design, two guideline conforming training interventions were studied. Inclusion criteria were age 30 to 60 years, <1 hour/week regular activity, non-smoker, and absence of major diseases. 102 participants could be included in the analysis. Subjects in the training groups exercised 3 times per week for 26 weeks. The minimum compliance was defined at 70%. Aerobic endurance training (AET) consisted of 45 minutes of walking/running at 60% heart rate reserve. Strength endurance training (SET) consisted of 8 machine-based exercises (2 sets of 15 repetitions with 100% of the 20 repetition maximum). Serum irisin concentrations in frozen serum samples were determined in a single blinded measurement immediately after the end of the training study. Physical performance provided positive control for the overall efficacy of training. Differences between groups were tested for significance using analysis of variance. For post hoc comparisons with the control group, Dunnett's test was used., Results: Maximum performance increased significantly in the training groups compared with controls (controls: ±0.0 ± 0.7 km/h; AET: 1.1 ± 0.6 km/h, P < 0.01; SET: +0.5 ± 0.7 km/h, P = 0.01). Changes in irisin did not differ between groups (controls: 101 ± 81 ng/ml; AET: 44 ± 93 ng/ml; SET: 60 ± 92 ng/ml; in both cases: P = 0.99 (one-tailed testing), 1-β error probability = 0.7). The general upward trend was mainly accounted for by a negative association of irisin concentration with the storage duration of frozen serum samples (P < 0.01, β = -0.33). After arithmetically eliminating this confounder, the differences between groups remained non-significant., Conclusions: A training-induced increase in circulating irisin could not be confirmed, calling into question its proposed involvement in health-related training effects. Because frozen samples are prone to irisin degradation over time, positive results from uncontrolled trials might exclusively reflect the longer storage of samples from initial tests.

Published

2013