Your search keyword '"Extracellular calcium"' showing total 50 results

1. PLC regulates spontaneous glutamate release triggered by extracellular calcium and readily releasable pool size in neocortical neurons.

Author

Feldthouse, Maya G., Vyleta, Nicholas P., and Smith, Stephen M.

Subjects

GLUTAMATE receptors, G protein coupled receptors, GLUTAMIC acid, PHORBOL esters, PHOSPHOLIPASE C, NEURONS

Abstract

Introduction: Dynamic physiological changes in brain extracellular calcium ([Ca2+]o) occur when high levels of neuronal activity lead to substantial Ca2+ entry via ion channels reducing local [Ca2+]o. Perturbations of the extracellular microenvironment that increase [Ca2+]o are commonly used to study how [Ca2+] regulates neuronal activity. At excitatory synapses, the Ca2+-sensing receptor (CaSR) and other G-protein coupled receptors link [Ca2+]o and spontaneous glutamate release. Phospholipase C (PLC) is activated by G-proteins and is hypothesized to mediate this process. Methods: Patch-clamping cultured neocortical neurons, we tested how spontaneous glutamate release was affected by [Ca2+]o and inhibition of PLC activity. We used hypertonic sucrose (HS) to evaluate the readily releasable pool (RRP) and test if it was affected by inhibition of PLC activity. Results: Spontaneous glutamate release substantially increased with [Ca2+]o, and inhibition of PLC activity, with U73122, abolished this effect. PLC-β1 is an abundant isoform in the neocortex, however, [Ca2+]o-dependent spontaneous release was unchanged in PLC-β1 null mutants (PLC-β1-/-). U73122 completely suppressed this response in PLC-β1-/- neurons, indicating that this residual [Ca2+]o-sensitivity may be mediated by other PLC isoforms. The RRP size was substantially reduced after incubation in U73122, but not U73343. Phorbol esters increased RRP size after PLC inhibition. Discussion: Together these data point to a strong role for PLC in mediating changes in spontaneous release elicited by [Ca2+]o and other extracellular cues, possibly by modifying the size of the RRP. [ABSTRACT FROM AUTHOR]

Published

2023

2. PLC regulates spontaneous glutamate release triggered by extracellular calcium and readily releasable pool size in neocortical neurons

Author

Maya G. Feldthouse, Nicholas P. Vyleta, and Stephen M. Smith

Subjects

spontaneous release, PLC, minis, extracellular calcium, readily releasable pool, calcium-sensing receptor, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

IntroductionDynamic physiological changes in brain extracellular calcium ([Ca2+]o) occur when high levels of neuronal activity lead to substantial Ca2+ entry via ion channels reducing local [Ca2+]o. Perturbations of the extracellular microenvironment that increase [Ca2+]o are commonly used to study how [Ca2+] regulates neuronal activity. At excitatory synapses, the Ca2+-sensing receptor (CaSR) and other G-protein coupled receptors link [Ca2+]o and spontaneous glutamate release. Phospholipase C (PLC) is activated by G-proteins and is hypothesized to mediate this process.MethodsPatch-clamping cultured neocortical neurons, we tested how spontaneous glutamate release was affected by [Ca2+]o and inhibition of PLC activity. We used hypertonic sucrose (HS) to evaluate the readily releasable pool (RRP) and test if it was affected by inhibition of PLC activity.ResultsSpontaneous glutamate release substantially increased with [Ca2+]o, and inhibition of PLC activity, with U73122, abolished this effect. PLC-β1 is an abundant isoform in the neocortex, however, [Ca2+]o-dependent spontaneous release was unchanged in PLC-β1 null mutants (PLC-β1–/–). U73122 completely suppressed this response in PLC-β1–/– neurons, indicating that this residual [Ca2+]o–sensitivity may be mediated by other PLC isoforms. The RRP size was substantially reduced after incubation in U73122, but not U73343. Phorbol esters increased RRP size after PLC inhibition.DiscussionTogether these data point to a strong role for PLC in mediating changes in spontaneous release elicited by [Ca2+]o and other extracellular cues, possibly by modifying the size of the RRP.

Published

2023

3. Adenosine Triphosphate Protects from Elevated Extracellular Calcium-Induced Damage in Human Proximal Kidney Cells: Using Deep Learning to Predict Cytotoxicity.

Author

Hodeify, Rawad, Ghani, Arfan, Matar, Rachel, Vazhappilly, Cijo George, Merheb, Maxime, Al Zouabi, Hussain, and Marton, John

Subjects

*DEEP learning, *ADENOSINE triphosphate, *CALCIUM-binding proteins, *CONVOLUTIONAL neural networks, *INTRACELLULAR calcium, *FLUORESCENCE microscopy, *CALMODULIN, *ATP-binding cassette transporters

Abstract

Background/Aims: In kidney, extracellular [Ca2+] can modulate intracellular [Ca2+] to control key cellular processes. Hence, extracellular [Ca2+] is normally maintained within narrow range. We tested effect of extracellular ATP on viability of human proximal (HK-2) cells at high calcium. Modulation of intracellular calcium was assessed by imaging cytosolic [Ca2+], and expression of calcium-binding proteins (CaBPs). We present an artificial intelligence enabled deep learning model for prediction of injury and protection against extracellular [Ca2+] in HK-2 cells. Methods: HK-2 cells were cultured in calcium-free DMEM supplemented with CaCl2. Morphological changes were detected using light microscopy. Cell viability was determined using MTT Assay. Intracellular [Ca2+] was detected using fluorescence microscopy. For easy detection of HK-2 cells injury, we performed light microscopy image classification based on Convolutional Neural Network. Expression of CaBPs, p21, and Mcl-1 was measured using realtime PCR. Results: We show decreased viability of HK-2 cells cultured in elevated calcium levels, which was prevented by adenosine triphosphate (ATP). Exposure of cells to elevated extracellular [Ca2+] correlated with increasing fluorescence of intracellular calcium indicator, which was attenuated in presence of ATP. Since features cannot be detected easily by human eyes, we propose a customized deep learning-based CNN model for classification of HK-2 cells injury by extracellular calcium with high accuracy of 98%. Our data demonstrated significant increase in mRNA levels of calmodulin, S100A8, S100A14 and CaBP28k, with elevated extracellular [Ca2+]. Expression of these genes was enhanced with ATP. Conclusion: The results suggest that ATP protects human proximal (HK-2) cells against elevated extracellular calcium levels. We present a CNN model as user friendly tool to study calcium dependent injury in (HK-2) cells. Finally, we show that ATP-mediated protection is correlated with enhanced expression of calcium-binding proteins. [ABSTRACT FROM AUTHOR]

Published

2022

4. Extracellular calcium induces neurite outgrowth through calcium-sensing receptors in PC12 HS cells

Author

Hasegawa, Yasushi and Toda, Saori

Subjects

Pulmonary and Respiratory Medicine, Calcium-sensing receptor, Extracellular calcium, Neurite extension, PC12HS, Pediatrics, Perinatology and Child Health

Abstract

PC12 cells have been used extensively to study neuronal differentiation and neurite outgrowth. However, the effects of extracellular Ca2+ on PC12 cells have not yet been sufficiently evaluated. In this study, we investigated the effect of extracellular calcium using PC12 HS cells, which have high sensitivity to nerve growth factor (NGF). The addition of Ca2+(1 mM) to the medium induced neurite outgrowth and increased the intracellular calcium concentration. In contrast, the calcium-sensing receptor antagonist NPS2143 suppressed neurite outgrowth and increased the intracellular calcium concentration, suggesting that extracellular calcium promotes neurite outgrowth through calcium-sensing receptors. An increase in extracellular calcium concentration increased phosphorylation of Akt and cyclic AMP response element-binding protein (CREB). Semi-quantitative RT-PCR showed that elevated extracellular calcium increased the mRNA expression of brain-derived neurotrophic factor (BDNF) and platelet-derived growth factor (PDGF), which are regulated by CREB activation. Our results suggest that elevated extracellular calcium can promote the phosphorylation of Akt and CREB through calcium-sensing receptors, resulting in the promotion of neurites. PC12 HS cells are a useful model to investigate the regulation of extracellular calcium via calcium-sensing receptors in neuronal cells.

Published

2022

5. Sustained local ionic homeostatic imbalance caused by calcification modulates inflammation to trigger heterotopic ossification

Subjects

BETA-TRICALCIUM PHOSPHATE, Inflammation, Heterotopic ossification, MULTINUCLEATED GIANT-CELLS, Bone Morphogenetic Protein, DEMINERALIZED BONE-MATRIX, TRAUMATIC BRAIN-INJURY, EXPERIMENTAL MYOSITIS-OSSIFICANS, IN-VITRO, TOTAL HIP-ARTHROPLASTY, CALCIUM-SENSING RECEPTOR, Osteoinduction, Bone Graft, SPINAL-CORD-INJURY, EXTRACELLULAR CALCIUM, Apatite, Bone

Abstract

Heterotopic ossification (HO) is a condition triggered by an injury leading to the formation of mature lamellar bone in extraskeletal soft tissues. Despite being a frequent complication of orthopedic and trauma surgery, brain and spinal injury, the etiology of HO is poorly understood. The aim of this study is to evaluate the hypothesis that a sustained local ionic homeostatic imbalance (SLIHI) created by mineral formation during tissue calcification modulates inflammation to trigger HO. This evaluation also considers the role SLIHI could play for the design of cell-free, drug-free osteoinductive bone graft substitutes. The evaluation contains five main sections. The first section defines relevant concepts in the context of HO and provides a summary of proposed causes of HO. The second section starts with a detailed analysis of the occurrence and involvement of calcification in HO. It is followed by an explanation of the causes of calcification and its consequences. This allows to speculate on the potential chemical modulators of inflammation and triggers of HO. The end of this second section is devoted to in vitro mineralization tests used to predict the ectopic potential of materials. The third section reviews the biological cascade of events occurring during pathological and material-induced HO, and attempts to propose a quantitative timeline of HO formation. The fourth section looks at potential ways to control HO formation, either acting on SLIHI or on inflammation. Chemical, physical, and drug-based approaches are considered. Finally, the evaluation finishes with a critical assessment of the definition of osteoinduction. STATEMENT OF SIGNIFICANCE: : The ability to regenerate bone in a spatially controlled and reproducible manner is an essential prerequisite for the treatment of large bone defects. As such, understanding the mechanism leading to heterotopic ossification (HO), a condition triggered by an injury leading to the formation of mature lamellar bone in extraskeletal soft tissues, would be very useful. Unfortunately, the mechanism(s) behind HO is(are) poorly understood. The present study reviews the literature on HO and based on it, proposes that HO can be caused by a combination of inflammation and calcification. This mechanism helps to better understand current strategies to prevent and treat HO. It also shows new opportunities to improve the treatment of bone defects in orthopedic and dental procedures.

Published

2022

6. Extracellular calcium increases fibroblast growth factor 2 gene expression via extracellular signal-regulated kinase 1/2 and protein kinase A signaling in mouse dental papilla cells

Author

Sousuke Kanaya, Binlu Xiao, Yukihiko Sakisaka, Mizuki Suto, Kentaro Maruyama, Masahiro Saito, and Eiji Nemoto

Subjects

Mouse dental papilla cells, Extracellular calcium, Fibroblast growth factor 2, Bone morphogenetic protein 2, Dentistry, RK1-715

Abstract

Abstract We previously reported that elevated extracellular calcium (Ca2+) levels increase bone morphogenetic protein 2 expression in human dental pulp (hDP) cells. However, it is unknown whether extracellular Ca2+ affects the expression of other growth factors such as fibroblast growth factor 2 (FGF2). Objective: The present study aimed to examine the effect of extracellular Ca2+ on FGF2 gene expression in hDP and immortalized mouse dental papilla (mDP) cells. Materials and Methods: Cells were stimulated with 10 mM CaCl2 in the presence or absence of cell signaling inhibitors. FGF2 gene expression was assessed using real-time polymerase chain reaction. The phosphorylation status of signaling molecules was examined by Western blotting. Results: Extracellular Ca2+ increased FGF2 gene expression in mDP and hDP cells. Gene expression of the calcium-sensing receptor and G protein-coupled receptor family C group 6 member A, both of which are extracellular Ca2+ sensors, was not detected. Ca2+-mediated Fgf2 expression was reduced by pretreatment with the protein kinase A (PKA) inhibitor H-89 or extracellular signal-regulated kinase (ERK) 1/2 inhibitor PD98059 but not by pretreatment with the protein kinase C inhibitor GF-109203X or p38 inhibitor SB203580. Extracellular Ca2+ increased PKA activity and ERK1/2 phosphorylation. Ca2+-induced PKA activity decreased by pretreatment with PD98059. Conclusions: These findings indicate that elevated extracellular Ca2+ levels led to increased Fgf2 expression through ERK1/2 and PKA in mDP cells and that this mechanism may be useful for designing regenerative therapies for dentin.

Published

2018

7. Sustained local ionic homeostatic imbalance caused by calcification modulates inflammation to trigger heterotopic ossification

Author

Marc Bohner, Yassine Maazouz, Maria-Pau Ginebra, Pamela Habibovic, Jonathan G. Schoenecker, Howard Seeherman, Jeroen J.J.P. van den Beucken, and Frank Witte

Subjects

Heterotopic ossification, MULTINUCLEATED GIANT-CELLS, DEMINERALIZED BONE-MATRIX, Biomedical Engineering, TRAUMATIC BRAIN-INJURY, EXPERIMENTAL MYOSITIS-OSSIFICANS, TOTAL HIP-ARTHROPLASTY, Biochemistry, Bone and Bones, Biomaterials, CALCIUM-SENSING RECEPTOR, SPINAL-CORD-INJURY, Humans, EXTRACELLULAR CALCIUM, Apatite, Bone, Molecular Biology, BETA-TRICALCIUM PHOSPHATE, Inflammation, Ossification, Heterotopic, Bone Morphogenetic Protein, Calcinosis, IN-VITRO, General Medicine, Reconstructive and regenerative medicine Radboud Institute for Molecular Life Sciences [Radboudumc 10], Osteoinduction, Bone Substitutes, Bone Graft, Biotechnology

Abstract

Contains fulltext : 288266.pdf (Publisher’s version ) (Open Access) Heterotopic ossification (HO) is a condition triggered by an injury leading to the formation of mature lamellar bone in extraskeletal soft tissues. Despite being a frequent complication of orthopedic and trauma surgery, brain and spinal injury, the etiology of HO is poorly understood. The aim of this study is to evaluate the hypothesis that a sustained local ionic homeostatic imbalance (SLIHI) created by mineral formation during tissue calcification modulates inflammation to trigger HO. This evaluation also considers the role SLIHI could play for the design of cell-free, drug-free osteoinductive bone graft substitutes. The evaluation contains five main sections. The first section defines relevant concepts in the context of HO and provides a summary of proposed causes of HO. The second section starts with a detailed analysis of the occurrence and involvement of calcification in HO. It is followed by an explanation of the causes of calcification and its consequences. This allows to speculate on the potential chemical modulators of inflammation and triggers of HO. The end of this second section is devoted to in vitro mineralization tests used to predict the ectopic potential of materials. The third section reviews the biological cascade of events occurring during pathological and material-induced HO, and attempts to propose a quantitative timeline of HO formation. The fourth section looks at potential ways to control HO formation, either acting on SLIHI or on inflammation. Chemical, physical, and drug-based approaches are considered. Finally, the evaluation finishes with a critical assessment of the definition of osteoinduction. STATEMENT OF SIGNIFICANCE: The ability to regenerate bone in a spatially controlled and reproducible manner is an essential prerequisite for the treatment of large bone defects. As such, understanding the mechanism leading to heterotopic ossification (HO), a condition triggered by an injury leading to the formation of mature lamellar bone in extraskeletal soft tissues, would be very useful. Unfortunately, the mechanism(s) behind HO is(are) poorly understood. The present study reviews the literature on HO and based on it, proposes that HO can be caused by a combination of inflammation and calcification. This mechanism helps to better understand current strategies to prevent and treat HO. It also shows new opportunities to improve the treatment of bone defects in orthopedic and dental procedures.

Published

2022

8. A Semi-Automated and Reproducible Biological-Based Method to Quantify Calcium Deposition In Vitro

Author

Jaminon, Armand M G, Rapp, Nikolas, Akbulut, Asim C, Dzhanaev, Robert, Reutelingsperger, Chris P, Jahnen-Dechent, Willi, Schurgers, Leon J, Jaminon, Armand M G, Rapp, Nikolas, Akbulut, Asim C, Dzhanaev, Robert, Reutelingsperger, Chris P, Jahnen-Dechent, Willi, and Schurgers, Leon J

Abstract

Vascular calcification involves a series of degenerative pathologies, including inflammation, changes to cellular phenotype, cell death, and the absence of calcification inhibitors, that concomitantly lead to a loss of vessel elasticity and function. Vascular calcification is an important contributor to morbidity and mortality in many pathologies, including chronic kidney disease, diabetes mellitus, and atherosclerosis. Current research models to study vascular calcification are limited and are only viable at the late stages of calcification development in vivo. In vitro tools for studying vascular calcification use end-point measurements, increasing the demands on biological material and risking the introduction of variability to research studies. We demonstrate the application of a novel fluorescently labeled probe that binds to in vitro calcification development on human vascular smooth muscle cells and determines the real-time development of in vitro calcification. In this protocol, we describe the application of our newly developed calcification assay, a novel tool in disease modeling that has potential translational applications. We envisage this assay to be relevant in a broader spectrum of mineral deposition research, including applications in bone, cartilage, or dental research.

Published

2022

9. A Semi-Automated and Reproducible Biological-Based Method to Quantify Calcium Deposition In Vitro

Subjects

Coronary calcium, Myocytes, Calcium/metabolism, Smooth-muscle-cells, Events, Risk-factors, Smooth Muscle, Vascular, Vascular Calcification/genetics, Humans, Muscle, Disease, Extracellular calcium, Smooth, Renal Insufficiency, Chronic, Vascular calcification

Abstract

Vascular calcification involves a series of degenerative pathologies, including inflammation, changes to cellular phenotype, cell death, and the absence of calcification inhibitors, that concomitantly lead to a loss of vessel elasticity and function. Vascular calcification is an important contributor to morbidity and mortality in many pathologies, including chronic kidney disease, diabetes mellitus, and atherosclerosis. Current research models to study vascular calcification are limited and are only viable at the late stages of calcification development in vivo. In vitro tools for studying vascular calcification use end-point measurements, increasing the demands on biological material and risking the introduction of variability to research studies. We demonstrate the application of a novel fluorescently labeled probe that binds to in vitro calcification development on human vascular smooth muscle cells and determines the real-time development of in vitro calcification. In this protocol, we describe the application of our newly developed calcification assay, a novel tool in disease modeling that has potential translational applications. We envisage this assay to be relevant in a broader spectrum of mineral deposition research, including applications in bone, cartilage, or dental research.

Published

2022

10. Extracellular calcium and CaSR drive osteoinduction in mesenchymal stromal cells.

Author

González-Vázquez, Arlyng, Planell, Josep A., and Engel, Elisabeth

Subjects

MESENCHYMAL stem cells, PROGENITOR cells, STROMAL cells, OSTEOINDUCTION, EXTRACELLULAR matrix, CALCIUM, CHEMOTAXIS

Abstract

Abstract: Bone is the main store of calcium and progenitor cells in the body. During the resorption process, the local calcium concentration reaches 8–40mM, and the surrounding cells are exposed to these fluctuations in calcium. This stimulus is a signal that is detected through the calcium sensing receptor (CaSR), which modulates chemotactic and proliferative G protein-dependent signaling pathways. The objective of the present work is to evaluate the roles of extracellular calcium ([Ca2+]o) and the CaSR in osteoinduction. Rat bone marrow mesenchymal stromal cells (rBMSCs) were stimulated with 10mM of Ca2+. Several experiments were conducted to demonstrate the effect of [Ca2+]o on chemotaxis, proliferation and differentiation on the osteoblastic lineage. It was found that [Ca2+]o induces rBMSCs to migrate and proliferate in a concentration-dependent manner. Real-time polymerase chain reaction and immunofluorescence also revealed that 10mM Ca2+ stimulates overexpression of osteogenic markers in rBMSCs, including alkaline phosphatase (ALP), bone sialoprotein, collagen Ia1 and osteocalcin. Functional assays determining ALP activity and mineralization tests both corroborate the increased expression of these markers in rBMSCs stimulated with Ca2+. Moreover, CaSR blockage inhibited the cellular response to stimulation with high concentrations of [Ca2+]o, revealing that the CaSR is a key modulator of these cellular responses. [Copyright &y& Elsevier]

Published

2014

11. Sensing Extracellular Calcium – An Insight into the Structure and Function of the Calcium-Sensing Receptor (CaSR)

Author

Chavez-Abiega, Sergei, Mos, Iris, Centeno, Patricia P., Elajnaf, Taha, Schlattl, Wolfgang, Ward, Donald T., Goedhart, Joachim, Kallay, Enikö, Chavez-Abiega, Sergei, Mos, Iris, Centeno, Patricia P., Elajnaf, Taha, Schlattl, Wolfgang, Ward, Donald T., Goedhart, Joachim, and Kallay, Enikö

Abstract

The calcium-sensing receptor (CaSR) is a G protein-coupled receptor that plays a key role in calcium homeostasis, by sensing free calcium levels in blood and regulating parathyroid hormone secretion in response. The CaSR is highly expressed in parathyroid gland and kidney where its role is well characterised, but also in other tissues where its function remains to be determined. The CaSR can be activated by a variety of endogenous ligands, as well as by synthetic modulators such as Cinacalcet, used in the clinic to treat secondary hyperparathyroidism in patients with chronic kidney disease. The CaSR couples to multiple G proteins, in a tissue-specific manner, activating several signalling pathways and thus regulating diverse intracellular events. The multifaceted nature of this receptor makes it a valuable therapeutic target for calciotropic and non-calciotropic diseases. It is therefore essential to understand the complexity behind the pharmacology, trafficking, and signalling characteristics of this receptor. This review provides an overview of the latest knowledge about the CaSR and discusses future hot topics in this field.

Published

2020

12. Altered transporter-mediated neocortical GABA release in Rasmussen encephalitis.

Author

Rassner, Michael P., Velthoven‐Wurster, Vera, Ramantani, Georgia, and Feuerstein, Thomas J.

Subjects

*CHRONIC encephalitis, *AMINOBUTYRIC acid, *SYNAPTOSOMES, *GABA, *VERATRIDINE

Abstract

To learn whether epileptic seizures in Rasmussen encephalitis ( RE) may be promoted by insufficient γ-aminobutyric acid ( GABA) release. 3 H- GABA was released from neocortical synaptosomes through transporter reversal following intrasynaptosomal Na+ accumulation by veratridine that prevents inactivation of Na+ channels. Tissues of three RE patients were compared with those of nine non- RE. In RE, the release was markedly reduced. In non- RE, the extracellular Ca2+ concentration ([ Ca2+]e) was inversely related to the amount of release. In RE, the percental decline of additional release upon [ABSTRACT FROM AUTHOR]

Published

2013

13. Extracellular calcium depletion transiently elevates oxygen consumption in neurosecretory PC12 cells through activation of mitochondrial Na+/Ca2+ exchange

Author

Zhdanov, Alexander V., Ward, Manus W., Taylor, Cormac T., Souslova, Ekaterina A., Chudakov, Dmitri M., Prehn, Jochen H.M., and Papkovsky, Dmitri B.

Subjects

*INTRACELLULAR calcium, *OXYGEN consumption, *RESPIRATION, *MITOCHONDRIA, *CELL metabolism, *MITOCHONDRIAL membranes

Abstract

Abstract: Fluctuating extracellular Ca2+ regulates many aspects of neuronal (patho)physiology including cell metabolism and respiration. Using fluorescence-based intracellular oxygen sensing technique, we demonstrate that depletion of extracellular Ca2+ from 1.8 to ≤0.6mM by chelation with EGTA induces a marked spike in O2 consumption in differentiated PC12 cells. This respiratory response is associated with the reduction in cytosolic and mitochondrial Ca2+, minor depolarization on the mitochondrial membrane, moderate depolarization of plasma membrane, and no changes in NAD(P)H and ATP. The response is linked to the influx of extracellular Na+ and the subsequent activation of mitochondrial Na+/Ca2+ and Na+/H+ exchange. The mitochondrial Na+/Ca2+ exchanger (mNCX) activated by Na+ influx reduces Ca2+ and increases Na+ levels in the mitochondrial matrix. The excess of Na+ activates the mitochondrial Na+/H+ exchanger (NHE) increasing the outward pumping of protons, electron transport and O2 consumption. Reduction in extracellular Na+ and inhibition of Na+ influx through the receptor operated calcium channels and plasmalemmal NHE reduce the respiratory response. Inhibition of the mNCX, L-type voltage gated Ca2+ channels or the release of Ca2+ from the endoplasmic reticulum also reduces the respiratory spike, indicating that unimpaired intercompartmental Ca2+ exchange is critical for response development. [Copyright &y& Elsevier]

Published

2010

14. Cellular mechanisms of cobalt-induced hippocampal epileptiform discharges.

Author

He, Jiwei, Hsiang, Hwa-Lin, Wu, Chiping, Mylvagnanam, Shanthini, Carlen, Peter L., and Zhang, Liang

Subjects

*CELLULAR mechanics, *COBALT, *LABORATORY mice, *CELL aggregation, *ANTICONVULSANTS, *CELL receptors

Abstract

To explore the cellular mechanisms of cobalt-induced epileptiform discharges in mouse hippocampal slices. Hippocampal slices were prepared from adult mice and briefly exposed to a CoCl2-containing external solution. Population and single cell activities were examined via extracellular and whole-cell patch recordings. Brief cobalt exposure induced spontaneous, ictal-like discharges originating from the CA3 area. These discharges were suppressed by anticonvulsants, gap junction blockers, or by raising extracellular Ca2+, but their generation was not associated with overall hyperexcitability or impairment in GABAergic inhibition in the CA3 circuit. Electroencephalographic ictal discharges of similar waveforms were observed in behaving rats following intrahippocampal cobalt infusion. Mechanisms involving activity-dependent facilitation of gap junctional communication may play a major role in cobalt-induced epileptiform discharges. [ABSTRACT FROM AUTHOR]

Published

2009

15. Hormonal, pH, and Calcium Regulation of Connexin 43-Mediated Dye Transfer in Osteocytes in Chick Calvaria.

Author

Ishihara, Yoshihito, Kamioka, Hiroshi, Honjo, Tadashi, Ueda, Hirotaka, Takano-Yamamoto, Teruko, and Yamashiro, Takashi

Abstract

This article focuses on a study on hormonal, pH, and calcium regulation of connexin 43. The article contains an introduction, materials and methods, results, and conclusions, as well as charts and graphs. The study found that in osteocytes in chick calvaria that gap junctional intercellular communications were regulated during bone modeling.

Published

2008

16. Hypersensitivity of the Anesthesia-Induced Comatose Brain.

Author

Kroeger, Daniel and Amzica, Florin

Subjects

*BRAIN, *COMA, *ANESTHESIA, *NEURONS, *ASTROCYTES, *CALCIUM, *ELECTROENCEPHALOGRAPHY

Abstract

Increasing levels of anesthesia are thought to produce a progressive loss of brain responsiveness to external stimuli. Here, we present the first report of a state window within anesthesia-induced coma, usually associated with an EEG pattern of burst suppression, during which brain excitability is dramatically increased so that even subliminal stimuli elicit bursts of whole-brain activity. We investigated this phenomenon in vivo using intracellular recordings of both neurons and glia, as well as extracellular calcium and EEG recordings. The results indicate that the bursting activity elicited with mechanical microstimulations, but also with auditory and visual stimuli, is dependent on complex mechanisms, including modulation of excitatory (NMDA) components, gap junction transmission, as well as the extracellular calcium concentration. The occurrence of bursting events is associated with a postburst refractory period that underlies the genesis of the alternating burst-suppression pattern. These findings raise the issue of what burst spontaneity during anesthesia-induced coma means and opens new venues for the handling of comatose patients. [ABSTRACT FROM AUTHOR]

Published

2007

17. Physiological implications of seasonal variation in membrane-associated calcium in red spruce mesophyll cells.

Author

DeHayes, D. H., Schaberg, P. G., Hawley, G. J., Borer, C. H., Cumming, J. R., and Strimbeck, G. R.

Subjects

RED spruce, PLANT physiology, EFFECT of calcium on plants, PLANT chemical analysis, FOLIAR diagnosis, PLANT plasma membranes

Abstract

We examined the pattern of seasonal variation in total foliar calcium (Ca) pools and plasma membrane-associated Ca (mCa) in mesophyll cells of current-year and 1-year-old needles of red spruce (Picea rubens Sarg.) and the relationship between mCa and total foliar Ca on an individual plant and seasonal basis. Foliar samples were collected from seedlings and analyzed on 16 dated at 2- to 3-week intervals between June 1994 and March 1995. Concentrations of mCa in current-year needles were more seasonally dynamic and responsive to temporal environmental changes than either mCa concentrations of 1-year-old needles, which were largely stable, or total foliar Ca concentrations in both tissues. In current-year needles, mCa was barely evident in early summer, increased steadily through summer, and then increased dramatically in early fall and surpassed the concentration in 1-year-old needles. Coincident with the first severe frost, mCa concentrations in current-year needles declined significantly and subsequently maintained concentrations comparable to those of 1-year-old needles. Following an extended January thaw, which included 5 days of minimum temperatures > 5 °C, mCa concentrations of current-year needles temporarily, but significantly, declined. However, there was no change in mCa concentrations of 1-year-old needles or total Ca concentrations of either tissue. Total Ca concentrations were stable through midsummer in both tissues, doubled in late summer, and then were stable in both tissues throughout fall and winter. Total Ca concentrations were consistently higher in 1-year-old than in current-year needles. Correlations between concentrations of mCa and total foliar Ca were consistently low and mostly nonsignificant. Thus, the dominant, but insoluble, extracellular Ca pool reflected in commonly measured total foliar Ca concentrations is not a meaningful surrogate for the physiologically important and labile pool associated with the plasma membrane–cell wall compartment of red spruce mesophyll cells. It is likely that shifts in the critical mCa compartment would not be detected by analysis of total foliar Ca pools. Seasonal changes in mCa concentration seemed to parallel seasonal changes in membrane structure, and possibly the important role of extracellular Ca in transducing messages associated with environmental signals. [ABSTRACT FROM PUBLISHER]

Published

1997

18. Extracellular calcium increases fibroblast growth factor 2 gene expression via extracellular signal-regulated kinase 1/2 and protein kinase A signaling in mouse dental papilla cells

Author

Binlu Xiao, Kentaro Maruyama, Masahiro Saito, Eiji Nemoto, Yukihiko Sakisaka, Mizuki Suto, and Sousuke Kanaya

Subjects

0301 basic medicine, MAPK/ERK pathway, Cell signaling, Time Factors, MAP Kinase Signaling System, Blotting, Western, Gene Expression, Bone morphogenetic protein 2, Enzyme-Linked Immunosorbent Assay, Fibroblast growth factor, Real-Time Polymerase Chain Reaction, 03 medical and health sciences, Calcium Chloride, Mice, 0302 clinical medicine, Gene expression, Extracellular, Animals, Protein kinase A signaling, Protein kinase A, General Dentistry, Dental Papilla, Protein kinase C, Cells, Cultured, Mitogen-Activated Protein Kinase 1, Mitogen-Activated Protein Kinase 3, Chemistry, Fibroblast growth factor 2, Reproducibility of Results, 030206 dentistry, Cyclic AMP-Dependent Protein Kinases, Cell biology, lcsh:RK1-715, 030104 developmental biology, lcsh:Dentistry, Original Article, Extracellular calcium, Calcium, Mouse dental papilla cells

Abstract

We previously reported that elevated extracellular calcium (Ca2+) levels increase bone morphogenetic protein 2 expression in human dental pulp (hDP) cells. However, it is unknown whether extracellular Ca2+ affects the expression of other growth factors such as fibroblast growth factor 2 (FGF2). Objective: The present study aimed to examine the effect of extracellular Ca2+ on FGF2 gene expression in hDP and immortalized mouse dental papilla (mDP) cells. Materials and Methods: Cells were stimulated with 10 mM CaCl2 in the presence or absence of cell signaling inhibitors. FGF2 gene expression was assessed using real-time polymerase chain reaction. The phosphorylation status of signaling molecules was examined by Western blotting. Results: Extracellular Ca2+ increased FGF2 gene expression in mDP and hDP cells. Gene expression of the calcium-sensing receptor and G protein-coupled receptor family C group 6 member A, both of which are extracellular Ca2+ sensors, was not detected. Ca2+-mediated Fgf2 expression was reduced by pretreatment with the protein kinase A (PKA) inhibitor H-89 or extracellular signal-regulated kinase (ERK) 1/2 inhibitor PD98059 but not by pretreatment with the protein kinase C inhibitor GF-109203X or p38 inhibitor SB203580. Extracellular Ca2+ increased PKA activity and ERK1/2 phosphorylation. Ca2+-induced PKA activity decreased by pretreatment with PD98059. Conclusions: These findings indicate that elevated extracellular Ca2+ levels led to increased Fgf2 expression through ERK1/2 and PKA in mDP cells and that this mechanism may be useful for designing regenerative therapies for dentin.

Published

2018

19. (-)-Epicatechin-induced relaxation of isolated human saphenous vein: Roles of K+ and Ca2+ channels

Author

Marinko, Marija, Marinko, Marija, Janković, Goran, Nenezić, Dragoslav, Milojević, Predrag, Stojanović, Ivan, Kanjuh, Vladimir, Novaković, Aleksandra, Marinko, Marija, Marinko, Marija, Janković, Goran, Nenezić, Dragoslav, Milojević, Predrag, Stojanović, Ivan, Kanjuh, Vladimir, and Novaković, Aleksandra

Abstract

In this study, we aimed to investigate relaxant effect of flavanol (-)-epicatechin on the isolated human saphenous vein (HSV), as a part of its cardioprotective action, and to define the mechanisms underlying this vasorelaxation. (-)-Epicatechin induced a concentration-dependent relaxation of HSV pre-contracted by phenylephrine. Among K+ channel blockers, 4-aminopyridine, margatoxin, and iberiotoxin significantly inhibited relaxation of HSV, while glibenclamide considerably reduced effects of the high concentrations of (-)-epicatechin. Additionally, (-)-epicatechin relaxed contraction induced by 80 mM K+, whereas in the presence of nifedipine produced partial relaxation of HSV rings pre-contracted by phenylephrine. In Ca2+-free solution, (-)-epicatechin relaxed contraction induced by phenylephrine, but had no effect on contraction induced by caffeine. A sarcoplasmic reticulum Ca2+-ATPase inhibitor, thapsigargin, significantly reduced relaxation of HSV produced by (-)-epicatechin. These results demonstrate that (-)-epicatechin produces endothelium-independent relaxation of isolated HSV rings. Vasorelaxation to (-)-epicatechin probably involves activation of 4-aminopyridine- and margatoxin-sensitive K-V channels, BKCa channels, and at least partly, K-ATP channels. In addition, not only the inhibition of extracellular Ca2+ influx, but regulation of the intracellular Ca2+ release, via inositol-trisphosphate receptors and reuptake into sarcoplasmic reticulum, via stimulation of Ca2+-ATPase, as well, most likely participate in (-)-epicatechin-induced relaxation of HSV.

Published

2018

20. Prothrombin Loading of Vascular Smooth Muscle Cell-Derived Exosomes Regulates Coagulation and Calcification

Author

Catherine M. Shanahan, Paul Harrison, Alexander N. Kapustin, Joanne L. Reynolds, Willi Jahnen-Dechent, Rosamund McNair, Georg Schlieper, Alexander Heiss, Tilman M. Hackeng, Michael Schoppet, Leon J. Schurgers, RS: CARIM - R1.02 - Vascular aspects thrombosis and haemostasis, Biochemie, and RS: CARIM - R1.01 - Blood proteins & engineering

Subjects

0301 basic medicine, Male, Vascular smooth muscle, 030204 cardiovascular system & hematology, Muscle, Smooth, Vascular, smooth muscle, 0302 clinical medicine, Cardiovascular calcification, Matrix gla protein, CALCIPROTEIN PARTICLES, POTENTIAL MECHANISM, Cells, Cultured, CARDIOVASCULAR CALCIFICATION, Extracellular Matrix Proteins, biology, MATRIX GLA PROTEIN, Middle Aged, Endocytosis, Cell biology, Protein Transport, Biochemistry, FETUIN-MINERAL COMPLEX, vascular calcification, Female, Cardiology and Cardiovascular Medicine, Protein Binding, Signal Transduction, anticoagulants, Calcification inhibitor, Myocytes, Smooth Muscle, Endosomes, Phosphatidylserines, exosomes, Exosome, 03 medical and health sciences, Tissue factor, medicine, Humans, HUMAN ATHEROSCLEROTIC PLAQUES, Protein Interaction Domains and Motifs, EXTRACELLULAR CALCIUM, Blood Coagulation, Aged, Gla domain, prothrombin, Calcium-Binding Proteins, myocytes, medicine.disease, CHEMICAL SYNTHESIS, ENDOTHELIAL-CELLS, 030104 developmental biology, TISSUE FACTOR, biology.protein, Warfarin, Peptides, Calcification

Abstract

Objective— The drug warfarin blocks carboxylation of vitamin K–dependent proteins and acts as an anticoagulant and an accelerant of vascular calcification. The calcification inhibitor MGP (matrix Gla [carboxyglutamic acid] protein), produced by vascular smooth muscle cells (VSMCs), is a key target of warfarin action in promoting calcification; however, it remains unclear whether proteins in the coagulation cascade also play a role in calcification. Approach and Results— Vascular calcification is initiated by exosomes, and proteomic analysis revealed that VSMC exosomes are loaded with Gla-containing coagulation factors: IX and X, PT (prothrombin), and proteins C and S. Tracing of Alexa488-labeled PT showed that exosome loading occurs by direct binding to externalized phosphatidylserine (PS) on the exosomal surface and by endocytosis and recycling via late endosomes/multivesicular bodies. Notably, the PT Gla domain and a synthetic Gla domain peptide inhibited exosome-mediated VSMC calcification by preventing nucleation site formation on the exosomal surface. PT was deposited in the calcified vasculature, and there was a negative correlation between vascular calcification and the levels of circulating PT. In addition, we found that VSMC exosomes induced thrombogenesis in a tissue factor–dependent and PS-dependent manner. Conclusions— Gamma-carboxylated coagulation proteins are potent inhibitors of vascular calcification suggesting warfarin action on these factors also contributes to accelerated calcification in patients receiving this drug. VSMC exosomes link calcification and coagulation acting as novel activators of the extrinsic coagulation pathway and inducers of calcification in the absence of Gla-containing inhibitors.

Published

2017

21. Prothrombin Loading of Vascular Smooth Muscle Cell-Derived Exosomes Regulates Coagulation and Calcification

Author

Kapustin, Alexander N., Kapustin, Alexander N., Schoppet, Michael, Schurgers, Leon J., Reynolds, Joanne L., McNair, Rosamund, Heiss, Alexander, Jahnen-Dechent, Willi, Hackeng, Tilman M., Schlieper, Georg, Harrison, Paul, Shanahan, Catherine M., Kapustin, Alexander N., Kapustin, Alexander N., Schoppet, Michael, Schurgers, Leon J., Reynolds, Joanne L., McNair, Rosamund, Heiss, Alexander, Jahnen-Dechent, Willi, Hackeng, Tilman M., Schlieper, Georg, Harrison, Paul, and Shanahan, Catherine M.

Abstract

Objective-The drug warfarin blocks carboxylation of vitamin K-dependent proteins and acts as an anticoagulant and an accelerant of vascular calcification. The calcification inhibitor MGP (matrix Gla [carboxyglutamic acid] protein), produced by vascular smooth muscle cells (VSMCs), is a key target of warfarin action in promoting calcification; however, it remains unclear whether proteins in the coagulation cascade also play a role in calcification.Approach and Results-Vascular calcification is initiated by exosomes, and proteomic analysis revealed that VSMC exosomes are loaded with Gla-containing coagulation factors: IX and X, PT (prothrombin), and proteins C and S. Tracing of Alexa488-labeled PT showed that exosome loading occurs by direct binding to externalized phosphatidylserine (PS) on the exosomal surface and by endocytosis and recycling via late endosomes/multivesicular bodies. Notably, the PT Gla domain and a synthetic Gla domain peptide inhibited exosome-mediated VSMC calcification by preventing nucleation site formation on the exosomal surface. PT was deposited in the calcified vasculature, and there was a negative correlation between vascular calcification and the levels of circulating PT. In addition, we found that VSMC exosomes induced thrombogenesis in a tissue factor-dependent and PS-dependent manner.Conclusions-Gamma-carboxylated coagulation proteins are potent inhibitors of vascular calcification suggesting warfarin action on these factors also contributes to accelerated calcification in patients receiving this drug. VSMC exosomes link calcification and coagulation acting as novel activators of the extrinsic coagulation pathway and inducers of calcification in the absence of Gla-containing inhibitors.

Published

2017

22. Excitation-Contraction Coupling Disruption in a Mouse Model of Niemann-Pick Disease

Author

Li, Harry Zichen and Li, Harry Zichen

Abstract

Niemann-Pick disease (NPD) is a lysosomal storage disorder that results from deficient acid sphingomyelinase (ASM) activity. It was recently proposed that ASM and extracellular Ca2+ are required for membrane repair. Since plasma membrane integrity is an important component of excitation-contraction coupling (E-C) and skeletal muscle force production, we hypothesized that there would be E-C coupling defects in NPD related to intracellular calcium (Ca2+) dynamics. Our results demonstrate that ASM deficient (ASM-/-) fibers have a reduced ability to withstand repetitive contractions in comparison to wild-type (WT) fibers, and fibers from ASM-/- mice exhibited lower peak tetanic Ca2+ compared to WT. Lastly, no differences in peak tetanic Ca2+ were found between ASM-/- fibers and WT fibers deprived of Ca2+. Together, these results suggest that both ASM and extracellular Ca2+ are required for optimal E-C coupling in skeletal muscle and for the ability to respond to repetitive contractions that occurs with sustained activity.

Published

2017

23. Proton-gated ion channels in mouse bone marrow stromal cells

Author

Giriraj Sahu, Sreejit Parameswaran, Rama Shanker Verma, Sandip M. Swain, and Amal Kanti Bera

Subjects

bone marrow stromal cell, Cell Membrane Permeability, amiloride, animal cell, Cation Channel Blocker, Transient receptor potential channel, Mice, Transient Receptor Potential Channels, calcium transport, calcium ion, Medicine(all), Cell Death, Mesenchymal Stromal Cells, messenger RNA, pH, Reverse Transcriptase Polymerase Chain Reaction, General Medicine, sodium ion, Hydrogen-Ion Concentration, Amiloride, unclassified drug, Biochemistry, priority journal, stroma cell, Acid Sensing Ion Channel Blockers, Protons, Ion Channel Gating, extracellular calcium, medicine.drug, Biology, capsazepine, flufenamic acid, medicine, Animals, Patch clamp, RNA, Messenger, Reversal potential, protein expression, Acid-sensing ion channel, Ion channel, mouse, Ions, nonhuman, concentration (parameters), Sodium, Mesenchymal Stem Cells, nucleotide sequence, Cell Biology, ion current, proton gated ion channel, Acid Sensing Ion Channels, Flufenamic acid, acid sensing ion channel, ion channel, Biophysics, gene expression, Calcium, vanilloid receptor, ion permeability, Extracellular Space, Developmental Biology

Abstract

A variety of ion channels like acid sensing ion channels (ASICs) and several members of the transient receptor potential (TRP) cation channel family are known to be activated by protons. The present study describes proton-gated current in mouse bone marrow stromal cells (BMSCs), by using whole cell patch clamp. Rapid application of extracellular solution of pH ≤ 6.5, evoked slow inactivating current with mean peak value of 328 ± 31pA, (n = 25) at pH 5.0. The reversal potential was close to the theoretical Na(+) equilibrium potential, indicating that majority of the current is mediated by Na(+) and partially carried by Ca(2+) as revealed by ion substitution experiments and Ca(2+) imaging. ASICs blocker amiloride (1mM) and nonselective cation channel blocker flufenamic acid (0.3mM) reduced the current amplitudes by 36 ± 5% (n = 10) and 39 ± 7% (n = 14) respectively. Co-application of flufenamic acid and amiloride further decreased the current by 70 ± 7% (n = 7). However, capsazepine, SKF 96365 and ruthenium red had no effect. 10mM of Ca(2+) and 2mM of La(3+) inhibited the current by 39 ± 6% (n = 5) and 46 ± 6% (n = 4) respectively. Zn(2+) (300 μM) and Gd(3+) (500 μM) had no effect on the current amplitude. Low pH mediated cell death was completely inhibited by co-application of La(3+) and amiloride. Reverse Transcriptase-PCR detected expression of mRNAs of ASICs and TRP family. In summary, our results demonstrate the functional expression of low pH-activated ion channels in mouse BMSCs.

Published

2012

24. An astrocyte-dependent mechanism for neuronal rhythmogenesis

Author

Arlette Kolta, Richard Robitaille, Dorly Verdier, James Féthière, Antony G. Philippe, Philippe Morquette, Aklesso Kadala, Université de Montréal. Faculté de médecine dentaire, Département de neurosciences, Groupe de recherche sur le système nerveux central, Université de Montréal, Faculté de pharmacie, Université Louis Pasteur - Strasbourg I, Dynamique Musculaire et Métabolisme (DMEM), Institut National de la Recherche Agronomique (INRA)-Université de Montpellier (UM), Faculté sciences du sport, Université Montpellier 1 (UM1), Département de neurosciences, Groupe de recherche sur le système nerveux central, Fac Med Dent, Reseau Rech Sante Buccodent & Osseuse, Université de Montréal (UdeM), and Université de Montpellier (UM)-Institut National de la Recherche Agronomique (INRA)

Subjects

Periodicity, rythme respiratoire, Pre-Bötzinger complex, motor patterns, Cell Communication, glial-cells, Rats, Sprague-Dawley, synaptic-transmission, neurone, Excitatory Amino Acid Agonists, Chelating Agents, Neurons, central pattern, astroglia, Chemistry, General Neuroscience, medicine.anatomical_structure, [SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], brain-stem, extracellular calcium, Astrocyte, N-Methylaspartate, Sensory system, S100 Calcium Binding Protein beta Subunit, Neurotransmission, rhythm, tronc cérébral, Bursting, astrocyte, medicine, Extracellular, [SDV.MHEP.PHY]Life Sciences [q-bio]/Human health and pathology/Tissues and Organs [q-bio.TO], Animals, Calcium Signaling, Trigeminal Nerve, persistent sodium current, Mastication, pre-botzinger complex, generator, neurosciences, respiratory, neuron, Electrophysiological Phenomena, Rats, breathing rate, nervous system, Astrocytes, main sensory nucleus, Calcium, Neuron, Nerve Net, Neuroscience

Abstract

Communication between neurons rests on their capacity to change their firing pattern to encode different messages. For several vital functions, such as respiration and mastication, neurons need to generate a rhythmic firing pattern. Here we show in the rat trigeminal sensori-motor circuit for mastication that this ability depends on regulation of the extracellular Ca(2+) concentration ([Ca(2+)]e) by astrocytes. In this circuit, astrocytes respond to sensory stimuli that induce neuronal rhythmic activity, and their blockade with a Ca(2+) chelator prevents neurons from generating a rhythmic bursting pattern. This ability is restored by adding S100β, an astrocytic Ca(2+)-binding protein, to the extracellular space, while application of an anti-S100β antibody prevents generation of rhythmic activity. These results indicate that astrocytes regulate a fundamental neuronal property: the capacity to change firing pattern. These findings may have broad implications for many other neural networks whose functions depend on the generation of rhythmic activity.

Published

2015

25. Towards 4th generation biomaterials: a covalent hybrid polymer-ormoglass architecture

Author

Miguel A. Mateos-Timoneda, Elisabeth Engel, Małgorzata Lewandowska, Aldrik H. Velders, Nadège Sachot, J. A. Planell, Oscar Castaño, Universitat Politècnica de Catalunya. Departament de Ciència dels Materials i Enginyeria Metal·lúrgica, Universitat Politècnica de Catalunya. BBT - Biomaterials, Biomecànica i Enginyeria de Teixits, and Universitat de Barcelona

Subjects

Scaffold, Bone Regeneration, Materials science, Polymers, Surface Properties, Polyesters, mechanical-properties, Nanofibers, Biocompatible Materials, Nanotechnology, tissue regeneration, fabrication, in-vitro, Enginyeria dels materials [Àrees temàtiques de la UPC], law.invention, chemistry.chemical_compound, angiogenesis, Tissue engineering, Polylactic acid, bone regeneration, law, nanocomposites, Life Science, General Materials Science, Lactic Acid, Bioactive glass, Bone regeneration, BioNanoTechnology, VLAG, Interacció cel·lular, Nanocomposite, Tissue Engineering, Tissue Scaffolds, Nanopartícules, chemistry, Enginyeria de teixits, Materials biomèdics, Nanofiber, Cell interaction, Nanoparticles, Calcium, Glass, composite scaffolds, Hybrid material, Biomedical materials, extracellular calcium

Abstract

Hybrid materials are being extensively investigated with the aim of mimicking the ECM microenvironment to develop effective solutions for bone tissue engineering. However, the common drawbacks of a hybrid material are the lack of interactions between the scaffold's constituents and the masking of its bioactive phase. Conventional hybrids often degrade in a non-homogeneous manner and the biological response is far from optimal. We have developed a novel material with strong interactions between constituents. The bioactive phase is directly exposed on its surface mimicking the structure of the ECM of bone. Here, polylactic acid electrospun fibers have been successfully and reproducibly coated with a bioactive organically modified glass (ormoglass, Si-Ca-P-2 system) covalently. In comparison with the pure polymeric mats, the fibers obtained showed improved hydrophilicity and mechanical properties, bioactive ion release, exhibited a nanoroughness and enabled good cell adhesion and spreading after just one day of culture (rMSCs and rEPCs). The fibers were coated with different ormoglass compositions to tailor their surface properties (roughness, stiffness, and morphology) by modifying the experimental parameters. Knowing that cells modulate their behavior according to the exposed physical and chemical signals, the development of this instructive material is a valuable advance in the design of functional regenerative biomaterials.

Published

2015

26. Extracellular calcium and CaSR drive osteoinduction in mesenchymal stromal cells

Author

Josep A. Planell, Elisabeth Engel, Arlyng González-Vázquez, Universitat Politècnica de Catalunya. Departament de Ciència dels Materials i Enginyeria Metal·lúrgica, Institut de Bioenginyeria de Catalunya, and Universitat Politècnica de Catalunya. BBT - Biomaterials, Biomecànica i Enginyeria de Teixits

Subjects

Bone sialoprotein, SENSING-RECEPTOR, Biochemistry, Medicina regenerativa, Osteogenesis, Calcium--Receptors, biology, OSTEOBLAST FUNCTION, PROLIFERATION, General Medicine, Cell biology, DIFFERENTIATION, Regenerative medicine, Osteocalcin, Alkaline phosphatase, Calcium-sensing receptor, STEM-CELLS, Biotechnology, EXPRESSION, medicine.medical_specialty, Materials science, Mesenchymal stromal cells (MSCs), BONE-MARROW, Biomedical Engineering, chemistry.chemical_element, Calcium, Real-Time Polymerase Chain Reaction, Enginyeria dels materials [Àrees temàtiques de la UPC], MC3T3-E1 CELLS, Biomaterials, Internal medicine, medicine, Extracellular, Animals, Molecular Biology, DNA Primers, Base Sequence, Mesenchymal stem cell, Calci, Chemotaxis, Mesenchymal Stem Cells, IN-VITRO, Rats, Endocrinology, chemistry, Osteoinduction, TISSUE, biology.protein, Extracellular calcium, Calcium sensing receptor (CaSR), Receptors, Calcium-Sensing

Abstract

Bone is the main store of calcium and progenitor cells in the body. During the resorption process, the local calcium concentration reaches 8-40 mM, and the surrounding cells are exposed to these fluctuations in calcium. This stimulus is a signal that is detected through the calcium sensing receptor (CaSR), which modulates chemotactic and proliferative G protein-dependent signaling pathways. The objective of the present work is to evaluate the roles of extracellular calcium ([Ca2+](o)) and the CaSR in osteoinduction. Rat bone marrow mesenchymal stromal cells (rBMSCs) were stimulated with 10 mM of Ca2+. Several experiments were conducted to demonstrate the effect of [Ca2+](o) on chemotaxis, proliferation and differentiation on the osteoblastic lineage. It was found that [Ca2+](o) induces rBMSCs to migrate and proliferate in a concentration-dependent manner. Real-time polymerase chain reaction and immunofluorescence also revealed that 10 mM Ca2+ stimulates overexpression of osteogenic markers in rBMSCs, including alkaline phosphatase (ALP), bone sialoprotein, collagen Ia1 and osteocalcin. Functional assays determining ALP activity and mineralization tests both corroborate the increased expression of these markers in rBMSCs stimulated with Ca2+. Moreover, CaSR blockage inhibited the cellular response to stimulation with high concentrations of [Ca2+](o), revealing that the CaSR is a key modulator of these cellular responses. (C) 2014 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.

Published

2014

27. Angiogenesis in bone regeneration: tailored calcium release in hybrid fibrous scaffolds

Author

Nadège Sachot, Oscar Castaño, Elena Xuriguera, Jeong-Hui Park, Tae Hyun Kim, Hae-Won Kim, Joong-Hyun Kim, Guang-Zhen Jin, Josep A. Planell, Elisabeth Engel, Universitat Politècnica de Catalunya. Departament de Ciència dels Materials i Enginyeria Metal·lúrgica, Institut de Bioenginyeria de Catalunya, Universitat Politècnica de Catalunya. BBT - Biomaterials, Biomecànica i Enginyeria de Teixits, and Tan'guk Taehakkyo

Subjects

Bone Regeneration, Biocompatible Materials, Microscopy, Atomic Force, law.invention, angiogenesis, Mice, law, hybrid materials, General Materials Science, Skin, Cell Differentiation, MECHANICAL-PROPERTIES, Prostheses and Implants, Hydrogen-Ion Concentration, Electrospinning, Bone regeneration, SENSING RECEPTOR, Bioactive glass, Thermogravimetry, Calcium-sensing receptor, Hybrid material, STEM-CELLS, Silicon, Materials science, Surface Properties, Ossos -- Regeneració, Polyesters, chemistry.chemical_element, ormoglasses, Neovascularization, Physiologic, MESENCHYMAL STROMAL CELLS, Calcium, Enginyeria dels materials [Àrees temàtiques de la UPC], MC3T3-E1 CELLS, Cell Line, In vivo, sol-gel, Animals, EXTRACELLULAR CALCIUM, BIOACTIVE GLASS, electrospinning, Cell Proliferation, Ions, IN-VITRO, Rats, chemistry, TISSUE, Biophysics, Glass, COMPOSITE SCAFFOLDS, Receptors, Calcium-Sensing

Abstract

In bone regeneration, silicon-based calcium phosphate glasses (Bioglasses) have been widely used since the 1970s. However, they dissolve very slowly because of their high amount of Si (SiO2 > 45%). Recently, our group has found that calcium ions released by the degradation of glasses in which the job of silicon is done by just 5% of TiO2 are effective angiogenic promoters, because of their stimulation of a cell-membrane calcium sensing receptor (CaSR). Based on this, other focused tests on angiogenesis have found that Bioglasses also have the potential to be angiogenic promoters even with high contents of silicon (80%); however, their slow degradation is still a problem, as the levels of silicon cannot be decreased any lower than 45%. In this work, we propose a new generation of hybrid organically modified glasses, ormoglasses, that enable the levels of silicon to be reduced, therefore speeding up the degradation process. Using electrospinning as a faithful way to mimic the extracellular matrix (ECM), we successfully produced hybrid fibrous mats with three different contents of Si (40, 52, and 70%), and thus three different calcium ion release rates, using an ormoglass-polycaprolactone blend approach. These mats offered a good platform to evaluate different calcium release rates as osteogenic promoters in an in vivo subcutaneous environment. Complementary data were collected to complement Ca2+ release analysis, such as stiffness evaluation by AFM, zeta-potential, morphology evaluation by FESEM, proliferation and differentiation analysis, as well as in vivo subcutaneous implantations. Material and biological characterization suggested that compositions of organic/inorganic hybrid materials with a Si content equivalent to 40%, which were also those that released more calcium, were osteogenic. They also showed a greater ability to form blood vessels. These results suggest that Si-based ormoglasses can be considered an efficient tool for calcium release modulation, which could play a key role in the angiogenic promoting process.

Published

2014

28. <ORIGINAL>Effects of extracellular calcium on normal human bone cells

Author

北海道医療大学歯学部口腔病理学講座 and Department of Oral Pathology, School of Dentistry, Health Sciences University of Hokkaido

Subjects

bone morphogenetic proteins (BMP), proliferation, differentiation, extracellular calcium

Abstract

It has been demonstrated that elevated extracellular calcium can inhibit the formation of osteoclast-like cells and stimulate osteoblastic proliferation, indicating that extracellular calcium is very important for the process of bone remodeling. The current study was carried out to examine the effect of increased extracellular calcium on the cell It has been demonstrated that elevated extracellular calcium can inhibit the formation of osteoclast-like cells and stimulate osteoblastic proliferation, indicating that extracellular calcium is very important for the process of bone remodeling. The current study was carried out to examine the effect of increased extracellular calcium on the cell proliferation, differentiation, chemotactic activity, prostaglandin E_2 (PGE_2) synthesis and mRNA levels of bone morphogenetic proteins (BMP), well-documented osteoinductive proteins, in normal human mandible-derived bone cells (HOB-M cells) in vitro. The results are as follows. 1. An increase in extracellular calcium significantly increased cell proliferation with an optimal dose at 0.4mM (added CaCl_2), as assessed by XTT proliferation assay. 2. While elevated extracellular calcium failed to increase alkaline phosphatase (ALP) activity or osteocalcin secretion, it significantly increased procollagen type I carboxy-terminal peptide (PICP) production, a useful measure of type I collagen synthesis. 3. Increased extracellular calcium did not significantly affect the chemotactic activity of HOB-M cells. 4. Treatment with increased calcium (0.4-1.2mM ; added CaCl_2) for 24 hrs significantly increased the PGE_2 synthesis into the media. 5. However, addition of indomethacin (10^M), an inhibitor of PGE_2 synthesis, did not block the increased cell proliferation by calcium. 6. Mild increases (0.1-0.4mM ; added CaCl_2) in extracellular calcium markedly increased the mRNA levels of BMP-2, -4 and -5, after 0.5- and 24-hour incubations as evaluated by reverse transcription-polymerase chain reaction (RT-PCR). 7. However, a severe increase (1.2mM ; added CaCl_2) in extracellular calcium failed to affect the mRNA levels of BMP, except for an increase in mRNA level of BMP-5 at 24 hr. These results indicate that extracellular calcium is one of the potent regulatory factors of BMP, type I collagen as well as PGE_2 in human osteoblastic cells.

Published

2000

29. Calcium Transients in the Rhabdomeres of Dark- and Light-Adapted Fly Photoreceptor Cells

Author

Doekele G. Stavenga, Johannes Oberwinkler, and Zernike Institute for Advanced Materials

Subjects

genetic structures, TRP, Photoreceptor cell, Membrane Potentials, SIGNALING COMPLEX, Ca2+ feedback, DROSOPHILA PHOTORECEPTORS, local Ca2+ signaling, IN-VIVO, light adaptation, General Neuroscience, Anatomy, LIMULUS VENTRAL PHOTORECEPTORS, CA2+ CONCENTRATION, Rhabdomere, Light-adapted, Electrophysiology, medicine.anatomical_structure, Free calcium, Female, Photoreceptor Cells, Invertebrate, Visual phototransduction, SENSITIVE CHANNELS, PDZ DOMAIN PROTEIN, KINASE-C, Kinetics, chemistry.chemical_element, Dark Adaptation, phototransduction, Calcium, Biology, Feedback, Ca2+ transients, medicine, Animals, Calcium Signaling, EXTRACELLULAR CALCIUM, ARTICLE, Eye Proteins, Vision, Ocular, Fluorescent Dyes, Light response, Adaptation, Ocular, Diptera, fungi, fluorescent Ca2+ indicators, eye diseases, chemistry, Mutation, Biophysics, sense organs

Abstract

The light response of fly photoreceptor cells is modulated by changes in free Ca2+concentration. Fly phototransduction and most processes regulating it take place in or very close to the rhabdomere. We therefore measured the kinetics and the absolute values of the free Ca2+concentration in the rhabdomere of fly photoreceptor cellsin vivoby making use of the natural optics of the fly's eye. We show that Ca2+flowing into the rhabdomere after light stimulation of dark-adapted cells causes fast Ca2+transients that reach peak values higher than 200 μmin 2+concentration has declined again to ∼20 μm. The duration of the Ca2+transients becomes still shorter, and their size reduced, when the photoreceptor cell is light-adapted. This reduction in duration and size of the Ca2+transients is graded with the intensity of the adapting light. The kinetics and absolute values of the free calcium concentration found to occur in the rhabdomere are suitable to mediate the fast feedback signals known to act on the fly phototransduction cascade.

Published

2000

30. Calcium transients in the rhabdomeres of dark- and light-adapted fly photoreceptor cells

Subjects

light adaptation, SENSITIVE CHANNELS, genetic structures, PDZ DOMAIN PROTEIN, fungi, KINASE-C, phototransduction, LIMULUS VENTRAL PHOTORECEPTORS, fluorescent Ca2+ indicators, CA2+ CONCENTRATION, TRP, eye diseases, SIGNALING COMPLEX, Ca2+ transients, Ca2+ feedback, DROSOPHILA PHOTORECEPTORS, local Ca2+ signaling, sense organs, EXTRACELLULAR CALCIUM, IN-VIVO

Abstract

The light response of fly photoreceptor cells is modulated by changes in free Ca2+ concentration. Fly phototransduction and most processes regulating it take place in or very close to the rhabdomere. We therefore measured the kinetics and the absolute values of the free Ca2+ concentration in the rhabdomere of fly photoreceptor cells in vivo by making use of the natural optics of the fly's eye. We show that Ca2+ flowing into the rhabdomere after light stimulation of dark-adapted cells causes fast Ca2+ transients that reach peak values higher than 200 mu M in

Published

2000

31. Towards 4th generation biomaterials: a covalent hybrid polymer-ormoglass architecture

Author

Universitat Politècnica de Catalunya. Departament de Ciència dels Materials i Enginyeria Metal·lúrgica, Universitat Politècnica de Catalunya. BBT - Biomaterials, Biomecànica i Enginyeria de Teixits, Sachot, Nadège, Mateos Timoneda, Miguel Ángel, Planell Estany, Josep Anton, Velders, A. H., lewandowska, M., Engel López, Elisabeth, Castaño Linares, Óscar, Universitat Politècnica de Catalunya. Departament de Ciència dels Materials i Enginyeria Metal·lúrgica, Universitat Politècnica de Catalunya. BBT - Biomaterials, Biomecànica i Enginyeria de Teixits, Sachot, Nadège, Mateos Timoneda, Miguel Ángel, Planell Estany, Josep Anton, Velders, A. H., lewandowska, M., Engel López, Elisabeth, and Castaño Linares, Óscar

Abstract

Hybrid materials are being extensively investigated with the aim of mimicking the ECM microenvironment to develop effective solutions for bone tissue engineering. However, the common drawbacks of a hybrid material are the lack of interactions between the scaffold's constituents and the masking of its bioactive phase. Conventional hybrids often degrade in a non-homogeneous manner and the biological response is far from optimal. We have developed a novel material with strong interactions between constituents. The bioactive phase is directly exposed on its surface mimicking the structure of the ECM of bone. Here, polylactic acid electrospun fibers have been successfully and reproducibly coated with a bioactive organically modified glass (ormoglass, Si-Ca-P-2 system) covalently. In comparison with the pure polymeric mats, the fibers obtained showed improved hydrophilicity and mechanical properties, bioactive ion release, exhibited a nanoroughness and enabled good cell adhesion and spreading after just one day of culture (rMSCs and rEPCs). The fibers were coated with different ormoglass compositions to tailor their surface properties (roughness, stiffness, and morphology) by modifying the experimental parameters. Knowing that cells modulate their behavior according to the exposed physical and chemical signals, the development of this instructive material is a valuable advance in the design of functional regenerative biomaterials., Postprint (published version)

Published

2015

32. Light dependence of calcium and membrane potential measured in blowfly photoreceptors in vivo

Author

Johannes Oberwinkler, Doekele G. Stavenga, and Zernike Institute for Advanced Materials

Subjects

SENSITIVE CHANNELS, Physiology, Calcium buffering, calcium buffering, chemistry.chemical_element, phototransduction, Calcium, Biology, Photoreceptor cell, Article, Membrane Potentials, COMPOUND EYE, Cytosol, fluorescent calcium indicators, Botany, medicine, Animals, Homeostasis, DROSOPHILA PHOTORECEPTORS, EXTRACELLULAR CALCIUM, Vision, Ocular, Fluorescent Dyes, Membrane potential, light adaptation, calcium homeostasis, Adaptation, Ocular, Diptera, Compound eye, OXIDATIVE-METABOLISM, LIMULUS VENTRAL PHOTORECEPTORS, HONEY-BEE DRONE, Rhabdomere, Electrophysiology, Light intensity, FLY PHOTORECEPTORS, medicine.anatomical_structure, chemistry, Microscopy, Fluorescence, APIS-MELLIFERA, Biophysics, INDUCED CA2+ INFLUX, Female, Photoreceptor Cells, Invertebrate, Visual phototransduction

Abstract

Light adaptation in insect photoreceptors is caused by an increase in the cytosolic Ca2+ concentration. To better understand this process, we measured the cytosolic Ca2+ concentration in vivo as a function of adapting light intensity in the white-eyed blowfly mutant chalky. We developed a technique to measure the cytosolic Ca2+ concentration under conditions as natural as possible. The calcium indicator dyes Oregon Green 1, 2, or 5N (Molecular Probes, Inc., Eugene, OR) were iontophoretically injected via an intracellular electrode into a photoreceptor cell in the intact eye; the same electrode was also used to measure the membrane potential. The blue-induced green fluorescence of these dyes could be monitored by making use of the optics of the facet lens and the rhabdomere waveguide. The use of the different Ca2+-sensitive dyes that possess different affinities for Ca2+ allowed the quantitative determination of the cytosolic Ca2+ concentration in the steady state. Determining the cytosolic Ca2+ concentration as a function of the adapting light intensity shows that the Ca2+ concentration is regulated in a graded fashion over the whole dynamic range where a photoreceptor cell can respond to light. When a photoreceptor is adapted to bright light, the cytosolic Ca2+ concentration reaches stable values higher than 10 μM. The data are consistent with the hypothesis that the logarithm of the increase in cytosolic Ca2+ concentration is linear with the logarithm of the light intensity. From the estimated values of the cytosolic Ca2+ concentration, we conclude that the Ca2+-buffering capacity is limited. The percentage of the Ca2+ influx that is buffered gradually decreases with increasing Ca2+ concentrations; at cytosolic Ca2+ concentration levels above 10 μM, buffering becomes minimal.

Published

1998

33. Analysis of the In Vitro Secretory Activity of Human Pituitary Adenomas: Modification of Corticotropin Release from Adenoma Tissue Explant Cultures by Addition of a Human Plasma Ultrafiltrate Bioactive Fraction

Author

Marianne Hayn, Nevenka Hiršl, J. Paladino, Walter Dietrich, Dunja Rogić, Branka Salzer, Mirko Koršić, Vesna Plavšić, Mislav Jurin, Heinz Faulhammer, Simon Mikulandra, Kamelija Žarković, Franz Tatzber, Neven Žarković, Biserka Pokrić, Bojan Benko, Jasminka Golubic, and Rudolf J. Schaur

Subjects

Adenoma, Adult, Male, endocrine system, Pituitary gland, medicine.medical_specialty, Corticotropin secretion, education, Clinical Biochemistry, Biology, Adrenocorticotropic Hormone, In vivo, Pituitary adenoma, Internal medicine, Tumor Cells, Cultured, medicine, Humans, Pituitary Neoplasms, Aged, Biochemistry (medical), adenocorticotropin secretion, extracellular calcium, glycoprotein hormone, kinetic profile, cells, somatostatin, stimulation, peptide, tumour, General Medicine, Middle Aged, medicine.disease, In vitro, medicine.anatomical_structure, Endocrinology, Somatostatin, Immunohistochemistry, Female, hormones, hormone substitutes, and hormone antagonists

Abstract

Summary: The lack of control of tumour behaviour is manifested in different ways, depending primarily on the type of tumour. This results in numerous problems of tumour diagnosis and therapy. In the case of "benign" tumours, like pituitary adenomas, in vitro studies are often used for evaluation of the tumour. The use of tissue explant cultures of human pituitary adenomas and the comparison of the feature of cultured tumours with their behaviour in vivo showed that corticotropin is released not only from the tumours associated with Gushing^ disease, but also from clinically non-functioning tumours. Hence, it was supposed that the release of corticotropin in vivo from non-secreting tumours is probably under the influence of certain neuroendocrine and/or systemic humoral factors. To test this possibility, samples of 22 tumours were cultured in plain culture medium or in the presence of the "human plasma ultrafiltrate bioactive fraction" (tentatively termed as TBP) prepared by anion-exchang e chromatography. In the presence of TBP the release of corticotropin was strongly inhibited in adenomas showing relatively high spontaneous secreting activity in vitro (> 200 ng/1 in 24 hours), while immunohistochemistry of these tumours indicated accumulation of corticotropin inside the cells. In contrast, TBP stimulated corticotropin release from tumours that showed relatively low basic corticotropin release (< 200 ng/1 in 24 hours), with no obvious change in cellular corticotropin immunoreactivity. Such a dual activity of TBP was not observed for 8 samples of adenomas cultured in the presence of surrounding pituitary tissue, probably because TBP did not affect corticotropin secretion by the normal pituitary cells (as indicated by immunohistochemistry). From these results, it appears that TBP could be one of the humoral factors involved in the regulation of corticotropin release from pituitary adenoma tissue. Its possible involvement in the regulation of corticotropin release from normal pituitary tissue, however, is uncertain.

Published

1996

34. Insect retinal pigments

Subjects

FLY VISUAL PIGMENT, COMPOUND EYE, LIGHT ADAPTATION, DRONE APIS-MELLIFERA, DROSOPHILA-MELANOGASTER, EXTRACELLULAR CALCIUM, OXIDATIVE-METABOLISM, CALLIPHORA-ERYTHROCEPHALA, BLOWFLY PHOTORECEPTORS, SENSITIZING PIGMENT

Published

1995

35. Caractérisation spatiale des syncytia formés par le couplage des astrocytes du noyau sensoriel principal du nerf trijumeau en fonction de la concentration de calcium extracellulaire

Author

Lavoie, Raphaël and Kolta, Arlette

Subjects

Générateur de patron central, Mastication, Calcium extracellulaire, Extracellular calcium, Central pattern generator, Astrocyte, Syncytium, Noyau sensoriel principal du trijumeau, Trigeminal main sensory nucleus

Abstract

Le mouvement masticatoire est généré et coordonné par un générateur de patron central (GPC) situé au niveau du pont. Plusieurs résultats antérieurs de notre laboratoire soutiennent que le réseau de neurones à l’origine de la rythmogénèse est situé dans le noyau sensoriel principal du nerf trijumeau (NVsnpr). Ces mêmes expériences révèlent que des diminutions de la concentration calcique extracellulaire ([Ca2+]e) tiennent une place importante dans la génération des bouffées de décharges des neurones de cette région. Notre laboratoire tente de vérifier si la contribution des astrocytes à l’homéostasie de la concentration calcique extracellulaire est impliquée dans la genèse du rythme. Cette étude a pour but la caractérisation spatiale du syncytium astrocytaire au sein du NVsnpr dorsal et l’étude de l’effet de la [Ca2+]e sur les propriétés astrocytaires électrophysiologiques et de connectivité. Nous avons utilisés pour ce faire la technique d’enregistrement par patch-clamp sur une préparation en tranche de tronc cérébral de rat. Nous démontrons ici que la diminution de la [Ca2+]e n’affecte pas les propriétés électrophysiologiques astrocytaires, mais induit une augmentation de la taille du syncytium. De plus, nous établissons l’existence au sein du NVsnpr dorsal d’une organisation anatomofonctionnelle du réseau astrocytaire calquée sur l’organisation neuronale., The masticatory movement is generated and coordinated by a central pattern generator (CPG) located in the pons. Previous results from our laboratory suggest that the neural network responsible for its rythmogenesis is located in the trigeminal main sensory nucleus (NVsnpr). Moreover, results indicate that in this region, decrease in extracellular calcium concentration ([Ca2+]e) plays an important role in genarating burst. One of our laboratory's goal is to assess if the contribution of astrocytes to the extracellular calcium concentration homeostasis is involved in the genesis of the mastication rhythm. With this study, we characterized the astrocyte syncytium within the NVsnpr and measured the effect of [Ca2+]e on the astrocytes electrophysiology and their networks. A patch-clamp recording technique in conjunction with a rat brain stem slice preparation was used. We demonstrate that a decrease in [Ca2+]e does not affect the electrophysiological properties of astrocytes but induces an increase in the size of the syncytium. We also report the existence, within the dorsal NVsnpr, of an anatomofunctional organization between neurons and astrocytes.

Published

2012

36. In vivo assessment of the host reactions to the biodegradation of the two novel magnesium alloys ZEK100 and AX30 in an animal model

Author

Dina Dziuba, Dirk Bormann, Janin Reifenrath, Jan-Marten Seitz, Brigitte von Rechenberg, Andrea Meyer-Lindenberg, Tim Andreas Huehnerschulte, Henning Windhagen, University of Zurich, and Reifenrath, Janin

Subjects

X-ray microtomography, rabbit model, Degradation, Bone Marrow, Materials Testing, Magnesium, Tolonium Chloride, Minerals, Radiological and Ultrasound Technology, 630 Agriculture, orthopedic implants, bone-resorption, General Medicine, Prostheses and Implants, Resorption, medicine.anatomical_structure, lcsh:R855-855.5, Models, Animal, emerging insights, Biocompatibility, Rabbits, extracellular calcium, Histology, lcsh:Medical technology, mechanical-properties, Biomedical Engineering, chemistry.chemical_element, mu?-computed tomography, resorbable implants, 2204 Biomedical Engineering, Bone resorption, Biomaterials, In vivo, medicine, Alloys, Animals, 2741 Radiology, Nuclear Medicine and Imaging, Radiology, Nuclear Medicine and imaging, ddc:610, vitro corrosion, 3614 Radiological and Ultrasound Technology, Staining and Labeling, Research, 2502 Biomaterials, μ-computed tomography, X-Ray Microtomography, corrosion behavior, Apposition, chemistry, 570 Life sciences, biology, Bone marrow, 10090 Equine Department, Dewey Decimal Classification::600 | Technik::610 | Medizin, Gesundheit, months implantation duration, Biomedical engineering

Abstract

Background Most studies on biodegradable magnesium implants published recently use magnesium-calcium-alloys or magnesium-aluminum-rare earth-alloys. However, since rare earths are a mixture of elements and their toxicity is unclear, a reduced content of rare earths is favorable. The present study assesses the in vivo biocompatibility of two new magnesium alloys which have a reduced content (ZEK100) or contain no rare earths at all (AX30). Methods 24 rabbits were randomized into 4 groups (AX30 or ZEK100, 3 or 6 months, respectively) and cylindrical pins were inserted in their tibiae. To assess the biodegradation μCT scans and histological examinations were performed. Results The μCT scans showed that until month three ZEK100 degrades faster than AX30, but this difference is leveled out after 6 months. Histology revealed that both materials induce adverse host reactions and high numbers of osteoclasts in the recipient bone. The mineral apposition rates of both materials groups were high. Conclusions Both alloys display favorable degradation characteristics, but they induce adverse host reactions, namely an osteoclast-driven resorption of bone and a subsequent periosteal formation of new bone. Therefore, the biocompatibility of ZEK100 and AX30 is questionable and further studies, which should focus on the interactions on cellular level, are needed.

Published

2012

37. Extracellular calcium and CaSR drive osteoinduction in mesenchymal stromal cells

Author

Universitat Politècnica de Catalunya. Departament de Ciència dels Materials i Enginyeria Metal·lúrgica, Institut de Bioenginyeria de Catalunya, Universitat Politècnica de Catalunya. BBT - Biomaterials, Biomecànica i Enginyeria de Teixits, Gonzalez Vazquez, Arlyng, Planell Estany, Josep Anton, Engel López, Elisabeth, Universitat Politècnica de Catalunya. Departament de Ciència dels Materials i Enginyeria Metal·lúrgica, Institut de Bioenginyeria de Catalunya, Universitat Politècnica de Catalunya. BBT - Biomaterials, Biomecànica i Enginyeria de Teixits, Gonzalez Vazquez, Arlyng, Planell Estany, Josep Anton, and Engel López, Elisabeth

Abstract

Bone is the main store of calcium and progenitor cells in the body. During the resorption process, the local calcium concentration reaches 8-40 mM, and the surrounding cells are exposed to these fluctuations in calcium. This stimulus is a signal that is detected through the calcium sensing receptor (CaSR), which modulates chemotactic and proliferative G protein-dependent signaling pathways. The objective of the present work is to evaluate the roles of extracellular calcium ([Ca2+](o)) and the CaSR in osteoinduction. Rat bone marrow mesenchymal stromal cells (rBMSCs) were stimulated with 10 mM of Ca2+. Several experiments were conducted to demonstrate the effect of [Ca2+](o) on chemotaxis, proliferation and differentiation on the osteoblastic lineage. It was found that [Ca2+](o) induces rBMSCs to migrate and proliferate in a concentration-dependent manner. Real-time polymerase chain reaction and immunofluorescence also revealed that 10 mM Ca2+ stimulates overexpression of osteogenic markers in rBMSCs, including alkaline phosphatase (ALP), bone sialoprotein, collagen Ia1 and osteocalcin. Functional assays determining ALP activity and mineralization tests both corroborate the increased expression of these markers in rBMSCs stimulated with Ca2+. Moreover, CaSR blockage inhibited the cellular response to stimulation with high concentrations of [Ca2+](o), revealing that the CaSR is a key modulator of these cellular responses. (C) 2014 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved., Peer Reviewed, Postprint (published version)

Published

2014

38. Angiogenesis in bone regeneration: tailored calcium release in hybrid fibrous scaffolds

Author

Universitat Politècnica de Catalunya. Departament de Ciència dels Materials i Enginyeria Metal·lúrgica, Institut de Bioenginyeria de Catalunya, Universitat Politècnica de Catalunya. BBT - Biomaterials, Biomecànica i Enginyeria de Teixits, Tan'guk Taehakkyo, Castaño Linares, Óscar, Sachot, Nadège, Xuriguera Martin, Elena, Engel López, Elisabeth, Planell Estany, Josep Anton, Park, Jaegyun, Jin, Guang-Zhen, Kim, Tae-Hyun, Kim, Joong-Hyun, Kim, Hae-Won, Universitat Politècnica de Catalunya. Departament de Ciència dels Materials i Enginyeria Metal·lúrgica, Institut de Bioenginyeria de Catalunya, Universitat Politècnica de Catalunya. BBT - Biomaterials, Biomecànica i Enginyeria de Teixits, Tan'guk Taehakkyo, Castaño Linares, Óscar, Sachot, Nadège, Xuriguera Martin, Elena, Engel López, Elisabeth, Planell Estany, Josep Anton, Park, Jaegyun, Jin, Guang-Zhen, Kim, Tae-Hyun, Kim, Joong-Hyun, and Kim, Hae-Won

Abstract

In bone regeneration, silicon-based calcium phosphate glasses (Bioglasses) have been widely used since the 1970s. However, they dissolve very slowly because of their high amount of Si (SiO2 > 45%). Recently, our group has found that calcium ions released by the degradation of glasses in which the job of silicon is done by just 5% of TiO2 are effective angiogenic promoters, because of their stimulation of a cell-membrane calcium sensing receptor (CaSR). Based on this, other focused tests on angiogenesis have found that Bioglasses also have the potential to be angiogenic promoters even with high contents of silicon (80%); however, their slow degradation is still a problem, as the levels of silicon cannot be decreased any lower than 45%. In this work, we propose a new generation of hybrid organically modified glasses, ormoglasses, that enable the levels of silicon to be reduced, therefore speeding up the degradation process. Using electrospinning as a faithful way to mimic the extracellular matrix (ECM), we successfully produced hybrid fibrous mats with three different contents of Si (40, 52, and 70%), and thus three different calcium ion release rates, using an ormoglass-polycaprolactone blend approach. These mats offered a good platform to evaluate different calcium release rates as osteogenic promoters in an in vivo subcutaneous environment. Complementary data were collected to complement Ca2+ release analysis, such as stiffness evaluation by AFM, zeta-potential, morphology evaluation by FESEM, proliferation and differentiation analysis, as well as in vivo subcutaneous implantations. Material and biological characterization suggested that compositions of organic/inorganic hybrid materials with a Si content equivalent to 40%, which were also those that released more calcium, were osteogenic. They also showed a greater ability to form blood vessels. These results suggest that Si-based ormoglasses can be considered an efficient tool for calcium release modulation, whic, Postprint (published version)

Published

2014

39. Modulators of Calcium Influx Regulate Membrane Excitability in Rat Dorsal Root Ganglion Neurons

Author

Philipp Lirk, Andreas Fuchs, Quinn H. Hogan, Marko Ljubkovic, Mark Poroli, Damir Sapunar, Chun-Yuan Huang, Marcel Rigaud, Patrick Fillip, and Other departments

Subjects

Male, Action Potentials, In Vitro Techniques, Article, Voltage-gated calcium, Spinal nerve ligation, Action-potential repolarization, Ca2+-induced ca2+ release, Primary afferent neurons, Autotomy-induced changes, Sensory neurons, Extracellular calcium, Hippocampal-neurons, Sodium-channels, Membrane Potentials, Rats, Sprague-Dawley, Dorsal root ganglion, Ganglia, Spinal, Medicine, Animals, Neurons, Afferent, Edetic Acid, Chelating Agents, business.industry, Depolarization, Afterhyperpolarization, Hyperpolarization (biology), Nerve injury, Calcium Channel Blockers, Sensory neuron, Rats, Electrophysiology, Anesthesiology and Pain Medicine, medicine.anatomical_structure, Neuropathic pain, Biophysics, Calcium, medicine.symptom, business, Neuroscience, Cadmium

Abstract

Background: Chronic neuropathic pain resulting from neuronal damage remains difficult to treat, in part, because of incomplete understanding of underlying cellular mechanisms. We have previously shown that inward Ca2+ flux (I-Ca, ) across the sensory neuron plasmalemma is decreased in a rodent model of chronic neuropathic pain, but the direct consequence of this loss of ICa on function of the sensory neuron has not been defined. We therefore examined the extent to which altered membrane properties after nerve injury, especially increased excitability that may contribute to chronic pain, are attributable to diminished Ca2+ entry. Methods: Intracellular microelectrode measurements were obtained from A-type neurons of dorsal root ganglia excised from uninjured rats. Recording conditions were varied to suppress or promote I-Ca while biophysical variables and excitability were determined. Results: Both lowered external bath Ca2+ concentration and blockade of I-Ca with bath cadmium diminished the duration and area of the after-hyperpolarization (AHP), accompanied by decreased current threshold for action potential (AP) initiation and increased repetitive firing during sustained depolarization. Reciprocally, elevated bath Ca2+ increased the AHP and suppressed repetitive firing. Voltage sag during neuronal hyperpolarization, indicative of the cation- nonselective H-current, diminished with decreased bath Ca2+ cadmium application, or chelation of intracellular Ca2+. Additional recordings with selective blockers of I-Ca subtypes showed that N-, P/Q, L-, and R-type currents each contribute to generation of the AHP and that blockade of any of these, and the T-type current, slows the AP upstroke, prolongs the AP duration, and (except for L-type current) decreases the current threshold for AP initiation. Conslusions: Taken together, our findings show that suppression of I-Ca decreases the AHP, reduces the hyperpolarization-induced voltage sag, and increases excitability in sensory neurons, replicating changes that follow peripheral nerve trauma. This Suggests that the loss of I-Ca previously demonstrated in injured sensory neurons contributes to their dysfunction and hyperexcitability, and may lead to neuropathic pain.

Published

2008

40. Ischemia and reoxygenation induced amino acid release release and tissue damage in the slices of rat corpus striatum

Author

R. L. Büyükuysal, Uludağ Üniversitesi/Tıp Fakültesi/Tıbbi Farmakoloji Anabilim Dalı., Büyükuysal, Rıfat Levent, and AAH-1657-2021

Subjects

Male, Rats, wistar, Cerebral-cortex, Taurine, Dopamine, Catecholamines, 4-Hydroxyphenethylene Glycol, Clinical Biochemistry, Hippocampal slices, Biochemistry, Animal tissue, Corpus striatum, chemistry.chemical_compound, Anoxia, Ischemia, 4 aminobutyric acid, Anoxic depolarization, Extracellular space, Hypoxia, Priority journal, chemistry.chemical_classification, L-lactate dehydrogenase, Gamma-aminobutyric acid, Glutamate receptor, Brain, Lactate dehydrogenase, Brain tissue, Amino acid, Reperfusion injury, Cerebrocortical slices, Amino acids, Female, Glutamic acid, Induced glutamate efflux, medicine.drug, medicine.medical_specialty, LDH, Nitric-oxide synthase, In-vitro ischemia, Amino acid transport, chemistry.chemical_element, Tetrodotoxin, Oxygen-glucose deprivation, Calcium, Article, gamma-Aminobutyric acid, Brain ischemia, Neuronal injury, Reoxygenation, Internal medicine, medicine, Extracellular, Animals, Animal model, Ions, Time factors, Organic Chemistry, Nonhuman, Tissue injury, medicine.disease, Rats, Oxygen, Endocrinology, chemistry, Brain-slices, Aspartic acid, Biochemistry and molecular biology, Citrulline, Rat, Extracellular calcium, Glutamate release, Controlled study, Pyrrolidine derivative

Abstract

Ischemic incubation significantly increased amino acid release from rat striatal slices. Reoxygenation (REO) of the ischemic slices, however, enhanced only taurine and citrulline levels in the medium. Ischemia-induced increases in glutamate, taurine and GABA outputs were accompanied with a similar amount of decline in their tissue levels. Tissue final aspartic acid level, however, was doubled by ischemia. Lactate dehydrogenase (LDH) leakage was not altered by ischemia, but enhanced during REO. Presence of tetrodotoxine (TTX) during ischemic period caused significant decline in ischemia-induced glutamate output, but not altered REO-induced LDH leakage. Although omission of extracellular calcium ions from the medium during ischemic period protected the slices against REO-induced LDH leakage, this treatment failed to alter ischemia-induced glutamate and GABA outputs. The release of other amino acids, however, declined 50% in calcium-free medium. Blockade of the glutamate uptake transporter by L-trans-PDC, on the other hand, doubled ischemia induced glutamate and aspartic acid outputs. These results indicate that more than one mechanisms probably support the ischemia-evoked accumulation of glutamate and other amino acids in the extracellular space. Although LDH leakage enhanced during REO, processes involved in this increment were found to be dependent on extracellular calcium ions during ischemia but not REO period.

Published

2004

41. α10: A determinant of nicotinic cholinergic receptor function in mammalian vestibular and cochlear mechanosensory hair cells

Author

Elgoyhen, A.B., Vetter, D.E., Katz, E., Rothlin, C.V., Heinemann, S.F., and Boulter, J.

Subjects

molecular cloning, muscarine, cochlea, Gene Expression, animal cell, Receptors, Nicotinic, cholinergic receptor, cholinergic receptor stimulating agent, Xenopus laevis, Hair Cells, Vestibular, Mice, Strychnos toxifera, dose response, cholinergic receptor blocking agent, rat, animal, genetics, Cloning, Molecular, tubocurarine chloride, cholinergic receptor blocking, drug receptor binding, article, nicotinic receptor blocking agent, carbachol, female, Hair Cells, priority journal, Mammalia, nicotinic agent, strychnine, alpha bungarotoxin, bicuculline, extracellular calcium, receptor down regulation, Vestibule, atropine, Molecular Sequence Data, hair cell, oxotremorine, Animalia, Animals, Humans, human, Amino Acid Sequence, tropisetron, oocyte, multigene family, mouse, Vertebrata, nonhuman, Base Sequence, nucleotide sequence, acetylcholine, Rats, 1,1 dimethyl 4 phenylpiperazinium, molecular genetics, physiology, cytology, receptor subunit, nicotinic receptor, metabolism, nicotine

Abstract

We report the cloning and characterization of rat α10, a previously unidentified member of the nicotinic acetylcholine receptor (nAChR) subunit gene family. The protein encoded by the α10 nAChR subunit gene is most similar to the rat α9 nAChR, and both α9 and α10 subunit genes are transcribed in adult rat mechanosensory hair cells. Injection of Xenopus laevis oocytes with α10 cRNA alone or in pairwise combinations with either α2-α6 or β2-β4 subunit cRNAs yielded no detectable ACh-gated currents. However, coinjection of α9 and α10 cRNAs resulted in the appearance of an unusual nAChR subtype. Compared with homomeric α9 channels, the α9α10 nAChR subtype displays faster and more extensive agonist-mediated desensitization, a distinct current-voltage relationship, and a biphasic response to changes in extracellular Ca2+ ions. The pharmacological profiles of homomeric α9 and heteromeric α9α10 nAChRs are essentially indistinguishable and closely resemble those reported for endogenous cholinergic eceptors found in vertebrate hair cells. Our data suggest that efferent modulation of hair cell function occurs, at least in part, through heteromeric nAChRs assembled from both α9 and α10 subunits. Fil:Katz, E. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina.

Published

2001

42. The effect of hydrostatic pressure on parthenogenetic activation of mouse oocytes in presence of different concentration of extracellular calcium and calcium ionophore and cytochalasin B.

Author

Bashiri, Z., Azadbakht, M., Zeinali, H., and Goodarzdashti, A.

Subjects

*PHYSIOLOGICAL effects of hydrostatic pressure, *OOGENESIS, *EXTRACELLULAR space, *CYTOCHALASINS, *EMBRYOLOGY, *LABORATORY mice

Abstract

Background: The artificial activation of eggs induces the completion of oocyte meiosis and is linked to many important problems including that of nuclear transfer. Hydrostatic pressure can act as a mechanical stimulator that rearranges egg contents. Calcium ionophore A23187 is known to elevate intracellular calcium levels in the cytoplasm of oocytes through the influx of calcium from extracellular spaces. In this study, we investigated the effect of hydrostatic pressure on parthenogenetic activation of mouse oocytes in presence of different concentration of calcium and calcium ionophore and cytochalasin B. Materials and Methods: 6 to 8-week-old female NMRI mouse were superovulated by an injection of 10 IU of PMSG, followed by 10 IU HCG 48 hours later. Metaphase Π oocytes were collected from oviduct 14 hr after HCG injection. Oocytes transferred to T6 medium supplemented with different concentration of calcium 0, 1.7, 3.4 mM (treatments I, Π, III) and 5μM of CI for 5 min. They were divided to experiment and control groups. In experiment group, oocytes subjected to 20 mmHg pressure for 20 min. Oocytes without exposure to pressure were considered as control. Oocytes from two groups were transferred to T6 medium supplemented with different concentration of calcium and 5μg/ml CB for 4 hours. Oocytes were cultured for 72 hours and embryo development was assessed. Results: In experiment and control groups treatments, Π, the percentage of cleavage was 20/42%, 82/78%, 51/6%, 11/36%, 44.27%, 61.35%, respectively. Cleavage rate in experiment group was higher than control group (p<0/05). The highest cleavage rate associated with treatment Π which were significantly different with treatments, and control (p<0/05). Conclusion: Exposure of oocytes to HP, followed by exposure to CI could improve embryonic development and by effecting on calcium channels, leading to increase rate of cleavage in the mouse oocyte, probably. [ABSTRACT FROM AUTHOR]

Published

2013

43. Intracellular components involved in parathyroid sensing of extracellular calcium

Author

Onyango, Isaac G. and Onyango, Isaac G.

Abstract

Parathyroid glands are the primary regulator of extracellular calcium ([Ca2+]e). Ca2+ plays a key role in many fundamental biological processes and is also an essential structural component of the skeleton. The parathyroid chief cells detect small changes in [Ca2+]e and respond by altering the secretion of parathyroid hormone (PTH). This thesis details studies towards the identification of intracellular components involved in the parathyroid sensing mechanism of [Ca2+]e. Src family members c-Src, c-Yes, Fyn, Lyn, Lck and PKC isozymes (α, βI, βII, ε, ζ and ι) were found to be expressed in bovine parathyroid cells. Increase in [Ca2+]e to 3.0 mM caused activation of c-Src and c-Yes that was maximal at 5 min of incubation of the parathyroid cells. This activation was still evident after 30 min. Parathyroid caveolin along with 62, 38, 36, and 32 kDa proteins were found to be phosphorylated in high [Ca2+]e. Inhibition of Src kinases blocked tyrosine phosphorylation of caveolin and the 38 kDa protein and uncoupled the inhibition of PTH secretion seen at high [Ca2+]e. ERK was found to be strongly activated at 3 mM and also, but more weakly at 0.5 mM compared to at 1.25 mM [Ca2+]e. Inhibition of ERK blocked PTH secretion at low [Ca2+]e. Increase of [Ca2+]e to 3.0 mM also elicited translocation of PKCβI, -ε, -ζ and -ι to the cell periphery. In contrast, at 0.5 mM [Ca2+]e PKCα was translocated to the cell periphery and PI 3-kinase was found to be activated. Inhibition of PI 3-kinase activity blocked the dissociation of the cortical actin ring of parathymid cells evident at low [Ca2+]e and inhibited the subcellular translocation of PKCε, -ζ, and -ι in cells exposed to high [Ca2+]e. Moreover, the secretion of PTH induced at low [Ca2+]e was blocked by inhibition of PI 3-kinase. These results suggestthat c-Src, c-Yes, ERK, PI 3-kinase and several PKC isozymes are involved in the mechanism that couples the [Ca2+]e stimulus to secretion in the parathyroid cell.

Published

1999

44. Extracellular Ca2+ regulates the respiratory burst of human neutrophils

Author

Zhong-Ming Qian, Xun Shen, Ling Bei, and Tian-Hui Hu

Subjects

Agonist, Respiratory burst, medicine.medical_specialty, Thapsigargin, medicine.drug_class, Neutrophils, chemistry.chemical_element, Calcium channel blocker, Calcium, chemistry.chemical_compound, Cytosol, Internal medicine, medicine, Extracellular, Humans, Enzyme Inhibitors, Protein kinase A, Molecular Biology, Protein kinase C, Calcium ion influx, Neutrophil signal transduction, Cell Biology, Saponins, Cell biology, N-Formylmethionine Leucyl-Phenylalanine, Endocrinology, chemistry, Tetradecanoylphorbol Acetate, Extracellular calcium, Drugs, Chinese Herbal

Abstract

The role of extracellular calcium in the activation of respiratory burst in human neutrophils was studied by using the receptor agonist, N-formyl-methionyl-leucyl-phenylalanine (fMLP), and the activator of protein kinase C phorbol myristate acetate (PMA). The level of intracellular free calcium was measured by using both cell suspensions and single cells in the presence and absence of extracellular calcium. The Ca2+-ATPase inhibitor, thapsigargin, was used to activate higher Ca2+ influx, while a novel calcium channel blocker, panax notoginseng saponins (PNGS) was used to block the Ca2+ entry from extracellular space during the responding period of cells. It was found that about two-thirds of the activation of respiratory burst initiated by the receptor agonist were attributed to the Ca2+ influx under normal physiological conditions. The higher Ca2+ influx resulted in tremendous enhancement of the intensity of respiratory burst initiated by fMLP and marked acceleration of the onset of the respiratory burst stimulated by PMA. It is evident that both intra- and extracellular Ca2+ are required for full activation of the respiratory burst of human neutrophils, and the Ca2+ influx from extracellular space plays an important role either in generation of reactive oxygen metabolites or in activation of protein kinase C.

45. Behavior of tricellulin during destruction and formation of tight junctions under various extracellular calcium conditions

Author

Norimasa Sawada, Akira Takasawa, Takafumi Ninomiya, Mitsuhiro Tsujiwaki, Satoshi Tanaka, Masaki Murata, and Takashi Kojima

Subjects

Barrier, Histology, Immunoprecipitation, chemistry.chemical_element, Biology, Calcium, Occludin, Tight Junctions, Pathology and Forensic Medicine, Fence, chemistry.chemical_compound, Cell Line, Tumor, Electric Impedance, Extracellular, Animals, Humans, Phosphorylation, Human pancreatic cancer cell line, RNA, Small Interfering, Egtazic Acid, Tight junction, Tricellulin, Regular Article, Epithelial Cells, Cell Biology, Rats, Cell biology, Protein Transport, EGTA, MARVEL Domain Containing 2 Protein, chemistry, Cytoplasm, Gene Knockdown Techniques, Extracellular calcium, Extracellular Space

Abstract

Tricellulin is an important component of tricellular tight junctions (TJs) and is involved in the formation of tricellular contacts. However, little is known about its regulation during the assembly and disassembly of tricellular TJs. By using the well-differentiated pancreatic cancer cell line HPAC, which highly expresses tricellulin at tricellular contacts, we have investigated changes in the localization, expression and phosphorylation of tricellulin and in its TJ functions as a barrier and fence during the destruction and formation of TJs induced by changes in the extracellular calcium concentration. During both extracellular Ca2+ depletion caused by EGTA treatment and Ca2+ repletion after Ca2+ starvation, the expression of tricellulin increased in whole lysates and in Triton-X-100-insoluble fractions without any change in its mRNA. The increases in immunoreactivity revealed by Western blotting were prevented by alkaline phosphatase treatment. Immunoprecipitation assays showed that tricellulin was phosphorylated on threonine residues when it increased after Ca2+ depletion and repletion. In the early stage after Ca2+ repletion, tricellulin was expressed not only at tricellular contacts but also in the cytoplasm and at bicellular borders. In confocal laser microscopy, tricellulin was observed at the apical-most regions and basolateral membranes of tricellular contacts after Ca2+ repletion. Knockdown of tricellulin delayed the recovery of the barrier and fence functions after Ca2+ repletion. Thus, the dynamic behavior of tricellulin during the destruction and formation of TJs under various extracellular calcium conditions seems to be closely associated with the barrier and fence functions of TJs. Electronic supplementary material The online version of this article (doi:10.1007/s00441-012-1512-7) contains supplementary material, which is available to authorized users.

46. Hypertrophied myocardium is more dependent on extracellular calcium than the normal cardiac muscle

Author

Barros, R., Zornoff, L. A. M., Ribeiro, H. B., Okoshi, M. P., Carlos Roberto Padovani, Aragon, F. F., Cicogna, A. C., Universidade Estadual Paulista (UNESP), and Universidade Estadual Paulista (Unesp)

Subjects

chloride, beta adrenergic stimulation, animal experiment, Wistar rat, animal tissue, heart function, male, heart contraction, heart performance, Papillary muscle, calcium ion, controlled study, rat, Myocardium function, Renovascular hypertension, heart muscle fiber membrane steady potential, Calcium isoproterenol, calcium cell level, isoprenaline, heart ventricle hypertrophy, nonhuman, concentration (parameters), muscle isometric contraction, animal model, heart papillary muscle, inotropism, extracellular calcium, heart muscle relaxation

Abstract

Submitted by Vitor Silverio Rodrigues (vitorsrodrigues@reitoria.unesp.br) on 2014-05-27T11:24:46Z No. of bitstreams: 0 Made available in DSpace on 2014-05-27T11:24:46Z (GMT). No. of bitstreams: 0 Previous issue date: 2010-08-13 Background: The aim of this study was to analyze stable hypertrophied myocardial function and its response to inotropic maneuvers in rats submitted to renovascular hypertension for a 10-week period (RHT group, n=10). Material/Methods: Myocardial performance was studied in isolated left ventricle papillary muscles in isometric contraction under the following conditions: at postrest contraction of 30 seconds (PRC), at extracellular calcium (ECa 2+) chloride concentration of 1.25 and 5.20 mM, and after beta-adrenergic stimulation with 10 -6 M isoproterenol (ISOP). Results: The results were compared with normotensive Wistar controls rats (C group, n=10). In basal condition, resting tension, and contraction time (TPT) were greater, while relaxation time (RT 50) tended to be longer in RHT than C group. PRC and ISOP promoted a similar change in muscle function response intensity (Δ) in both groups. ECa 2+ shift did not change TPT in the C group and decreased TPT in the RHT animals; Δ was different between these groups. RT 50 increased in C and decreased in RHT, both without statistical significance; however, Δ was different. Conclusions: These results suggest that hypertrophied myocardial dysfunction may be attibuted to changes in intracellular calcium cycling. © Med Sci Monit, 2010. Botucatu Medical School UNESP - São Paulo State University, Botucatu Botucatu Medical School UNESP - São Paulo State University, Botucatu

47. The Resource Consumption Principle: Attention and Memory in Volumes of Neural Tissue

Author

Montague, P. Read

Published

1996

48. From in vivo Plasma Composition to in vitro Cardiac Electrophysiology and in Silico Virtual Heart: The Extracellular Calcium Enigma

Author

Severi, Stefano, Corsi, Cristiana, and Cerbai, Elisabetta

Published

2009

49. Serotonin Stimulates Phospholipase A 2 and the Release of Arachidonic Acid in Hippocampal Neurons by a Type 2 Serotonin Receptor that is Independent of Inositolphospholipid Hydrolysis

Author

Felder, Christian C., Kanterman, Robert Y., Ma, Alice L., and Axelrod, Julius

Published

1990

50. Relationship between Parathyroid Hormone Secretion and Cytosolic Calcium Concentration in Dispersed Bovine Parathyroid Cells

Author

Shoback, Dolores M., Thatcher, Joseph, Leombruno, Ronald, and Brown, Edward M.

Published

1984