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1. Yb3+ speciation and energy-transfer dynamics in quantum-cutting Yb3+-doped CsPbCl3 perovskite nanocrystals and single crystals

Author

Roh, Joo Yeon D., Smith, Matthew D., Crane, Matthew J., Biner, Daniel, Milstein, Tyler J., Krämer, Karl W., and Gamelin, Daniel R.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Yb3+-doped inorganic metal-halide perovskites (Yb3+:CsPbX3, X = Cl, Br) have recently been discovered to display highly efficient quantum cutting, in which the energy from individual blue or UV photons absorbed by the material is re-emitted in the form of pairs of near-infrared photons by Yb3+ dopants. Experimental photoluminescence quantum yields approaching 200{%} have been reported. As the first quantum-cutting materials that combine such high photoluminescence quantum yields with strong, broadband absorption in the visible, these materials offer unique opportunities for enhancing the efficiencies of solar technologies. Little is known about the fundamental origins of this quantum cutting, however. Here, we describe variable-temperature and time-resolved photoluminescence studies of Yb3+:CsPbCl3 in two disparate forms - colloidal nanocrystals and macroscopic single crystals. Both forms show very similar spectroscopic properties, demonstrating that quantum cutting is an intrinsic property of the Yb3+:CsPbX3 composition itself. Diverse Yb3+ speciation is observed in both forms by low-temperature photoluminescence spectroscopy, but remarkably, quantum cutting is dominated by the same specific Yb3+ species in both cases. Time-resolved photoluminescence measurements provide direct evidence of the previously hypothesized intermediate state in the quantum-cutting mechanism. This intermediate state mediates relaxation from the photogenerated excited state of the perovskite to the emissive excited state of Yb3+, and hence is of critical mechanistic importance. At room temperature, this intermediate state is populated within a few picoseconds and has a decay time of only ~ 7 ns in both nanocrystalline and single-crystal Yb3+:CsPbCl3. The mechanistic implications of these observations are discussed., Comment: Physical Review Materials, accepted for publication

Published
2020

2. Coupling between distant biofilms and emergence of nutrient time-sharing

Author

Liu, Jintao, Martinez-Corral, Rosa, Prindle, Arthur, Lee, Dong-Yeon D, Larkin, Joseph, Gabalda-Sagarra, Marçal, Garcia-Ojalvo, Jordi, and Süel, Gürol M

Subjects
Biological Sciences, Ecology, Infectious Diseases, Bacillus subtilis, Biofilms, Electrophysiological Phenomena, Microbial Interactions, Models, Biological, Signal Transduction, General Science & Technology
Abstract

Bacteria within communities can interact to organize their behavior. It has been unclear whether such interactions can extend beyond a single community to coordinate the behavior of distant populations. We discovered that two Bacillus subtilis biofilm communities undergoing metabolic oscillations can become coupled through electrical signaling and synchronize their growth dynamics. Coupling increases competition by also synchronizing demand for limited nutrients. As predicted by mathematical modeling, we confirm that biofilms resolve this conflict by switching from in-phase to antiphase oscillations. This results in time-sharing behavior, where each community takes turns consuming nutrients. Time-sharing enables biofilms to counterintuitively increase growth under reduced nutrient supply. Distant biofilms can thus coordinate their behavior to resolve nutrient competition through time-sharing, a strategy used in engineered systems to allocate limited resources.

Published
2017

6. Metabolic co-dependence gives rise to collective oscillations within biofilms

Author

Liu, Jintao, Prindle, Arthur, Humphries, Jacqueline, Gabalda-Sagarra, Marqal, Asally, Munehiro, Lee, Dong-yeon D., Ly, San, Garcia-Ojalvo, Jordi, and Suel, Gurol M.

Subjects
Metabolism -- Analysis, Microbial mats -- Analysis, Bacillus subtilis -- Genetic aspects -- Physiological aspects, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Cells that reside within a community can cooperate and also compete with each other for resources. It remains unclear how these opposing interactions are resolved at the population level. Here we investigate such an internal conflict within a microbial (Bacillus subtilis) biofilm community: cells in the biofilm periphery not only protect interior cells from external attack but also starve them through nutrient consumption. We discover that this conflict between protection and starvation is resolved through emergence of long-range metabolic co-dependence between peripheral and interior cells. As a result, biofilm growth halts periodically, increasing nutrient availability for the sheltered interior cells. We show that this collective oscillation in biofilm growth benefits the community in the event of a chemical attack. These findings indicate that oscillations support population-level conflict resolution by coordinating competing metabolic demands in space and time, suggesting new strategies to control biofilm growth., Cooperation and competition are complex social interactions that can have critical roles in biological communities. Cooperative behaviour often increases the overall fitness of the population through processes such as division [...]

Published
2015
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8. Yb3+ speciation and energy-transfer dynamics in quantum-cutting Yb3+ -doped CsPbCl3 perovskite nanocrystals and single crystals

Author

Joo Yeon D. Roh, Daniel Biner, Daniel R. Gamelin, Matthew J. Crane, Karl Krämer, Tyler J. Milstein, and Matthew D. Smith

Subjects
Photoluminescence, Materials science, Physics and Astronomy (miscellaneous), Doping, Relaxation (NMR), 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Excited state, 0103 physical sciences, Intermediate state, General Materials Science, Atomic physics, 010306 general physics, 0210 nano-technology, Spectroscopy, Energy (signal processing), Perovskite (structure)
Abstract

${\mathrm{Yb}}^{3+}$-doped inorganic metal-halide perovskites $(\mathrm{Y}{\mathrm{b}}^{3+}:\mathrm{CsPb}{X}_{3}$, $X=\mathrm{Cl},\mathrm{Br})$ have recently been discovered to display highly efficient quantum cutting, in which the energy from individual blue or UV photons absorbed by the material is reemitted in the form of pairs of near-infrared photons by ${\mathrm{Yb}}^{3+}$ dopants. Experimental photoluminescence quantum yields approaching 200% have been reported. As the first quantum-cutting materials that combine such high-photoluminescence quantum yields with strong, broadband absorption in the visible, these materials offer unique opportunities for enhancing the efficiencies of solar technologies. Little is known about the fundamental origins of this quantum cutting, however. Here, we describe variable-temperature and time-resolved photoluminescence studies of ${\mathrm{Yb}}^{3+}:\mathrm{CsPb}{\mathrm{Cl}}_{3}$ in two disparate forms--colloidal nanocrystals and macroscopic single crystals. Both forms show very similar spectroscopic properties, demonstrating that quantum cutting is an intrinsic property of the ${\mathrm{Yb}}^{3+}:\mathrm{CsPb}{X}_{3}$ composition itself. Diverse ${\mathrm{Yb}}^{3+}$ speciation is observed in both forms by low-temperature photoluminescence spectroscopy, but remarkably, quantum cutting is dominated by the same specific ${\mathrm{Yb}}^{3+}$ species in both cases. Time-resolved photoluminescence measurements provide direct evidence of the previously hypothesized intermediate state in the quantum-cutting mechanism. This intermediate state mediates relaxation from the photogenerated excited state of the perovskite to the emissive excited state of ${\mathrm{Yb}}^{3+}$, and hence is of critical mechanistic importance. At room temperature, this intermediate state is populated within a few picoseconds and has a decay time of only \ensuremath{\sim}7 ns in both nanocrystalline and single-crystal ${\mathrm{Yb}}^{3+}:\mathrm{CsPb}{\mathrm{Cl}}_{3}$. The mechanistic implications of these observations are discussed. These results provide valuable information about characteristics of this unique quantum cutter that will aid its optimization and application in solar technologies.

Published
2020

9. Hydrothermal Synthesis and Solid-State Laser Refrigeration of Ytterbium-Doped Potassium Lutetium Fluoride (KLF) Microcrystals

Author

Joo Yeon D. Roh, Peter J. Pauzauskie, Daniel R. Gamelin, Xiaojing Xia, Anupum Pant, E. A. Dobretsova, Matthew B. Lim, Alex Bard, and Xuezhe Zhou

Subjects
Ytterbium, Lanthanide, chemistry.chemical_compound, Materials science, chemistry, Solid-state laser, Laser cooling, Analytical chemistry, chemistry.chemical_element, Hydrothermal synthesis, Orthorhombic crystal system, Fluoride, Lutetium
Abstract

Fluoride crystals, due to their low phonon energies, are attractive hosts of trivalent lanthanide ions for applications in upconverting phosphors, quantum information science, and solid-state laser refrigeration. In this article, we report the rapid, low-cost hydrothermal synthesis of potassium lutetium fluoride (KLF) microcrystals for applications in solid-state laser refrigeration. Four crystalline phases were synthesized, namely orthorhombic K2LuF5 (Pnma), trigonal KLuF4 (P3121), orthorhombic KLu2F7 (Pna21), and cubic KLu3F10 (Fm3m), with each phase exhibiting unique microcrystalline morphologies. Luminescence spectra and emission lifetimes of the four crystalline phases were characterized based on the point-group symmetry of trivalent cations. Laser refrigeration was measured by observing both the optomechanical eigenfrequencies of microcrystals on cantilevers in vacuum, and also the Brownian dynamics of optically trapped microcrystals in water. Among all four crystalline phases, the most significant cooling was observed for 10%Yb:KLuF4 with cooling of 8.6 $\pm$ 2.1 K below room temperature. Reduced heating was observed with 10%Yb:K2LuF5

Published
2020

10. A segmentation clock patterns cellular differentiation in a bacterial biofilm

Author

Kwang-Tao Chou, Dong-yeon D. Lee, Jian-geng Chiou, Leticia Galera-Laporta, San Ly, Jordi Garcia-Ojalvo, and Gürol M. Süel

Subjects
Spores, Bacterial, Clock and wavefront, Time Factors, Nitrogen, Biofilm, Biophysics, Gene Expression, Gene Expression Regulation, Developmental, Models, Biological, Article, General Biochemistry, Genetics and Molecular Biology, Kinetics, Somitogenesis, Somites, Stress, Physiological, Sporulation, Biofilms, Multicellularity, Pattern formation, Nitrogen stress response, Segmentation clock, Body Patterning, Signal Transduction, Bacillus subtilis
Abstract

Contrary to multicellular organisms that display segmentation during development, communities of unicellular organisms are believed to be devoid of such sophisticated patterning. Unexpectedly, we find that the gene expression underlying the nitrogen stress response of a developing Bacillus subtilis biofilm becomes organized into a ring-like pattern. Mathematical modeling and genetic probing of the underlying circuit indicate that this patterning is generated by a clock and wavefront mechanism, similar to that driving vertebrate somitogenesis. We experimentally validated this hypothesis by showing that predicted nutrient conditions can even lead to multiple concentric rings, resembling segments. We additionally confirmed that this patterning mechanism is driven by cell-autonomous oscillations. Importantly, we show that the clock and wavefront process also spatially patterns sporulation within the biofilm. Together, these findings reveal a biofilm segmentation clock that organizes cellular differentiation in space and time, thereby challenging the paradigm that such patterning mechanisms are exclusive to plant and animal development. We acknowledge Munehiro Asally, Tolga Çağatay, and Katherine Süel for helpful discussions. K.-T.C. acknowledges support from National Institutes of Health grant T32GM127235. J.G.-O. acknowledges support from the Spanish Ministry of Science, Innovation and Universities and FEDER (Project PGC2018-101251-B-I00 and CEX2018-000792-M), and from the Generalitat de Catalunya (ICREA Academia program). G.M.S. acknowledges support for this research from National Institute of General Medical Sciences grants R01 GM121888 and R35 GM139645. G.M.S. is a Howard Hughes Medical Institute - Simons Foundation Faculty Scholar.

Published
2022

11. Invariant natural killer T cells in lung diseases

Author

Dongjin Jeong, Yeon Duk Woo, and Doo Hyun Chung

Subjects
Medicine, Biochemistry, QD415-436
Abstract

Abstract Invariant natural killer T (iNKT) cells are a subset of T cells that are characterized by a restricted T-cell receptor (TCR) repertoire and a unique ability to recognize glycolipid antigens. These cells are found in all tissues, and evidence to date suggests that they play many immunological roles in both homeostasis and inflammatory conditions. The latter include lung inflammatory diseases such as asthma and infections: the roles of lung-resident iNKT cells in these diseases have been extensively researched. Here, we provide insights into the biology of iNKT cells in health and disease, with a particular focus on the role of pulmonary iNKT cells in airway inflammation and other lung diseases.

Published
2023
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12. Magnesium Flux Modulates Ribosomes to Increase Bacterial Survival

Author

Leticia Galera-Laporta, Jordi Garcia-Ojalvo, Steven P. Briggs, Maja Bialecka-Fornal, Dong yeon D. Lee, Gürol M. Süel, Eun Chae Moon, and Zhouxin Shen

Subjects
Proteomics, Ribosomal Proteins, Programmed cell death, Ion transporters, chemistry.chemical_element, Ion flux, Bacillus subtilis, Ribosome, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, 0302 clinical medicine, Bacterial Proteins, Antibiotics, Single-cell dynamics, Cations, Bacterial survival, Magnesium, 030304 developmental biology, Membrane potential, 0303 health sciences, biology, Ribosomal RNA, Hyperpolarization (biology), biology.organism_classification, Bacterial Outer Membrane, chemistry, Biophysics, Ribosomes, 030217 neurology & neurosurgery, Bacteria
Abstract

Bacteria exhibit cell-to-cell variability in their resilience to stress, for example, following antibiotic exposure. Higher resilience is typically ascribed to "dormant" non-growing cellular states. Here, by measuring membrane potential dynamics of Bacillus subtilis cells, we show that actively growing bacteria can cope with ribosome-targeting antibiotics through an alternative mechanism based on ion flux modulation. Specifically, we observed two types of cellular behavior: growth-defective cells exhibited a mathematically predicted transient increase in membrane potential (hyperpolarization), followed by cell death, whereas growing cells lacked hyperpolarization events and showed elevated survival. Using structural perturbations of the ribosome and proteomic analysis, we uncovered that stress resilience arises from magnesium influx, which prevents hyperpolarization. Thus, ion flux modulation provides a distinct mechanism to cope with ribosomal stress. These results suggest new approaches to increase the effectiveness of ribosome-targeting antibiotics and reveal an intriguing connection between ribosomes and the membrane potential, two fundamental properties of cells. This work was supported by funding from The Spanish Ministry of Economy and Competitiveness and FEDER (project FIS2015-66503-C3-1-P) (to J.G.-O.), the ICREA Academia program (to J.G.-O.), and the Maria de Maeztu Program for Units of Excellence in Research and Development (Spanish Ministry of Economy and Competitiveness, MDM-2014-0370) (to J.G.-O.), the San Diego Center for Systems Biology (NIH P50 GM085764) (to G.M.S), National Institute of General Medical Sciences (R01 GM121888) (to G.M.S), and the Howard Hughes Medical Institute-Simons Foundation Faculty Scholars program (to G.M.S.).

Published
2018

14. Chromosomal Arrangement of Phosphorelay Genes Couples Sporulation and DNA Replication

Author

Jatin Narula, Anna Kuchina, Oleg A. Igoshin, Masaya Fujita, Dong yeon D. Lee, and Gürol M. Süel

Subjects
DNA Replication, Gene Dosage, Bacillus subtilis, Biology, Gene dosage, General Biochemistry, Genetics and Molecular Biology, Feedback, 03 medical and health sciences, Bacterial Proteins, Gene expression, Phosphorylation, Gene, Transcription factor, 030304 developmental biology, Genetics, Spores, Bacterial, 0303 health sciences, 030306 microbiology, Biochemistry, Genetics and Molecular Biology(all), DNA replication, Chromosome, Cell cycle, Chromosomes, Bacterial, biology.organism_classification, Transcription Factors
Abstract

SummaryGenes encoding proteins in a common regulatory network are frequently located close to one another on the chromosome to facilitate co-regulation or couple gene expression to growth rate. Contrasting with these observations, here, we demonstrate a functional role for the arrangement of Bacillus subtilis sporulation network genes on opposite sides of the chromosome. We show that the arrangement of two sporulation network genes, one located close to the origin and the other close to the terminus, leads to a transient gene dosage imbalance during chromosome replication. This imbalance is detected by the sporulation network to produce cell-cycle coordinated pulses of the sporulation master regulator Spo0A∼P. This pulsed response allows cells to decide between sporulation and continued vegetative growth during each cell cycle spent in starvation. The simplicity of this coordination mechanism suggests that it may be widely applicable in a variety of gene regulatory and stress-response settings.Video Abstract

Published
2015
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16. De novo fatty-acid synthesis protects invariant NKT cells from cell death, thereby promoting their homeostasis and pathogenic roles in airway hyperresponsiveness

Author

Jaemoon Koh, Yeon Duk Woo, Hyun Jung Yoo, Jun-Pyo Choi, Sae Hoon Kim, Yoon-Seok Chang, Kyeong Cheon Jung, Ji Hyung Kim, Yoon Kyung Jeon, Hye Young Kim, and Doo Hyun Chung

Subjects
acetyl-CoA carboxylase 1 (ACC1), de novo fatty acid synthesis, invariant natural killer T cells, allergic asthma, Medicine, Science, Biology (General), QH301-705.5
Abstract

Invariant natural-killer T (iNKT) cells play pathogenic roles in allergic asthma in murine models and possibly also humans. While many studies show that the development and functions of innate and adaptive immune cells depend on their metabolic state, the evidence for this in iNKT cells is very limited. It is also not clear whether such metabolic regulation of iNKT cells could participate in their pathogenic activities in asthma. Here, we showed that acetyl-coA-carboxylase 1 (ACC1)-mediated de novo fatty-acid synthesis is required for the survival of iNKT cells and their deleterious functions in allergic asthma. ACC1, which is a key fatty-acid synthesis enzyme, was highly expressed by lung iNKT cells from WT mice that were developing asthma. Cd4-Cre::Acc1fl/fl mice failed to develop OVA-induced and HDM-induced asthma. Moreover, iNKT cell-deficient mice that were reconstituted with ACC1-deficient iNKT cells failed to develop asthma, unlike when WT iNKT cells were transferred. ACC1 deficiency in iNKT cells associated with reduced expression of fatty acid-binding proteins (FABPs) and peroxisome proliferator-activated receptor (PPAR)γ, but increased glycolytic capacity that promoted iNKT-cell death. Furthermore, circulating iNKT cells from allergic-asthma patients expressed higher ACC1 and PPARG levels than the corresponding cells from non-allergic-asthma patients and healthy individuals. Thus, de novo fatty-acid synthesis prevents iNKT-cell death via an ACC1-FABP-PPARγ axis, which contributes to their homeostasis and their pathogenic roles in allergic asthma.

Published
2023
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17. SnapShot: Electrochemical Communication in Biofilms

Author

Jintao Liu, Arthur Prindle, Gürol M. Süel, and Dong yeon D. Lee

Subjects
0301 basic medicine, 03 medical and health sciences, 030104 developmental biology, Bacteria, Biofilms, Electrophysiological Phenomena, Nanotechnology, Biology, Bacterial Physiological Phenomena, General Biochemistry, Genetics and Molecular Biology
Abstract

The role of electricity in biological systems was first appreciated through electrical stimulation experiments performed by Luigi Galvani in the 18th century. These pioneering experiments demonstrated that the behavior of living tissues is governed by the flow of electrochemical species-an insight that gave rise to the modern field of electrophysiology. Since then, electrophysiology has largely remained a bastion of neuroscience. However, exciting recent developments have demonstrated that even simple bacteria residing in communities use electrochemical communication to coordinate population-level behaviors. These recent works are defining the emerging field of bacterial biofilm electrophysiology. To view this SnapShot, open or download the PDF.

Published
2017

18. Coupling between distant biofilms and emergence of nutrient time-sharing

Author

Arthur Prindle, Jintao Liu, Marçal Gabalda-Sagarra, Joseph Larkin, Rosa Martinez-Corral, Dong yeon D. Lee, Jordi Garcia-Ojalvo, and Gürol M. Süel

Subjects
0301 basic medicine, General Science & Technology, media_common.quotation_subject, 030106 microbiology, Biology, Models, Biological, Article, Competition (biology), 03 medical and health sciences, Nutrient, Models, media_common, Multidisciplinary, Bacteria, Ecology, Extramural, fungi, Biofilm, Biological, Electrophysiological Phenomena, Infectious Diseases, 030104 developmental biology, Coupling (computer programming), Biofilms, Microbial Interactions, Biological system, Limited resources, Signal Transduction, Bacillus subtilis
Abstract

Bacteria within communities can interact to organize their behavior. It has been unclear whether such interactions can extend beyond a single community to coordinate the behavior of distant populations. We discovered that two Bacillus subtilis biofilm communities undergoing metabolic oscillations can become coupled through electrical signaling and synchronize their growth dynamics. Coupling increases competition by also synchronizing demand for limited nutrients. As predicted by mathematical modeling, we confirm that biofilms resolve this conflict by switching from in-phase to antiphase oscillations. This results in time-sharing behavior, where each community takes turns consuming nutrients. Time-sharing enables biofilms to counterintuitively increase growth under reduced nutrient supply. Distant biofilms can thus coordinate their behavior to resolve nutrient competition through time-sharing, a strategy used in engineered systems to allocate limited resources. This work was in part supported by the San Diego Center for Systems Biology (NIH grant P50 GM085764), the National Institute of General Medical Sciences (grant R01 GM121888 to G.M.S.), the Defense Advanced Research Projects Agency (grant HR0011-16-2-0035 to G.M.S.), the Howard Hughes Medical Institute–Simons Foundation Faculty Scholars program (to G.M.S.), a Simons Foundation Fellowship of the Helen Hay Whitney Foundation (to A.P.), a Career Award at the Scientific Interface from the Burroughs Wellcome Fund (to A.P.), the Spanish Ministry of Economy and Competitiveness and FEDER (European Regional Development Fund) (project FIS2015-66503-C3-1-P, to J.G.-O.), the Generalitat de Catalunya (project 2014SGR0947, to J.G.-O.), the ICREA (Catalan Institution for Research and Advanced Studies) Academia program (to J.G.-O.), the “Maria de Maeztu” Programme for Units of Excellence in Research and Development (Spanish Ministry of Economy and Competitiveness, grant MDM-2014-0370 to J.G.-O.), the La Caixa foundation (to R.M.-C.), and a doctoral grant from the Formacion del Profesorado Universitario program of the Ministerio de Educacion, Cultura y Deportes, Spain (to M.G.-S.)

Published
2017

24. [Untitled]

Author

Yong Kwan Cheong, Yeon Dong Kim, Ju Hwan Lee, Hyang Do Ham, Seung Won Choi, and Seon Jeong Park

Subjects
allodynia, dexmedetomidine, ketorolac, neuropathic pain, spinal nerve ligation, Medicine (General), R5-920
Abstract

Abstract Objectives This research was carried out to identify the synergistic effect of dexmedetomidine and ketorolac on neuropathic pain alleviation. Methods The anti-allodynic effect of intrathecal dexmedetomidine and ketorolac was investigated in rats after L5 spinal nerve ligation (SNL). Mechanical allodynia was assessed using Von Frey filaments. Every day for 3 consecutive days, beginning on the 10th day after SNL, behavioral tests were carried out at 1, 2, and 4 hr after drug injection. Results Significant increases in ipsilateral paw withdrawal thresholds (PWTs) were observed 1, 2, and 4 hr after drug injection in the groups of rats which received intrathecal injection of either dexmedetomidine (group D) or ketorolac (group K), compared to group S (P< 0.05). And group DK, which received simultaneous intrathecal injection of both dexmedetomidine and ketorolac, showed statistically significantly higher ipsilateral PWTs than groups D and K, which received only one of them (P< 0.05). Conclusions The results of this research demonstrated the anti-allodynic effect of dexmedetomidine and ketorolac on neuropathic pain induced by SNL in rats. They also suggest that synergistic analgesia can be induced by the simultaneous injection of dexmedetomidine and ketorolac, and that combination therapy is an effective approach to treating chronic neuropathic pain syndrome.

Published
2016
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25. The effects of incremental continuous positive airway pressure on arterial oxygenation and pulmonary shunt during one-lung ventilation

Author

Yeon Dong Kim, Seonghoon Ko, Deokkyu Kim, Hyungsun Lim, Ji Hye Lee, and Min Ho Kim

Subjects
continuous positive airway pressure, one lung ventilation, oxygenation, surgical field, Anesthesiology, RD78.3-87.3
Abstract

BackgroundAlthough one lung ventilation (OLV) is frequently used for facilitating thoracic surgical procedures, arterial hypoxemia can occur while using one lung anesthesia. Continuous positive airway pressure (CPAP) in 5 or 10 cmH2O to the non-ventilating lung is commonly recommended to prevent hypoxemia. We evaluated the effects of incremental CPAP to the non-ventilating lung on arterial oxygenation and pulmonary shunt without obstruction of the surgical field during OLV.MethodsTwenty patients that were scheduled for one lung anesthesia were included in this study. Systemic and pulmonary hemodynamic data and blood gas analysis was recorded every fifteen minutes according to the patient's positions and CPAP levels. CPAP was applied from 0 cmH2O by 3 cmH2O increments until a surgeon notifies that the surgical field was obstructed by the expanded lung. Following that, pulmonary shunt fraction (QS/QT) was calculated.ResultsThere were no significant differences of QS/QT between supine and lateral positions with two lung ventilation (TLV). OLV significantly decreased arterial oxygen partial pressure (PaO2) and increased QS/QT compared to TLV. PaO2 and QS/QT significantly improved at 6 and 9 cmH2O of CPAP compared to 0 cmH2O. However, there were no significant differences of PaO2 and QS/QT between 6 and 9 cmH2O CPAP. In 18 patients (90%), surgical fields were obstructed at 9 cmH2O CPAP.ConclusionsThis study suggests that 6 cmH2O CPAP effectively improved arterial oxygenation without interference of the surgical field during OLV when CPAP was applied from 0 cmH2O in 3 cmH2O increments.

Published
2012
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26. Position of dorsal root ganglia in the lumbosacral region in patients with radiculopathy

Author

Hyun Seog Moon, Yeon Dong Kim, Bang Hoon Song, Young Deog Cha, Jang Ho Song, and Mi Hyeon Lee

Subjects
catheter ablation, dorsal root ganglion, epidural injection, Anesthesiology, RD78.3-87.3
Abstract

BackgroundWhen applying pulsed radiofrequency on dorsal root ganglia for treating chronic lower back pain, maximum efficiency can be expected when a needle is placed 1-2 cm peripheral to the dorsal root ganglion. The object of this study is to analyze images taken after adding contrast to transforaminal epidural injection, categorize root ganglia according to anatomical position, and provide a reference for efficient needle positioning in applying pulsed radiofrequency on dorsal root ganglia.MethodsFrom January 2008 to January 2009, 457 patients who visited our hospital for root pain or radiculopathy were treated with transforaminal epidural injection on the nerve roots based on the dermatome of the painful area. Anteroposterior views were taken after injection of contrast. A virtual line was made by connecting the internal and external parts of the spinal pedicle from the contrast images. Then the dorsal root ganglia were categorized as intraspinal (IS), intraforaminal (IF), or extraforaminal (EF).ResultsIn the fourth lumbar spine, dorsal root ganglia positions were 48% IF, 41% IS, and 6% EF. In the fifth lumbar spine, dorsal root ganglia positions were 75% IF, 10% IS, and 6% EF. In the first sacral spine, dorsal root ganglia locations were 8% IF and 83% IS.ConclusionsPositional categorization of dorsal root ganglia according to contrast images was proven to be good anatomical references for effective radiofrequency or blocking of dorsal root ganglia.

Published
2010
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27. Thalidomide inhibits alternative activation of macrophages in vivo and in vitro: a potential mechanism of anti-asthmatic effect of thalidomide.

Author

Hyun Seung Lee, Hyouk-Soo Kwon, Da-Eun Park, Yeon Duk Woo, Hye Young Kim, Hang-Rae Kim, Sang-Heon Cho, Kyung-Up Min, Hye-Ryun Kang, and Yoon-Seok Chang

Subjects
Medicine, Science
Abstract

Thalidomide is known to have anti-inflammatory and immunomodulatory actions. However, the effect and the anti-asthmatic mechanism of thalidomide in the pathogenesis of asthmatic airways are not fully understood.This study is designed to determine the effect and the potential mechanism of thalidomide in the pathogenesis of asthmatic airways using animal model of allergic asthma.Six-week-old female BALB/C mice were sensitized with alum plus ovalbumin (OVA) and were exposed to OVA via intranasal route for 3 days for challenge. Thalidomide 200 mg/kg was given via gavage twice a day from a day before the challenge and airway hyperresponsivenss (AHR), airway inflammatory cells, and cytokines in bronchoalveolar lavage fluids (BALF) were evaluated. The expression levels of pro-inflammatory cytokines and other mediators were evaluated using ELISA, real time (RT)-qPCR, and flow cytometry. CRL-2456, alveolar macrophage cell line, was used to test the direct effect of thalidomide on the activation of macrophages in vitro.The mice with thalidomide treatment showed significantly reduced levels of allergen-induced BALF and lung inflammation, AHR, and the expression of a number of pro-inflammatory cytokines and mediators including Th2 related, IL-17 cytokines, and altered levels of allergen-specific IgG1/IgG2a. Of interesting note, thalidomide treatment significantly reduced expression levels of allergen- or Th2 cytokine-stimulated alternative activation of macrophages in vivo and in vitro.These studies highlight a potential use of thalidomide in the treatment of allergic diseases including asthma. This study further identified a novel inhibitory effect of thalidomide on alternative activation of macrophages as a potential mechanism of anti-asthmatic effect of thalidomide.

Published
2015
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28. Metabolic co-dependence gives rise to collective oscillations within biofilms

Author

Jintao Liu, San Ly, Gürol M. Süel, Jacqueline Humphries, Jordi Garcia-Ojalvo, Arthur Prindle, Marçal Gabalda-Sagarra, Munehiro Asally, and Dong yeon D. Lee

Subjects
Population level, Biology, Bioinformatics, Article, 03 medical and health sciences, Ammonium Compounds, Biofilm growth, Internal conflict, 030304 developmental biology, Chronobiology Phenomena, Feedback, Physiological, QR355, 0303 health sciences, Multidisciplinary, 030306 microbiology, Extramural, Ecology, Biofilm, Microfluidic Analytical Techniques, Ammonium compounds, 3. Good health, Food, Biofilms, Chemical attack, Bacillus subtilis
Abstract

Cells that reside within a community can cooperate and also compete with each other for resources. It remains unclear how these opposing interactions are resolved at the population level. Here we investigate such an internal conflict within a microbial (Bacillus subtilis) biofilm community: cells in the biofilm periphery not only protect interior cells from external attack but also starve them through nutrient consumption. We discover that this conflict between protection and starvation is resolved through emergence of long-range metabolic co-dependence between peripheral and interior cells. As a result, biofilm growth halts periodically, increasing nutrient availability for the sheltered interior cells. We show that this collective oscillation in biofilm growth benefits the community in the event of a chemical attack. These findings indicate that oscillations support population-level conflict resolution by coordinating competing metabolic demands in space and time, suggesting new strategies to control biofilm growth. J.H. is supported by the UCSD Cell and Molecular Genetics Training Grant. J.G.-O. is supported by the Ministerio de Economia y Competitividad (Spain) and FEDER, under project FIS2012-37655-C02-01, and by the ICREA Academia Programme. This research was funded by the National Institutes of Health, National Institute of General Medical Sciences Grant R01 GM088428 and the National Science Foundation Grant MCB-1450867 (both to G.M.S.)

30. Pulsed radiofrequency lesioning for treatment of chronic breast neuropathic pain after breast reduction -A case report

Author

Hyung Tae Kim, Kwang Yong Kim, Yeon Dong Kim, and Hyun Seog Moon

Subjects
breast reduction, breast surgery, chronic pain, pulsed radiofrequency, Anesthesiology, RD78.3-87.3
Abstract

Breast surgery is a common procedure performed in women. Many women who undergo breast surgery suffer from ill-defined pain syndromes. A nerve block is used in the treatment of the acute and chronic pain, but the effectiveness of the treatment has been limited because of its short duration. Recently, the advent of pulsed radiofrequency lesioning (PRF) has proved a successful treatment for chronic refractory pain involving the peripheral nerves. We experienced a case of a 52-year-old female patient complaining of chronic breast neuropathic pain after breast reduction, which was relieved after PRF lesioning of the 4th thoracic spinal nerve and its root.

Published
2010
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31. Physiological cost of antibiotic resistance: Insights from a ribosome variant in bacteria.

Author

Moon EC, Modi T, Lee DD, Yangaliev D, Garcia-Ojalvo J, Ozkan SB, and Süel GM

Subjects
Drug Resistance, Bacterial genetics, Ribosomes metabolism, Magnesium metabolism, Adenosine Triphosphate metabolism, Bacillus subtilis genetics, Bacillus subtilis metabolism, Anti-Bacterial Agents pharmacology
Abstract

Antibiotic-resistant ribosome variants arise spontaneously in bacterial populations; however, their impact on the overall bacterial physiology remains unclear. We studied the naturally arising antibiotic-resistant L22* ribosome variant of Bacillus subtilis and identified a Mg 2+ -dependent physiological cost. Coculture competition experiments show that Mg 2+ limitation hinders the growth of the L22* variant more than the wild type (WT), even under antibiotic pressure. This growth disadvantage of L22* cells is not due to lower ribosome abundance but rather due to reduced intracellular Mg 2+ levels. Coarse-grained elastic-network modeling of ribosome conformational dynamics suggests that L22* ribosomes associate more tightly with Mg 2+ when compared to WT. We combined the structural modeling and experimental measurements in a steady-state model to predict cellular adenosine 5'-triphosphate (ATP) levels, which also depend on Mg 2+ . Experiments confirmed a predicted ATP drop in L22* cells under Mg 2+ limitation, while WT cells were less affected. Intracellular competition for a finite Mg 2+ pool can thus suppress the establishment of an antibiotic-resistant ribosome variant.

Published
2024
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32. Effectiveness of wireless emergency alerts for social distancing against COVID-19 in Korea.

Author

Yeon D, Kwak M, and Chung JB

Subjects
Humans, Mass Media, Public Health Practice, Republic of Korea, COVID-19 prevention & control, Cell Phone, Disease Notification methods, Physical Distancing
Abstract

This study aimed to evaluate the effectiveness of wireless emergency alerts (WEAs) on social distancing policy. The Republic of Korea has been providing information to the public through WEAs using mobile phones. This study used five data sets: WEA messages, news articles including the keyword "COVID-19," the number of confirmed COVID-19 patients, public foot traffic data, and the government's social distancing level. The WEAs were classified into two topics-"warning" and "guidance"-using a random forest model. The results of the correlation analysis and further detailed analysis confirmed that the "warning" WEA topic and number of news articles significantly affected public foot traffic. However, the "guidance" topic was not significantly associated with public foot traffic. In general, the Korean government's WEAs were effective at encouraging the public to follow social distance recommendations during the COVID-19 pandemic. In particular, the "warning" WEA topic, by providing information about the relative risk directly concerning the recipients, was significantly more effective than the "guidance" topic., (© 2022. The Author(s).)

Published
2022
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33. Effect of band-aligned double absorber layers on photovoltaic characteristics of chemical bath deposited PbS/CdS thin film solar cells.

Author

Ho Yeon D, Chandra Mohanty B, Lee SM, and Soo Cho Y

Abstract

Here we report the highest energy conversion efficiency and good stability of PbS thin film-based depleted heterojunction solar cells, not involving PbS quantum dots. The PbS thin films were grown by the low cost chemical bath deposition (CBD) process at relatively low temperatures. Compared to the quantum dot solar cells which require critical and multistep complex procedures for surface passivation, the present approach, leveraging the facile modulation of the optoelectronic properties of the PbS films by the CBD process, offers a simpler route for optimization of PbS-based solar cells. Through an architectural modification, wherein two band-aligned junctions are stacked without any intervening layers, an enhancement of conversion efficiency by as much as 30% from 3.10 to 4.03% facilitated by absorption of a wider range of solar spectrum has been obtained. As an added advantage of the low band gap PbS stacked over a wide gap PbS, the devices show stability over a period of 10 days.

Published
2015
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34. Capsaicin-induced relaxation in rabbit coronary artery.

Author

Yeon D, Kwon S, Lee Y, Leem J, Nam T, and Ahn D

Subjects
4-Aminopyridine pharmacology, Animals, Calcium metabolism, Capsaicin antagonists & inhibitors, Coronary Vessels physiology, Dinoprost pharmacology, Drug Interactions, Fluorescent Dyes chemistry, Fura-2 chemistry, In Vitro Techniques, Isometric Contraction drug effects, Isometric Contraction physiology, Muscle Relaxation physiology, Muscle, Smooth, Vascular physiology, Peptides pharmacology, Potassium Channel Blockers, Potassium Channels physiology, Rabbits, Ruthenium Red pharmacology, Capsaicin analogs & derivatives, Capsaicin pharmacology, Coronary Vessels drug effects, Fura-2 analogs & derivatives, Muscle Relaxation drug effects, Muscle, Smooth, Vascular drug effects
Abstract

In the present study mechanism of inhibitory effects of capsaicin on the contractility of rabbit coronary artery were studied by measurement of isometric tension and intracellular Ca2+ concentration. Capsaicin (1 microM to 30 microM) relaxed the coronary artery pre-contracted with prostaglandin (PG) F2alpha (1 microM) in a concentration-dependent manner. The PGF2alpha-induced increase in intracellular Ca2+ concentration was also inhibited. The effects of capsaicin were readily reversed by washing capsaicin from the bath. Capsaicin-induced relaxation was not attenuated by pretreatment with capsazepine (1 microM), a blocker of vanilloid receptor or ruthenium red (1 microM), a blocker of non-selective cation channel. Previous exposure to a high concentration of capsaicin (100 microM) or repeated application of capsaicin did not eliminate the relaxation response to subsequent application of capsaicin. Increasing the external K+ concentration to 80 mM significantly attenuated the capsaicin-induced relaxation with simultaneous change in intracellular Ca2+ concentration. Pretreatment with iberiotoxin (100 nM), a blocker of Ca2+-activated K+ channel, only partially inhibited the capsaicin-induced relaxation. However, application of 4-aminopyridine (4-AP, 1 mM), a blocker of delayed rectifier K+ current significantly inhibited the capsaicin-induced relaxation with concomitant attenuation of the effect on intracellular Ca2+ concentration. These results indicate that capsaicin may have a direct relaxing effect on the smooth muscle contractility, and relaxation may be due to activation of the 4-AP-sensitive, delayed rectifier K+ channels in the rabbit coronary artery.

Published
2001
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35. Mechanism of carbon monoxide-induced relaxation in the guinea pig ileal smooth muscle.

Author

Kwon S, Chung S, Ahn D, Yeon D, and Nam T

Subjects
Animals, Calcium analysis, Calcium blood, Calcium physiology, Calcium Channels drug effects, Calcium Channels physiology, Cyclic GMP physiology, Dose-Response Relationship, Drug, Drug Interactions, Enzyme Inhibitors pharmacology, Fluorescent Dyes chemistry, Fura-2 analogs & derivatives, Fura-2 chemistry, Guinea Pigs, Ileum drug effects, Ileum physiology, In Vitro Techniques, Male, Muscle Relaxation physiology, Muscle, Smooth physiology, Oxadiazoles pharmacology, Patch-Clamp Techniques, Potassium Chloride antagonists & inhibitors, Potassium Chloride pharmacology, Quinoxalines pharmacology, Signal Transduction drug effects, Signal Transduction physiology, Carbon Monoxide pharmacology, Muscle Relaxation drug effects, Muscle, Smooth drug effects
Abstract

The mechanism of carbon monoxide (CO)-induced relaxation were investigated in the guinea-pig ileum. CO (10%) inhibited the 40 mM KCl-induced contraction. This effect was antagonized by ODQ (1 microM), a soluble guanylate cyclase inhibitor. In contrast, CO did not inhibit the 40 mM KCl-induced increase in cytosolic Ca2+ level ([Ca2+]i). Cumulative addition of KCl induced a graded increase in both [Ca2+]i and muscle tension. In the presence of CO, the increase in muscle tension was attenuated whereas the increase in [Ca2+]i was only slightly decreased. Thus, the [Ca2+]i-tension relationship constructed by cumulative addition of KCl shifted downwards in the presence of CO. Using the patch clamp, CO was found to have little effect on the peak Ba currents (I(Ba)) when voltage was stepped from -60 mV to 0 mV. From these results, we conclude that CO inhibits contraction of guinea-pig ileum mainly by the decrease in the sensitivity of contractile elements to Ca2+ via a cyclic GMP-dependent pathway but not by the inhibition of L-type Ca2+ channel.

Published
2001
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36. Lysophosphatidylcholine decreases delayed rectifier K+ current in rabbit coronary smooth muscle cells.

Author

Yeon D, Kwon S, Nam T, and Ahn D

Subjects
Animals, Coronary Vessels cytology, Coronary Vessels drug effects, Coronary Vessels physiology, Drug Antagonism, Enzyme Inhibitors, Lysophosphatidylcholines antagonists & inhibitors, Membrane Potentials drug effects, Membrane Potentials physiology, Muscle, Smooth, Vascular enzymology, Muscle, Smooth, Vascular physiology, Patch-Clamp Techniques, Peptides pharmacology, Potassium Channels physiology, Protein Kinase C physiology, Rabbits, Staurosporine pharmacology, Lysophosphatidylcholines pharmacology, Muscle, Smooth, Vascular drug effects, Potassium Channel Blockers
Abstract

Lysophosphatidylcholine (LPC), which exists abundantly in lipid fraction of oxidized low density lipoprotein, has been implicated in enhanced agonist-induced contraction and increase of intracellular Ca2+. The effect of LPC on the activity of delayed rectifier K+ current (I(dK)), which is a major determinant of membrane potential and vascular tone under resting condition, was examined in rabbit coronary smooth muscle cells using whole cell patch clamping technique. Application of LPC to the bath solution caused a concentration-dependent inhibition of I(dK), and the concentration to produce half-maximal inhibition was 1.51 microM. This effect of LPC on I(dK) was readily reversed after washout of LPC in the bath. The steady-state voltage dependence of I(dK) was shifted to positive direction by both extra- and intracellular application of LPC. Staurosporine (100 nM) pretreatment significantly suppressed the LPC-induced inhibition of I(dK). These results suggest that LPC inhibits I(dK) in rabbit coronary smooth muscle cells by a pathway that involves protein kinase C, and the LPC-induced inhibition of I(dK) may be, at least in part, responsible for the abnormal vascular reactivity in atherosclerotic coronary artery.

Published
2001
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37. Sulfhydryl modification affects coronary artery tension by changing activity of delayed rectifier K+ current.

Author

Ha M, Kwon S, Lee YH, Yeon D, and Ahn DS

Subjects
Animals, Arteries cytology, Arteries drug effects, Arteries physiology, Coronary Vessels cytology, Coronary Vessels physiology, Delayed Rectifier Potassium Channels, Female, Male, Potassium Channels physiology, Rabbits, Vasoconstriction physiology, Coronary Vessels drug effects, Oxidants pharmacology, Potassium Channels, Voltage-Gated, Reducing Agents pharmacology, Sulfhydryl Compounds metabolism, Vasoconstriction drug effects
Abstract

It has been reported that a change in the cellular redox state may be involved in the regulation of vascular tone, but the underlying mechanism is not fully understood. The present study was designed to investigate the cellular effect of sulfhydryl modifying agents in the coronary artery of rabbit using the tension measurement and whole cell clamping method. The application of diamide, a sulfhydryl oxidizing agent, relaxed the endothelium denuded coronary arteries in a dose dependent manner. The fact that this diamide-induced relaxation was significantly attenuated by a pretreatment of 4-AP, and the coronary arteries precontracted with 100 mM K+ instead of histamine, suggests the involvement of 4-AP sensitive K+ channels in the diamide-induced relaxation of coronary arteries. Whole cell patch clamp studies revealed that the 4-AP sensitive IdK was significantly enhanced by the membrane permeant oxidizing agents, diamide and DTDP, and were reversed by subsequent exposure to the reducing agent, DTT. Neither the membrane impermeant oxidizing or reducing agents, GSSG or GSH, had any effect on the activity of IdK, indicating that intracellular sulfhydryl modification is critical for modulating IdK activity. The Diamide failed to significantly alter the voltage dependence of the activation and inactivation parameters, and did not change the inactivation process, suggesting that diamide increases the number of functional channels without altering their gating properties. Since IdK has been believed to play an important role in regulating membrane potential and arterial tone, our results about the effect of sulfhydryl modifying agents on coronary arterial tone and IdK activity should help understand the pathophysiology of the diseases, where oxidative damage has been implicated.

Published
2000
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38. Adrenergic sensitivity of uninjured C-fiber nociceptors in neuropathic rats.

Author

Nam TS, Yeon DS, Leem JW, and Paik KS

Subjects
Animals, Male, Norepinephrine pharmacology, Rats, Rats, Sprague-Dawley, Nerve Fibers physiology, Nociceptors physiology, Pain physiopathology, Receptors, Adrenergic, alpha-1 physiology
Abstract

We investigated the adrenergic sensitivity of afferent fibers in the L4 dorsal roots of rats with a unilateral ligation of the L5-L6 spinal nerves. About 12% of nociceptive fibers on the affected side were excited by sympathetic stimulation or by intra-arterial injection of norepinephrine which did not affect A beta-fiber activity. Sympathetic excitation of nociceptive fibers was suppressed by alpha 1-antagonist prazosin, while it was unaffected by alpha 2-antagonist yohimbine. Most of these fibers were excited by intra-arterial injection of alpha 1-agonist phenylephrine, without being affected by an injection of alpha 2-agonist clonidine. Sympathetic excitation was blocked by lidocaine applied near the receptive fields of recorded fibers. The results suggested that some nociceptors remaining intact after partial nerve injury become sensitive to sympathetic activity by the mediation of alpha 1-adrenoceptors in the peripheral endings.

Published
2000
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39. The effects of laminin on the characteristics and differentiation of neuronal cells from epidermal growth factor-responsive neuroepithelial cells.

Author

Park DS, Park JS, and Yeon DS

Subjects
Animals, Brain cytology, Cell Differentiation drug effects, Cell Division drug effects, Cells, Cultured, Cellular Senescence drug effects, Epithelial Cells cytology, Epithelial Cells drug effects, Neurons physiology, Rats embryology, gamma-Aminobutyric Acid physiology, Brain drug effects, Epidermal Growth Factor pharmacology, Laminin pharmacology, Neurons cytology, Neurons drug effects
Abstract

Many extracellular matrix molecules are expressed in the embryonic nervous system and there is some evidence that they are important regulators of neural development. Of these molecules, laminin appears to be the most potent, affecting virtually all neurons of the peripheral and central nervous system. This study was undertaken to investigate the effects of laminin on the proliferation and differentiation of cultured neuroepithelial cells taken from fetal rat forebrains (embryonic day 17-19). The results are summarized as follows. 1) Neuroepithelial cells cultivated in epidermal growth factors containing serum-free medium subsequently differentiated into neurons, astrocytes, and oligodendrocytes. 2) Neuronal cells derived from neuroepithelial cells were immunoreactive for gamma-aminobutyric acid (GABA) or substance P, but were not for serotonin and tyrosine hydroxylase. 3) In western blot analysis, the phosphorylated neurofilament content in neuronal cells was higher in culture on laminin than in culture on poly-L-lysine (PLL). 4) The proliferation rate of GABAergic neurons was higher in culture on laminin than in culture on PLL. These results suggest that GABAergic and substance P-ergic neurons can be differentiated from neuroepithelial cells and that laminin promotes the differentiation of neuronal cells from neuroepithelial cells and the increased proliferation rate of GABAergic cells.

Published
1998
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40. Effects of ketamine on contractile responses in vascular smooth muscle.

Author

Kang BS, Lee YH, Nam TS, Yeon DS, Hwang SK, and Park KS

Subjects
Animals, Aorta, Thoracic, Calcium pharmacology, Dose-Response Relationship, Drug, Female, Histamine pharmacology, Isometric Contraction drug effects, Male, Norepinephrine pharmacology, Rabbits, Ketamine pharmacology, Muscle Contraction drug effects, Muscle, Smooth, Vascular drug effects
Abstract

This study was designed to determine the effects of ketamine on contractions induced by norepinephrine (NE), K+ or histamine (Hist) and on agonist-induced calcium mobilization, in rabbit thoracic aorta with or without endothelium. Contractile responses to NE, K+ or Hist were markedly attenuated by prior exposure to ketamine. Subsequent addition of ketamine to the rabbit aorta undergoing an isometric contraction induced by NE, K+ or Hist also decreased the contractile responses in a calcium ion concentration-dependent manner. Preincubation with ketamine produced a concentration-dependent inhibition of contractile responses elicited by the addition of calcium ion (1.6 mM) to a Ca(++)-free depolarizing solution. However, the phasic contraction produced by NE with 2mM lanthanum pretreatment, which is release of intracellular calcium, was also inhibited by ketamine. Moreover, the tonic contraction produced by NE after depletion of the agonist-releasable pool of intracellular calcium, which is thought to be due to calcium influx, was depressed by ketamine. These data suggest that ketamine relaxes NE-contracted rings of rabbit thoracic aorta by decreasing calcium entry and by producing an extracellular calcium-independent relaxant effect.

Published
1990
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