Touch comes of Age - Maturational Plasticity in Somatosensory Mechanosensation

Michel, Niklas

13 June 2021

No description available.

570

Somatosensation

Patch-clamp

Transcriptomics

Mouse behaviour

Maturation

Piezo2

Biologie (PPN619462639)

[pt] CARACTERIZAÇÃO METROLÓGICA DE UM MEDIDOR CLAMP-ON PARA CALIBRAÇÃO IN SITU DE MEDIDOR DE VAZÃO EM ESCOAMENTO EM DESENVOLVIMENTO / [en] METROLOGICAL CHARACTERIZATION OF A CLAMP-ON METER FOR IN SITU CALIBRATION OF FLOW METER OPERATING UNDER DEVELOPING FLOW CONDITIONS

GABRIEL APOLINÁRIO ALEXANDRE FERREIRA

15 July 2016

[pt] Medidores do tipo clamp-on, com trajetória ultrassônica única, são muito sensíveis ao perfil de velocidade do escoamento para medição de vazão e devem ser utilizados, para maior confiabilidade metrológica, quando o escoamento está completamente desenvolvido. Esta não é a condição normal de utilização em plataformas de petróleo, onde pequenos trechos retos estão normalmente disponíveis. Estudos numérico e experimental comprovaram que para trajetórias ultrassônicas simétricas, a média aritmética dos valores indicados pelo medidor de vazão praticamente independe dos componentes não-axiais de velocidade do escoamento em desenvolvimento em trechos retos com comprimento superior a dez diâmetros da tubulação. A trajetória única foi assegurada por meio de um dispositivo mecânico introduzido que posiciona o plano dos sensores em ângulos de 45 graus em relação à horizontal, assim permitindo medições em outras trajetórias ultrassônicas, procedimento que mostrou minimizar a incerteza associada à medição de vazão. A caracterização metrológica deste procedimento de medição, qualifica o medidor para ser utilizado como padrão itinerante em calibração in situ de medidores de vazão, o que evita a sua retirada para calibração em laboratório. A metodologia alternativa de calibração proposta foi validada experimentalmente em loop especiamente construido na PUC-Rio para reproduzir as condições de medição em campo. / [en] Clamp-on type flow meters, with one single ultrasonic path, are very sensitive to the velocity profile in flow rate measurement and must be used, for greater metrological realiability, when the flow is completely developed. This is not the normal condition of use on oil production platforms, where small straight pipelines are usually available. Numerical and experimental studies have shown that for symmetric ultrasonic paths, the arithmetic mean of the values indicated by the flow meter is practically independent of non-axial velocity components in developing flows in straight pipeline equivalent lengths larger than ten pipeline diameters. The single path was secured by means of an introduced mechanical device that positions the sensor plane every 45 degree angle to the horizontal, thus allowing measurements at other ultrasonic paths, procedure that showed to minimize the uncertainty associated with the flow measurement. The metrological characterization of this measurement procedure, qualifies the meter to be used as a in situ traveling calibration standard of flow meters, which prevents its removal for calibration in laboratory. The alternative methodology calibration proposed was validated experimentally in loop especially built at PUC-Rio to reproduce the field measurement conditions.

[pt] METROLOGIA

[pt] PADRAO DE MEDICAO ITINERANTE

[pt] CLAMP-ON

[pt] VAZAO

[pt] CALIBRACAO

[en] METROLOGY

[en] FLOW

[en] CALIBRATION

Lipopolysaccharide Prolongs Action Potential Duration in HL-1 Mouse Cardiomyocytes

Wondergem, Robert, Graves, Bridget M., Li, Chuanfu, Williams, David L.

15 October 2012

Sepsis has deleterious effects on cardiac function including reduced contractility. We have shown previously that lipopolysaccharides (LPS) directly affect HL-1 cardiac myocytes by inhibiting Ca2+ regulation and by impairing pacemaker "funny" current, If. We now explore further cellular mechanisms whereby LPS inhibits excitability in HL-1 cells. LPS (1 jxg/ml) derived from Salmonella enteritidis decreased rate of firing of spontaneous action potentials in HL-1 cells, and it increased their pacemaker potential durations and decreased their rates of depolarization, all measured by whole cell current clamp. LPS also increased action potential durations and decreased their amplitude in cells paced at 1 Hz with 0.1 nA, and 20 min were necessary for maximal effect. LPS decreased the amplitude of a rapidly inactivating inward current attributed to Na+ and of an outward current attributed to K+; both were measured by whole cell voltage clamp. The K+ currents displayed a resurgent outward tail current, which is characteristic of the rapid delayed-rectifier K+ current, Ikr. LPS accordingly reduced outward currents measured with pipette Cs+ substituted for K+ to isolate Ikr. E-4031 (1 (xM) markedly inhibited Ikr in HL-1 cells and also increased action potential duration; however, the direct effects of E-4031 occurred minutes faster than the slow effects of LPS. We conclude that LPS increases action potential duration in HL-1 mouse cardiomyocytes by inhibition of Ikr and decreases their rate of firing by inhibition of Ina. This protracted time course points toward an intermediary metabolic event, which either decreases available mouse ether-a-go-go (mERG) and Na+ channels or potentiates their inactivation.

delayed rectifier K current +

E-4031

patch-clamp electrophysiology

salmonella enteritidis

Surgery

Lipopolysaccharides Directly Decrease Ca²⁺ Oscillations and the Hyperpolarization-Activated Nonselective Cation Current I_F in Immortalized HL-1 Cardiomyocytes

Wondergem, Robert, Graves, Bridget M., Ozment-Skelton, Tammy R., Li, Chuanfu, Williams, David L.

01 September 2010

Lipopolysaccharide (LPS) has been implicated in sepsis-mediated heart failure and chronic cardiac myopathies. We determined that LPS directly and reversibly affects cardiac myocyte function by altering regulation of intracellular Ca2+ concentration ([Ca2+]i) in immortalized cardiomyocytes, HL-1 cells. [Ca2+]i oscillated (<0.4 Hz), displaying slow and transient components. LPS (1 μg/ml), derived either from Escherichia coli or from Salmonella enteritidis, reversibly abolished Ca2+ oscillations and decreased basal [Ca 2+]i by 30-40 nM. HL-1 cells expressed Toll-like receptors, i.e., TLR-2 and TLR-4. Thus, we differentiated effects of LPS on [Ca2+]i and Ca2+ oscillations by addition of utlrapure LPS, a TLR-4 ligand. Ultrapure LPS had no effect on basal [Ca 2+]i, but it reduced the rate of Ca2+ oscillations. Interestingly, Pam3CSK4, a TLR-2 ligand, affected neither Ca 2+ parameter, and the effect of ultrapure LPS and Pam3CSK4 combined was similar to that of utlrapure LPS alone. Thus, unpurified LPS directly inhibits HL-1 calcium metabolism via TLR-4 and non-TLR-4-dependent mechanisms. Since others have shown that endotoxin impairs the hyperpolarization-activated, nonselective cationic pacemaker current (If), which is expressed in HL-1 cells, we utilized whole cell voltage-clamp techniques to demonstrate that LPS (1 μg/ml) reduced If in HL-1 cells. This inhibition was marginal at physiologic membrane potentials and significant at very negative potentials (P < 0.05 at -140, -150, and -160 mV). So, we also evaluated effects of LPS on tail currents of fully activated If. LPS reduced the slope conductance of the tail currents from 498 ± 140 pS/pF to 223 ± 65 pS/pF (P < 0.05) without affecting reversal potential of -11 mV. Ultrapure LPS had similar effect on If, whereas Pam3CSK4 had no effect on If. We conclude that LPS inhibits activation of I f, enhances its deactivation, and impairs regulation of [Ca 2+]i in HL-1 cardiomyocytes via TLR-4 and other mechanisms.

Fura-2/AM Ca fluorescence 2+

pacemaker current

patch-clamp electrophysiology

toll-like receptors

Surgery

Phosphoinositide-3-kinase/akt - Dependent Signaling is Required for Maintenance of [Ca²⁺]_I,I_Ca, and Ca²⁺ Transients in HL-1 Cardiomyocytes

Graves, Bridget M., Simerly, Thomas, Li, Chuanfu, Williams, David L., Wondergem, Robert

22 June 2012

The phosphoinositide 3-kinases (PI3K/Akt) dependent signaling pathway plays an important role in cardiac function, specifically cardiac contractility. We have reported that sepsis decreases myocardial Akt activation, which correlates with cardiac dysfunction in sepsis. We also reported that preventing sepsis induced changes in myocardial Akt activation ameliorates cardiovascular dysfunction. In this study we investigated the role of PI3K/Akt on cardiomyocyte function by examining the role of PI3K/Akt-dependent signaling on [Ca 2+]i, Ca2+ transients and membrane Ca2+ current, ICa, in cultured murine HL-1 cardiomyocytes. LY294002 (120 μM), a specific PI3K inhibitor, dramatically decreased HL-1 [Ca 2+]i, Ca2+ transients and ICa. We also examined the effect of PI3K isoform specific inhibitors, i.e. α (PI3-kinase α inhibitor 2; 28 nM); ? (TGX-221; 100 nM) and γ (AS-252424; 100 nM), to determine the contribution of specific isoforms to HL-1 [Ca 2+]i regulation. Pharmacologic inhibition of each of the individual PI3K isoforms significantly decreased [Ca2+]i, and inhibited Ca 2+ transients. Triciribine (120 μM), which inhibits AKT downstream of the PI3K pathway, also inhibited [Ca2+]i, and Ca 2+ transients and ICa. We conclude that the PI3K/Akt pathway is required for normal maintenance of [Ca2+]i in HL-1 cardiomyocytes. Thus, myocardial PI3K/Akt-PKB signaling sustains [Ca 2+]i required for excitation-contraction coupling in cardiomyoctyes.

calcium

electrophysiology

fura-2

HL-1 cardiomyocytes

phosphoinositide-3-kinase/Akt

whole-cell voltage clamp

Surgery

Pathomechanismen von HERG-Ionenkanal-Mutationen als Ursache von menschlichen Repolarisationsstoerungen

Bertrand, Jessica

11 January 2008

Inherited long-QT syndrome is caused by mutations in HERG gene that are associated with distinct mechanisms of ion channel dysfunction (haploinsufficiency or IKr current suppression). Recently, mutations with a gain of HERG channel dysfunction were reported to cause ventricular fibrillation or short-QT syndrome. In the present work, we performed clinical characterization of arrhythmia patients, genotyping and biochemical analysis of HERG mutants in order to elucidate potential disease mechanisms. Using site-directed mutagenesis, 7 identified mutations were inserted into the WT-HERG cDNA. Western blot was used to analyze mutant HERG glycosylation patterns, immunostaining and confocal laser microscopy was performed to localize mutant proteins in different cell compartments. Heterologous expression in Xenopus oocytes was used to analyze IKr currents with the voltage clamp method. The cellular turnover of mutant HERG channels was assessed with pulse-chase experiments. Mutations in the cytoplasmic domains (PAS and cNBD) and in the voltage sensor are trafficking deficient and were identified in LQT2 patients. Three mutations in the N- and C-terminal linker regions undergo regular trafficking to the plasma membrane and were identified compound heterozygous with one of the other mutations in LQT2 patients or separate in patients with IVF. HERG-mutations are associated with various phenotypes like LQT2 and IVF. It seems that there is a direct correlation between the functionality of the protein region with the clinical and molecular biological phenotype. Mutations in functional regions like the PAS- and cNBD-domain lead to a trafficking defect of the mutant proteins and for that reason to a reduction of Ikr. Mutations in less functional regions like the N and C-terminal linker regions undergo normal trafficking and lead to IVF.

Ionenkanal

HERG

Mutationen

IKr

Voltage-Clamp

Trafficking

32 - Biologie

ddc:610

Optical recording of action potentials in human induced pluripotent stem cell-derived cardiac single cells and monolayers generated from long QT syndrome type 1 patients / １型QT延長症候群患者より作成したヒトiPS細胞由来心臓単細胞及び単層における光学的な活動電位記録

Takaki, Tadashi

25 March 2019

京都大学 / 0048 / 新制・論文博士 / 博士(医学) / 乙第13232号 / 論医博第2172号 / 新制||医||1036(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 山下 潤, 教授 江藤 浩之, 教授 木村 剛 / 学位規則第4条第2項該当 / Doctor of Medical Science / Kyoto University / DFAM

long QT syndrome

iPSC

cardiomyocyte

ventricular arrhythmia

KCNQ1

FluoVolt

patch clamp

490

Determining the Etiology of Decreased Tensile Strength in Tissues of Quarter Horses with Hereditary Regional Dermal Asthenia (HERDA)

Bowser, Jacquelyn Elizabeth

15 December 2012

Hereditary Equine Regional Derma Asthenia (HERDA) is a painful disfiguring autosomal recessive skin disorder of Quarter Horse lineages. Affected horses cannot be ridden and most are humanely destroyed. Five years following homozygosity mapping of a putative causal mutation responsible for HERDA, it remains unclear how this mutation causes the HERDA syndrome. HERDA horses have a missense mutation in peptidyl-prolyl cis-trans isomerase B (PPIB) which encodes cyclophilin B (CYPB) and alters folding and post-translational modifications of fibrillar collagen. Loss of function mutations in CYPB recognized in other species classically present as the debilitating bone disease, severe to lethal osteogenesis imperfect (OI). Objectives of this study were to develop a novel method for cryogenic clamping of tendons and ligaments of high tensile strength and validate its performance by ultimate tensile strength testing of normal equine deep digital flexor tendon. This validated method was then used to compare tendon and ligament of HERDA vs. control horses along with great vessels and skin. We hypothesized that all tissues of high fibrillar collagen content would have altered tensile properties due to the CYPB mutation affecting fibrous connective tissue globally within HERDA horses. Based on previous studies in our laboratory identifying reduced hydroxylysine content and altered collagen crosslink ratios in the skin of HERDA affected animals that implicate lysyl hydroxylase-1 (LH1) dysfunction, we hypothesized that the HERDA PPIB mutation modified an interaction between CYPB and LH1, interfering with hydroxylysine synthesis and its availability for collagen crosslink formation. In addition, we hypothesized that mutant CYPB may also lead to modifications of other known CYPB protein complexes, such as the CYPB, prolyl-3 hydroxylase-1 (P3H1) and cartilage associated protein (CRTAP) triplex. Goals of this study were to investigate the tensile properties of tissues with high fibrillar collagen content from HERDA homozygotes, to elucidate the mechanistic relationship of the HERDA CYPB mutation to the clinical disease, and to provide evidence to substantiate a heterozygote phenotype in HERDA which could be useful to explaining the correlation between lineages that carry the HERDA allele and performance outcomes in the discipline of western cutting competition.

HERDA

Hyperelastosis Cutis

Tensile Strength

Quarter Horse

Cryogenic Clamp

Mnemonic Representations of Transient Stimuli and Temporal Sequences in the Rodent Dentate Gyrus In Vitro

Hyde, Robert A.

08 March 2013

No description available.

Neurosciences

working memory

temporal sequences

patch clamp

persistent activity

semilunar granule cells

dentate gyrus

local circuits

Expression and Function of Alpha3 and Beta2 Neuronal Nicotinic Acetylcholine Receptor Subunits in HEK-293 Cells

Steinhafel, Nathan W.

08 December 2006

Single-cell real-time quantitative RT-PCR was used to characterize the mRNA expression of rat neuronal nicotinic acetylcholine receptor (nAChR) subunits α3 and β2 in CA1 hippocampus stratum radiatum and stratum oriens interneurons. α3β2 co-expression was detected in 43% of interneurons analyzed. The nAChR subtype α3β2 was transiently expressed in cells derived from the human embryonic kidney cell line 293 at mRNA levels found in the CA1. The functional properties of α3β2 in HEK-293 cells were characterized by whole-cell patch clamping using acetylcholine (ACh) as an agonist. The kinetics of α3β2 channels were further analyzed by altering the level of α3 DNA transfected into HEK-293 cells. Varying the α3 concentration by more than 100,000 fold did not significantly alter the majority of the kinetics; the 10%-90% rise-time was the main characteristic found to be significantly different. A decrease in α3 concentration illustrated a significant increase in rise time. This and future studies will further our understanding of the extensive role neuronal nAChRs play in modulating hippocampal activity and consequently influencing cognition and memory.

hippocampus

CA1

interneurons

nicotinic acetylcholine receptor

HEK-293

PCR

patch clamp

Cell and Developmental Biology

Physiology