Voltage‐activated proton current in eosinophils from human blood.

Gordienko, Dmitri; Tare, Marianne; Parveen, Salina; Fenech, C; Robinson, Clive; Bolton, T. B.

doi:10.1113/jphysiol.1996.sp021686

Cited by 77 publications

(117 citation statements)

References 37 publications

(74 reference statements)

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“…Although several groups have described the presence of proton channels in eosinophils (Gordienko et al, 1996;Schrenzel et al, 1996;Bánfi et al, 1999;Bankers-Fulbright et al, 2001;Cherny et al, 2001;DeCoursey et al, 2001a;DeCoursey et al, 2001b), the membrane potential determined by current clamp measurements indicated that depolarization following activation of NADPH oxidase was not sufficient to activate the proton channel (Gordienko et al, 1996;Tare et al, 1998;Bánfi et al, 1999). Eosinophil resting membrane potential has been reported to be between -60 and -80 mV (Gordienko et al, 1996;Tare et al, 1998). After activation of eosinophil NADPH oxidase with intracellular NADPH and GTPγS and after blocking the inwardly rectifying K + channel, Bánfi et al (Bánfi et al, 1999) reported a 40 mV depolarization.…”

Section: Discussionmentioning

confidence: 99%

“…Cytosolic protons are generated directly by NADPH oxidation and indirectly by regeneration of NADPH via the hexose monophosphate shunt (Borregaard et al, 1984;Lukacs et al, 1993). Associated with NADPH oxidase is an outwardly rectifying proton channel that is functionally required for continued oxidase activity (Henderson et al, 1988;Gordienko et al, 1996;Schrenzel et al, 1996). This NADPH oxidaseassociated proton channel is ligand-and voltage-regulated and has a predicted reversal potential that is nearly equal to the equilibrium potential for protons (EH).…”

Section: Introductionmentioning

confidence: 99%

“…Blocking the proton conductance with 250 µM ZnCl2 (+43.0±4.2 mV) or increasing the proton channel activation threshold by reducing the extracellular pH to 6.5 neutrophils. Subsequently, current clamp recordings on eosinophils suggested an absolute resting membrane potential of approximately -60 to -80 mV (Gordienko, 1996;Tare, 1998), and an increase of 30-40 mV following NADPH oxidase activation with NADPH and GTPγS (Bánfi et al, 1999). Therefore, on the basis of current data describing eosinophil plasma membrane potential, the NADPH oxidaseassociated proton conductance is unlikely to be activated in eosinophils.…”

Section: Introductionmentioning

confidence: 99%

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Regulation of eosinophil membrane depolarization during NADPH oxidase activation

Bankers-Fulbright

Gleich

Kephart

et al. 2003

Journal of Cell Science

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(+44.4±1.4 mV) increased depolarization compared with PMA alone. Additionally, the protein kinase C (PKC) δ-selective blocker, rottlerin, inhibited PMA-stimulated depolarization, indicating that PKCδ was involved in regulating depolarization associated with eosinophil NADPH oxidase activity. Thus, the membrane depolarization that is associated with NADPH oxidase activation in eosinophils is sufficient to produce marked proton channel activation under physiological conditions.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Regulation of eosinophil membrane depolarization during NADPH oxidase activation

Bankers-Fulbright

Gleich

Kephart

et al. 2003

Journal of Cell Science

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“…The first patch clamp study on human granulocytes described nonselective cation channels activated by increased intracellular free calcium (3). Subsequently, the patch clamp technique has been used to explore proton, chloride, and potassium currents in neutrophils and eosinophils (4)(5)(6)(7)(8), as well as in many other nonexcitable cells.…”

Section: Introductionmentioning

confidence: 99%

“…Many studies have been done with ~100 mM buffer, and concentrations as high as 200 mM buffer with no other cations have been used (14) (see Note 6). Table 1 shows examples of solutions that have been used to study H + channels (22,6,28). …”

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confidence: 99%

Analysis of Electrophysiological Properties and Responses of Neutrophils

Morgan

DeCoursey

2007

Neutrophil Methods and Protocols

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SummaryThe past decade has seen increasing use of the patch clamp technique on neutrophils and eosinophils. The main goal of these electrophysiological studies has been to elucidate the mechanisms underlying the phagocyte respiratory burst. NADPH oxidase activity, which defines the respiratory burst in granulocytes, is electrogenic because electrons from NADPH are transported across the cell membrane, where they reduce oxygen to form superoxide anion (O 2 − ). This passage of electrons comprises an electrical current that would rapidly depolarize the membrane if the charge movement were not balanced by proton efflux. The patch clamp technique enables simultaneous recording of NADPH oxidase-generated electron current and H + flux through the closely related H + channel. Increasing evidence suggests that other ion channels may play crucial roles in degranulation, phagocytosis, and chemotaxis, highlighting the importance of electrophysiological studies to advance knowledge of granulocyte function. Several configurations of the patch clamp technique exist. Each has advantages and limitations that are discussed here. Meaningful measurements of ion channels cannot be achieved without an understanding of their fundamental properties. We describe the types of measurements that are necessary to characterize a particular ion channel.

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Electrocardiographic QRS Duration Reflects Right Ventricular Remodeling in Patients Undergoing Corrective Surgery for Isolated Tricuspid Regurgitation: A Comparative Study with Cardiac Magnetic Resonance Imaging

Seo

Park

Kim

et al. 2012

Clinical Cardiology

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Background:The role of electrocardiogram (ECG) is unclear for the longitudinal follow-up of patients who undergo corrective surgery for isolated severe tricuspid regurgitation (TR). Hypothesis: This study sought to investigate the usefulness of changes in QRS duration of ECG after TR surgery in predicting right ventricular (RV) reverse remodeling as determined by cardiac magnetic resonance imaging (CMR). Methods: We enrolled 30 consecutive TR patients (27 women, aged 57.8 ± 9.6 years) who had undergone prior left-sided valve surgery. A computer-assisted analysis was performed for objective calculation of QRS duration before and after surgery. Results: At a median CMR follow-up of 27.5 months postsurgery, QRS duration was cut by 14.6%, from 110.4 ± 14.6 msec to 96.9 ± 11.9 msec (P < 0.001), while CMR showed a decrease in RV end-diastolic volume index (RV-EDVI) from 179.5 ± 59.7 to 119.1 ± 30.4 mL/m 2 (P < 0.001). QRS duration correlated significantly with RV-EDVI and RV end-systolic volume index (r = 0.65, P < 0.001 and r = 0.53, P < 0.001, respectively), and a percent change in QRS duration was significantly correlated with a percent change in RV-EDVI (r = 0.40, P = 0.03). When significant RV reverse remodeling was defined as a reduction in RV-EDVI ≥20% following TR surgery, the sensitivity and specificity for significant RV reverse remodeling were 75% and 78%, respectively, with a 9% reduction in QRS duration (P = 0.01, area underneath the receiver operator curve [AUC] = 0.81). Conclusions:The extent of changes in postoperative QRS duration can be used as a useful, inexpensive, and simple index reflecting the occurrence of significant RV reverse remodeling in patients undergoing corrective TR surgery.

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Voltage‐activated proton current in eosinophils from human blood.

Cited by 77 publications

References 37 publications

Regulation of eosinophil membrane depolarization during NADPH oxidase activation

Regulation of eosinophil membrane depolarization during NADPH oxidase activation

Analysis of Electrophysiological Properties and Responses of Neutrophils

Electrocardiographic QRS Duration Reflects Right Ventricular Remodeling in Patients Undergoing Corrective Surgery for Isolated Tricuspid Regurgitation: A Comparative Study with Cardiac Magnetic Resonance Imaging

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