Your search keyword '"Dionne V"' showing total 145 results

101. Spatial pattern of receptor expression in the olfactory epithelium.

Author

Nef, P, primary, Hermans-Borgmeyer, I, additional, Artières-Pin, H, additional, Beasley, L, additional, Dionne, V E, additional, and Heinemann, S F, additional

Published

1992

102. Chemosensory responses in isolated olfactory receptor neurons from Necturus maculosus.

Author

Dionne, V E, primary

Published

1992

103. What Are We Witnessing? Student Protests and the Politics of the Unknowable

Author

Dionne van Reenen

Subjects

Special aspects of education, LC8-6691

Abstract

South African public higher education has been dogged by student protests since 2015. Many of these disruptions raise pertinent issues for the sector, as well as bring about valued awareness and change. Critical scholars have remarked that in every social or political movement, something of pronounced importance is being said – usually emerging from representatives of groups that have been marginalised, subordinated or even muted. In this article, a “logosemantic” theoretical perspective (Visagie, 2006)1 is utilised to determine some driving conceptualisations emerging in the “languaging strategies” (Stewart, Smith Denton, 2012) of contemporary student movement culture in South Africa. Not discounting significant research that investigates the impact of the digital age on the communication, mobilisation and sustaining of social movements, this article takes a critical look at grounding concepts that may be identified in the discursive formations of the movements. These are taken to be neither new nor unique, either in essence or manifestation. However, the divisions and polarisations they expose, signal an urgent need for some communicative reform in the “imagined community” (Anderson, 2016) of the academy.

Published

2019

104. An analysis of the dose‐response relationship at voltage‐clamped frog neuromuscular junctions.

Author

Dionne, V E, Steinbach, J H, and Stevens, C F

Abstract

1. Frog neuromuscular junctions were viewed with Nomarski optics and voltage clamped. Agonist was applied ionophoretically and agonist concentrations were measured using a micro‐electrode sensitive to quaternary amines. 2. The dose‐response relationship was studied using the agonists carbamylcholine, suberyldicholine and hydroxyphenyl‐propyltrimethylammonium. 3. With all of these agonists, it appeared that the ACh receptor could be active when either one or two agonist binding sites were occupied. The receptor was much more likely to be active when both sites were occupied. Agonist dissociation constants and receptor activation probabilities were estimated by non‐linear regression techniques for several possible receptor activation schemes.

Published

1978

105. Characteristics of the acetylcholine‐operated channel at twitch and slow fibre neuromuscular junctions of the garter snake.

Author

Dionne, V E and Parsons, R L

Abstract

1. Synaptic responses to acetylcholine were recorded from garter snake (sp. Thamnophis) neuromuscular junctions with the voltage clamp. 2. In the following respects the responses were identical in twitch and slow fibres: exponential miniature end‐plate current decay, reversal potential (approximately ‐5 mV), permeant ionic species (Na+, K+, Ca2+, but not Cl‐), two component miniature end‐plate current decay in the presence of procaine, insensitivity to tetrodotoxin, alpha‐bungarotoxin and leiurus toxin. 3. The responses differed in several important ways: miniature end‐plate current decay rate was only half as sensitive to voltage at slow fibre end‐plates as at twitch; while all twitch fibre current fluctuation spectra were single component, about 60% of the slow fibre spectra were not. The latter could be fitted with two Lorentzian components. In all cases the mean end‐plate current was proportional to total induced noise variance. 4. Two mechanisms which might account for the response differences were identified and tested in a fashion independent of specific molecular kinetics. The different responses do not arise from separate ion‐selective channels for the permeant ions at slow fibre end‐plates and seem unlikely to derive from separate populations of synaptic and extrasynaptic channels.

Published

1981

106. The kinetics of slow muscle acetylcholine‐operated channels in the garter snake.

Author

Dionne, V E

Abstract

1. Slow muscle synaptic responses were modelled kinetically in an attempt to define the mechanism by which slow fibre acetylcholine‐operated channels differ from those in twitch fibres. 2. Three kinetically distinguishable states were necessary. 3. All applicable three‐state kinetic schemes were considered in an attempt to identify the simplest description of the data. Experimental tets eliminated several models. Two models were not tested because they contained an excessive number of adjustable parameters. 4. The data were not fitted by kinetic schemes which postulated (i) channels which opened with one as well as two bound agonist molecules, (ii) channels which became blocked after opening, or (iii) separate populations of synaptic and extrasynaptic channels. 5. The three‐state kinetic model of del Castillo & Katz (1957) accurately described all the data. This sequential model relates a closed channel state with no agonist bound to its receptors, an intermediate state (also closed) with agonist bound, and an open channel state. It is the same model which has been used to describe synaptic responses in twitch fibres. 6. The variation which allows this model to describe both twitch and slow fibre synaptic responses is the lifetime of the intermediate state. In twitch fibres the intermediate state lifetime is undetectably brief by electrophysiological methods. However, in slow fibres this lifetime appears to be 1‐2 msec, varying with voltage. 7. Three of the four transition rates in this three‐state kinetic scheme may be estimated by fitting the model to the data. These are the channel opening rate, the channel closing rate and the rate at which closed channels lose their bound agonist molecules. The latter two rates appear to depend exponentially on voltage. The channel opening rate was not detectably voltage‐sensitive.

Published

1981

107. Modulation by albumin of neuronal cholinergic sensitivity.

Author

Gurantz, D, Margiotta, J F, Harootunian, A T, and Dionne, V E

Abstract

Bovine serum albumin greatly enhanced the cholinergic response mediated by neuronal nicotinic acetylcholine receptors in chick ciliary ganglion neurons. The enhancement exceeded 5-fold in some experiments (mean +/- standard error, 3.26 +/- 0.43-fold) and was rapid, was dose dependent, and occurred without changes in the unitary conductance or the mean open time of the acetylcholine receptor channel. This lack of detectable change in permeation or kinetic properties suggests that bovine serum albumin might increase acetylcholine responses by increasing the number of functional receptors. The enhancement appears to be specific to the albumin molecule, because activity could not be removed by detergent extraction, gel filtration, or dialysis. Acetylcholine responses in these cells are known to be enhanced by a cAMP-dependent mechanism that converts existing acetylcholine receptors from a nonfunctional to a functional state. We found that the enhancement by bovine serum albumin occurred without an increase in cAMP and that pretreatment with membrane-permeable cAMP analogs prevented any additional enhancement of the cholinergic response by bovine serum albumin. These observations are consistent with a cAMP-dependent modulation of the enhancement produced by bovine serum albumin or a convergence of the two enhancement mechanisms onto a single pathway.

Published

1993

108. Voltage dependence of agonist effectiveness at the frog neuromuscular junction: resolution of a paradox.

Author

Dionne, V E and Stevens, C F

Abstract

1. End‐plate currents produced by nerve‐released acetylcholine and iontophoretically applied acetylcholine and carbachol have been recorded from voltage‐clamped frog cutaneous pectoris neuromuscular junctions made visible with Nomarski differential interference contrast optics. 2. The effectiveness of agonists ‐ that is, the end‐plate conductance change produced by a given dose‐has been determined as a function of post‐junctional membrane potential. 3. As the post‐junctional membrane potential is made more negative, nerve‐released acetylcholine becomes less effective whereas iontophoretically‐applied agonists become more effective. 4. This voltage dependence of agonist effectiveness is mediated neither by end‐plate current iontophoresis of agonist into the cleft nor through electric field effects on the esterase. 5. Influences of membrane potential on the opening and closing of end‐plate channel gates can account quantitatively for the voltage‐dependent effectiveness of both nerve‐released and iontophoretically applied agonist.

Published

1975

109. Two types of nicotinic acetylcholine receptor channels at slow fibre end‐plates of the garter snake.

Author

Dionne, V E

Abstract

1. Two different types of acetylcholine receptor channels can be detected on the post‐junctional membrane of slow muscle fibres in garter snakes. Here they are designated T‐type and S‐type channels. Only T‐type channels can also be found at twitch fibre neuromuscular junctions. 2. The physiological properties of slow fibre T‐type channels are similar to those of acetylcholine receptor channels in end‐plates of twitch fibres in these animals. 3. S‐type channels had a smaller conductance than T‐type channels (32 vs. 49 pS), but a similar reversal potential near 0 mV. 4. Both S‐ and T‐type channels were found together in most patches of slow fibre end‐plate membrane, but some patches displayed just one type or the other. 5. The activity of both S‐ and T‐type channels desensitized in the presence of micromolar concentrations of acetylcholine. S‐type channels desensitized less rapidly and less completely than did T‐type channels. 6. Desensitized channels of both types recovered and produced bursts of activity, then went silent again. During a burst, channels did not appear to change type. 7. The activation of channels of either type was not correlated with activity in channels of the other type. 8. The open‐duration distribution of S‐type channels required two exponential components to be well fitted, with time constants in the range of 1‐2 ms and 3‐10 ms. In contrast, the open‐duration distribution of T‐type channels was a single exponential with a time constant similar in magnitude to the slower S‐type component. 9. Desensitization‐resistant S‐type acetylcholine receptor channels could allow slow muscle end‐plates to retain their sensitivity to acetylcholine during periods of heavy use. Under non‐desensitizing conditions, differences in the decay properties of slow fibre end‐plate currents compared to those in twitch fibres can be explained by the activation kinetics of S‐type channels.

Published

1989

110. Interaction of a fluorescent acyldicholine with the nicotinic acetylcholine receptor and acetylcholinesterase.

Author

Bolger, M B, Dionne, V, Chrivia, J, Johnson, D A, and Taylor, P

Abstract

A fluorescent acyldicholine, bis-(choline)N-[4-nitrobenzo-2-oxa-1,3-diazol-7-yl]-iminodiprop ionate (BCNI), was synthesized and its capacity to associate with acetylcholinesterase and the nicotinic acetylcholine receptor examined. The fluorescent bisquaternary diester competitively inhibits acetylcholinesterase with a Ki of 0.46 microM. Binding is accompanied by a large decrease in BCNI fluorescence and a 40% reduction in enzyme tryptophanyl fluorescence due to spectral overlap between BCNI absorption and the fluorescence emission of tryptophanyl residues on the enzyme. BCNI titrations show a stoichiometry of one site per subunit and a dissociation constant of 0.2 microM. BCNI also inhibits the initial rate of alpha-toxin binding to the membrane-associated nicotinic acetylcholine receptor and yields a protection constant (Kp) of 0.26 microM. Prior exposure of BCNI to the receptor increases the affinity of the complex, and after equilibration Kp is found to be 0.11 microM. Fluorescence titrations reveal that BCNI binds with 1:1 stoichiometry to alpha-toxin sites on the receptor with a dissociation constant of 0.22 microM. Agonists and antagonists, but not local anesthetics, compete with BCNI binding. BCNI behaves as a competitive antagonist on receptors from the snake neuromuscular junction and from BC3H-1 cells. The 4-nitrobenzo-2-oxa-1,3-diazole fluorophore in BCNI shows a hypsochromatic shift and an enhancement of quantum yield when bound to the receptor but is quenched when associated with acetylcholinesterase. Thus, despite the similarity in dissociation constants, the fluorophore exists in very different environments when bound to the two proteins.

Published

1984

111. Apical localization of K+ channels in taste cells provides the basis for sour taste transduction.

Author

Kinnamon, S C, Dionne, V E, and Beam, K G

Abstract

Previous studies have shown that mudpuppy taste receptor cells respond to sour taste stimuli (weak acids) with depolarizing receptor potentials or action potentials that are blocked by the K+ channel blocker tetraethylammonium. Voltage-clamp recordings from isolated taste cells indicated that taste receptor cells exhibit a variety of voltage-dependent conductances and that acids reduce a voltage-dependent K+ current. Since taste stimuli are restricted to the apical surface of the intact tongue, only 1-2% of the taste receptor cell surface is exposed to chemical stimuli. Thus, modification of a K+ conductance would be an effective transduction mechanism in receptor cells only if the majority of K+ channels were located on the apical membrane. We have used a combination of "loose-patch" and whole-cell recording methods to map the distribution of voltage-sensitive K+ and Na+ channels on dissociated Necturus maculosus taste cells. We report here that the K+ conductance is approximately equal to 50-fold greater on apical membrane than on basolateral membrane, whereas the Na+ conductance is distributed evenly. The marked nonuniformity of the voltage-sensitive K+ conductance, together with the block of this conductance by sour stimuli, indicates that K+ current modulation is the mechanism of sour taste transduction.

Published

1988

112. Cyclic AMP regulates the proportion of functional acetylcholine receptors on chicken ciliary ganglion neurons.

Author

Margiotta, J F, Berg, D K, and Dionne, V E

Abstract

Previous studies have shown that the number of functional acetylcholine receptors (AcChoRs) on chicken ciliary ganglion neurons in culture is considerably smaller than the total number of AcChoRs detected on the neurons by labeled receptor probes. Here we use patch-clamp recording to show that a cAMP-dependent process enhances the AcCho response of the neurons by a mechanism likely to involve an increase in the number of functional AcChoRs. The increase occurs without requiring protein synthesis and without involving a detectable increase in the total number of AcChoRs on the cell surface measured with a labeled receptor probe. The results imply that the neurons have functional and nonfunctional pools of AcChoRs and that functional receptors can be recruited from intracellular receptors or from nonfunctional receptors on the cell surface by a cAMP-dependent process. A cAMP-dependent regulation of the number of functional neurotransmitter receptors would provide a reversible mechanism by which cell-cell interactions could modulate synaptic transmission in the nervous system.

Published

1987

113. Temperature dependence of ion permeation at the endplate channel.

Author

Hoffmann, H M and Dionne, V E

Abstract

The dependence of acetylcholine receptor mean single-channel conductance on temperature was studied at garter snake twitch-muscle endplates using fluctuation analysis. In normal saline under conditions where most of the endplate current was carried by Na+, the channel conductance increased continuously from near 0 degrees C to approximately 23 degrees C with a Q10 of 1.97 +/- 0.14 (mean +/- SD). When 50% of the bath Na+ was replaced by either Li+, Rb+, or Cs+, the Q10 did not change significantly; however, at any temperature the channel conductance was greatest in Cs-saline and decreased with the ion sequence Cs greater than Rb greater than Na greater than Li. The results were fit by an Eyring-type model consisting of one free-energy well on the extracellular side of a single energy barrier. Ion selectivity appeared to result from ion-specific differences in the well and not in the barrier of this model. With a constant barrier enthalpy for different ions, well free-energy depth was greatest for Cs+ and graded identical to the permeability sequence. The correlation between increased well depth (i.e., ion binding) and increased channel conductance can be accounted for by the Boltzmann distribution of thermal energy.

Published

1983

114. Patch-clamp studies of isolated mouse olfactory receptor neurons.

Author

Maue, R A and Dionne, V E

Abstract

Olfactory receptor neurons isolated from embryonic, neonatal, and adult mice were studied using the patch-clamp technique. Several distinct types of ion channels were characterized in patches of membrane from the neuronal soma and the dendritic knob of receptor neurons, including a 130-pS Ca++-activated K+ channel with voltage-dependent kinetics, an 80-pS Ca++-activated K+ channel with voltage-insensitive kinetics, a 25-pS K+ channel with properties similar to inward rectifiers, and a 40-pS K+ channel that was activated and then inactivated by rapid depolarization. Evidence of large-conductance (greater than 200 pS) Cl- channels, which were Ca++ insensitive and increasingly active at depolarizing membrane potentials, and voltage-activated Ca++ channels (16 pS) was also obtained. From K+ channel activity recorded from cell-attached patches, the intracellular [Ca++] was inferred to be below 0.1 microM, and the membrane potential was inferred to be approximately -50 mV. The receptor neurons had high input resistances, and action potentials could be elicited by picoampere amounts of depolarizing current. The receptor neurons responded to applied odorant molecules and to forskolin with increases in membrane conductance. These results provide a description of the membrane properties of olfactory receptor neurons and a basis for understanding their electrical activity and response to odorants.

Published

1987

115. Voltage clamp study of fast excitatory synaptic currents in bullfrog sympathetic ganglion cells.

Author

MacDermott, A B, Connor, E A, Dionne, V E, and Parsons, R L

Abstract

Excitatory postsynaptic currents (EPSCs) have been studied in voltage-clamped bullfrog sympathetic ganglion B cells. The EPSC was small, rose to a peak within 1-3 ms, and then decayed exponentially over most of its time-course. For 36 cells at --50 mV (21-23 degrees C), peak EPSC size was --6.5 +/- 3.5 nA (mean +/- SD), and the mean decay time constant tau was 5.3 +/- 0.9 ms. tau showed a small negative voltage dependence, which appeared independent of temperature, over the range --90 to --30 mV; the coefficient of voltage dependence was --0.0039 +/-0.0014 mV-1 (n = 29). The peak current-voltage relationship was linear between --120 and --30 mV but often deviated from linearity at more positive potentials. The reversal potential determined by interpolation was approximately --5 mV. EPSC decay tau had a Q10 = 3. The commonly used cholinesterase inhibitors, neostigmine and physostigmine, exhibited complex actions at the ganglia. Neostigmine (1 X 10(-5)M) produced a time-dependent slowing of EPSC decay without consistent change in EPSC size. In addition, the decay phase often deviated from a single exponential function, although it retained its negative voltage dependence. With 1 x 10(-6) M physostigmine, EPSC decay was slowed by the decay phase remained exponential. At higher concentrations of physostigmine, EPSC decay was markedly prolonged and was composed of at least two decay components. High concentrations of atropine (10(-5) to 10(-4) M) produced complex alterations in EPSC decay, creating two or more exponential components; one decay component was faster and the other was slower than that observed in untreated cells. These results suggest that the time-course of ganglionic EPSC decay is primarily determined by the kinetics of the receptor-channel complex rather than hydrolysis or diffusion of transmitter away from the postsynaptic receptors.

Published

1980

116. Endplate current fluctuations reveal only one channel type at frog neuromuscular junction.

Author

DIONNE, V. E. and RUFF, R. L.

Published

1977

117. Conductance of channels opened by acetylcholine-like drugs in muscle end-plate

Author

COLQUHOUN, D., primary, DIONNE, V. E., additional, STEINBACH, J. H., additional, and STEVENS, C. F., additional

Published

1975

118. Synaptic channel gating differences at snake twitch and slow neuromuscular junctions

Author

DIONNE, V. E., primary and PARSONS, R. L., additional

Published

1978

119. Effect of Pressure on the Electron Mobility in Solid Helium

Author

Dionne, V. E., primary, Young, R. A., additional, and Tomizuka, C. T., additional

Published

1972

120. Emerging complexity of odor transduction.

Author

Dionne, V E

Published

1994

121. Community-Engaged Development of Strengths-Based Nutrition Measures: The Indigenous Nourishment Scales.

Author

Maudrie TL, Caulfield LE, Nguyen CJ, Walls ML, Haroz EE, Moore LR, Dionne-Thunder RG, Vital J, LaFloe B, Norris A, Dionne V, Pain On Hip V, Dickerson J, Hawk Lessard K, Stately AL, Blue Bird Jernigan V, and O'Keefe VM

Subjects

Adult, Female, Humans, Male, Middle Aged, Baltimore, Diet, Focus Groups, Minnesota, Nutritional Status, American Indian or Alaska Native

Abstract

Mainstream approaches to nutrition typically focus on diet consumption, overlooking multi-dimensional aspects of nutrition that are important to American Indian/Alaska Native (AI/AN) communities. To address health challenges faced by AI/AN communities, strengths-based measures of nutrition grounded in community worldviews are needed. In collaboration with AI/AN communities in Baltimore and Minneapolis, we developed the Indigenous Nourishment Scales through three phases. Phase 1 involved focus group discussions with nine community-research council (CRC) members ( n = 2) and four in-depth interviews ( n = 4) to gather perspectives on existing models of nutrition. Phase 2 refined scales through two additional focus group discussions ( n = 2) with a total of nine participants and two in-depth interviews ( n = 2). Finally, in Phase 3, we held ten ( n = 10) cognitive interviews with AI/AN community members to refine the scales. Participants appreciated the measures' ability to provoke reflection on their relationship with nutrition and suggested adjustments to better capture cultural nuances, such as incorporating concepts like "being a good relative" to land. The Indigenous Nourishment Scales represent a departure from conventional approaches by encompassing multiple dimensions of nourishment, offering a framework that addresses epistemic injustices in nutrition measurement and grounds health measurement efforts directly in community perspectives and worldviews.

Published

2024

122. Cardiac Rehabilitation for Prediabetes and Metabolic Syndrome Remission: Impact of Ultraprocessed Food-Intake Reduction and Time-Restricted Eating in the DIABEPIC-1 Study.

Author

Iglesies-Grau J, Dionne V, Latour É, Gayda M, Besnier F, Gagnon D, Debray A, Gagnon C, Tessier AJ, Paradis A, Klai C, Martin N, Pelletier V, Simard F, Nigam A, L'Allier PL, Juneau M, Bouabdallaoui N, and Bherer L

Abstract

Background: Cardiac rehabilitation programs provide a valuable opportunity to promote the adoption of healthy lifestyle behaviors in patients with atherosclerotic cardiovascular diseases (ASCVDs) and metabolic comorbidities, including metabolic syndrome and prediabetes. However, strategies to reverse these conditions remain to be explored. The DIABEPIC-1 study aimed to assess the feasibility of an enhanced 6-month cardiac rehabilitation program for patients with ASCVD while investigating prediabetes and metabolic syndrome remission., Methods: The study combined exercise training with a comprehensive nutritional intervention, emphasizing reduction in intake of ultraprocessed foods, adoption of a Mediterranean diet, and implementation of time-restricted eating. Baseline, 3-month, and 6-month assessments included segmental body-composition measurements, blood analysis, maximal exercise testing, nutritional diaries recorded with the Keenoa AI app, and lifestyle questionnaires. Remission criteria included a return to an HbA1c level of < 5.7%, and < 3 National Cholesterol Education Program Adult Treatment Panel III (NCEP/ATP-III) criteria for prediabetes and metabolic syndrome, respectively., Results: A total of 36 participants were recruited. The study demonstrated completion rates of 94.4% at 3 months, and 88.9% at 6 months, and a mean compliance rate of 92.5% for planned clinical appointments. Significant reductions in waist circumference (-9.2 cm, P < 0.001) and weight (-8.0 kg, P < 0.001) were observed. Improvement in glycemic and lipid profiles, insulin-resistance marker levels, and liver health were noted. Participants enhanced their cardiorespiratory fitness, reduced their consumption of ultraprocessed food, and increased their adherence to the Mediterranean diet and time-restricted eating. Notably, 50% achieved prediabetes remission, and 70% with metabolic syndrome at baseline achieved remission., Conclusions: The study demonstrates the possibility of enhancing cardiac rehabilitation with an intensive nutritional intervention, yielding clinically significant outcomes, including remission of key risk factors in a substantial number of ASCVD patients., Clinical Trial Registration: ClinicalTrials.gov, NCT05459987., (© 2024 The Authors.)

Published

2024

123. Human brain tissue identification using coherent anti-Stokes Raman scattering spectroscopy and diffuse reflectance spectroscopy for deep brain stimulation surgery.

Author

Jerczynski S, Quémener M, Noël VP, Rousseau A, Parham E, Bédard A, Masoumi S, Charland T, Drouin A, Roussel J, Dionne V, Shooner T, Parrot A, Takech MA, Philippe É, DePaoli D, Cantin L, Parent M, and Côté DC

Abstract

Significance: We assess the feasibility of using diffuse reflectance spectroscopy (DRS) and coherent anti-Stokes Raman scattering spectroscopy (CARS) as optical tools for human brain tissue identification during deep brain stimulation (DBS) lead insertion, thereby providing a promising avenue for additional real-time neurosurgical guidance., Aim: We developed a system that can acquire CARS and DRS spectra during the DBS surgery procedure to identify the tissue composition along the lead trajectory., Approach: DRS and CARS spectra were acquired using a custom-built optical probe integrated in a commercial DBS lead. The lead was inserted to target three specific regions in each of the brain hemispheres of a human cadaver. Spectra were acquired during the lead insertion at constant position increments. Spectra were analyzed to classify each spectrum as being from white matter (WM) or gray matter (GM). The results were compared with tissue classification performed on histological brain sections., Results: DRS and CARS spectra obtained using the optical probe can identify WM and GM during DBS lead insertion. The tissue composition along the trajectory toward a specific target is unique and can be differentiated by the optical probe. Moreover, the results obtained with principal component analysis suggest that DRS might be able to detect the presence of blood due to the strong optical absorption of hemoglobin., Conclusions: It is possible to use optical measurements from the DBS lead during surgery to identify WM and GM and possibly the presence of blood in human brain tissue. The proposed optical tool could inform the surgeon during the lead placement if the lead has reached the target as planned. Our tool could eventually replace microelectrode recordings, which would streamline the process and reduce surgery time. Further developments are required to fully integrate these tools into standard clinical procedures., (© 2024 The Authors.)

Published

2024

124. Mediterranean diet and time-restricted eating as a cardiac rehabilitation approach for patients with coronary heart disease and pre-diabetes: the DIABEPIC-1 protocol of a feasibility trial.

Author

Iglesies-Grau J, Dionne V, Latour É, Gayda M, Besnier F, Gagnon D, Debray A, Gagnon C, Pelletier V, Nigam A, L'Allier PL, Juneau M, Bouabdallaoui N, and Bherer L

Subjects

Humans, Feasibility Studies, Glucose, Cardiac Rehabilitation methods, Coronary Disease, Diabetes Mellitus, Type 2, Diet, Mediterranean, Prediabetic State

Abstract

Introduction: Despite proven programmes, implementing lifestyle interventions for pre-diabetes and type 2 diabetes is challenging. Cardiac rehabilitation, provide a valuable opportunity to promote the adoption of healthy lifestyle behaviours for patients with atherosclerotic cardiovascular disease (ASCVD). However, only a limited number of studies have explored the potential for reversing the underlying causes of ASCVD in this setting., Objectives: The DIABEPIC1 study is an ongoing single-arm lifestyle clinical trial to assess the feasibility of an upgraded 6-month intensive cardiac rehabilitation programme combining an innovative diet assignment with exercise training to reverse newly onset pre-diabetes (glycated haemoglobin 5.7%-6.4%) to normal glucose concentrations in patients with coronary heart disease., Methods and Analysis: 36 patients referred from the Montreal Heart Institute for cardiac rehabilitation, aged ≥40 years with a recent diagnosis of pre-diabetes in the last 6 months, will be offered to participate in the upgraded programme. Interventions will include four sessions of nutritional counselling on ultra-processed foods intake reduction and a moderate-carbohydrate (<40%) ad libitum Mediterranean diet coupled with 36 1-hour sessions of supervised exercise training (continuous and interval aerobic training, and resistance training) and educational intervention. Phase 2 will continue the same interventions adding 8:16 hour time-restricting eating (TRE) at least 5 days per week. During this second phase, exercise training will be performed with autonomy. The primary objectives will be to evaluate the recruitment rate, the completion rates at 3 and 6 months, and the compliance of participants. The secondary objectives will be to assess the proportion of prediabetic participants in remission of pre-diabetes at the programme's end and to characterise the factors associated with remission., Ethics and Dissemination: The DIABEPIC1 feasibility study is approved by the Research Ethics Board of the Montreal Heart Institute (Project Number ICM 2022-3005). Written informed consent will be obtained from each participant prior to inclusion. Results will be available through research articles and conferences., Conclusions: The DIABEPIC1 trial will examine the feasibility and effectiveness of an enhanced cardiac rehabilitation programme combining exercise training with an ultra-processed food reduction intervention, a Mediterranean diet, and TRE counselling to remit pre-diabetes to normal glucose concentrations., Trial Registration Number: NCT05459987., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2023. Re-use permitted under CC BY-NC. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2023

125. Metabolic Improvements and Remission of Prediabetes and Type 2 Diabetes: Results From a Multidomain Lifestyle Intervention Clinic.

Author

Iglesies-Grau J, Dionne V, Bherer L, Bouabdallaoui N, Aubut L, Besnier F, Bertholet J, Berthiaume A, Bisaillon M, Gayda M, Gagnon C, Hamrioui N, Latour É, L'Allier PL, Marie-Hélène MC, Nigam A, Pelletier V, Tessier G, and Juneau M

Subjects

Humans, Glycated Hemoglobin, Retrospective Studies, Blood Glucose metabolism, Life Style, Glucose, Diabetes Mellitus, Type 2 therapy, Prediabetic State

Abstract

Objectives: Although lifestyle interventions are first-line treatment for individuals living with prediabetes and type 2 diabetes (T2D), they are rarely implemented effectively in routine clinical care., Methods: We present a retrospective analysis of a 12-month, single-centre, structured multidomain lifestyle intervention clinic offered to individuals living with prediabetes and type 2 diabetes. The intervention consisted of expert-guided educational and nutritional counselling combined with a personalized physical exercise prescription, with the main goal of improving metabolic health and reaching remission. Anthropometric parameters, glucose, basal insulin, glycated hemoglobin (A1C), and lipid levels were measured at baseline and at 3, 6, and 12 months after the lifestyle intervention initiation. Remission of prediabetes and T2D were defined as a return of A1C at 6 months to <6.5% (or <5.7% for prediabetes) and persisting for at least 3 months in the absence of glucose-lowering pharmacotherapy., Results: After a multidomain, expert-guided lifestyle intervention, 117 individuals living with prediabetes and T2D had significantly improved metabolic profiles: Mean weight change at 12 months was -4.9 kg (95% confidence interval [CI], -4.0 to -5.7; p<0.001), and mean change in A1C at 12 months was -0.6% (95% CI, -0.4 to -0.7; p<0.001). A substantial proportion of individuals reached the criteria for remission (20% among participants with prediabetes and 12% among those with T2D)., Conclusions: The results of this study suggest that prioritizing lifestyle changes in a multifaceted, progressive, 12-month intervention in this population improves anthropometric and insulin resistance measures, and has the potential to normalize metabolic values, even to the point of reaching the criteria of remission., (Copyright © 2022 Canadian Diabetes Association. Published by Elsevier Inc. All rights reserved.)

Published

2023

126. "Down the language rabbit hole with alice": a case study of a deaf girl with a cochlear implant.

Author

Andrews JF and Dionne V

Abstract

Alice, a deaf girl who was implanted after age three years of age was exposed to four weeks of storybook sessions conducted in American Sign Language (ASL) and speech (English). Two research questions were address: (1) how did she use her sign bimodal/bilingualism, codeswitching, and code mixing during reading activities and (2) what sign bilingual code-switching and code-mixing strategies did she use while attending to stories delivered under two treatments: ASL only and speech only. Retelling scores were collected to determine the type and frequency of her codeswitching/codemixing strategies between both languages after Alice was read to a story in ASL and in spoken English. Qualitative descriptive methods were utilized. Teacher, clinician and student transcripts of the reading and retelling sessions were recorded. Results showed Alice frequently used codeswitching and codeswitching strategies while retelling the stories retold under both treatments. Alice increased in her speech production retellings of the stories under both the ASL storyreading and spoken English-only reading of the story. The ASL storyreading did not decrease Alice's retelling scores in spoken English. Professionals are encouraged to consider the benefits of early sign bimodal/bilingualism to enhance the overall speech, language and reading proficiency of deaf children with cochlear implants.

Published

2011

127. Neuromodulatory effects of gonadotropin releasing hormone on olfactory receptor neurons.

Author

Eisthen HL, Delay RJ, Wirsig-Wiechmann CR, and Dionne VE

Subjects

Animals, Electrophysiology, Female, Immunohistochemistry, Male, Necturus, Patch-Clamp Techniques, Presynaptic Terminals drug effects, Receptors, LHRH metabolism, Sex Characteristics, Tetrodotoxin pharmacology, Gonadotropin-Releasing Hormone pharmacology, Neurotransmitter Agents pharmacology, Olfactory Receptor Neurons drug effects

Abstract

The terminal nerve is an anterior cranial nerve that innervates the lamina propria of the chemosensory epithelia of the nasal cavity. The function of the terminal nerve is ambiguous, but it has been suggested to serve a neuromodulatory role. We tested this hypothesis by exposing olfactory receptor neurons from mudpuppies (Necturus maculosus) to a peptide, gonadotropin releasing hormone (GnRH), that is found in cells and fibers of the terminal nerve. We used voltage-clamped whole-cell recordings to examine the effects of 0. 5-50 micrometer GnRH on voltage-activated currents in olfactory receptor neurons from epithelial slices. We found that GnRH increases the magnitude, but does not alter the kinetics, of a tetrodotoxin-sensitive inward current. This increase in magnitude generally begins 5-10 min after initial exposure to GnRH, is sustained for at least 60 min during GnRH exposure, and recovers to baseline within 5 min after GnRH is washed off. This effect occurred in almost 60% of the total number of olfactory receptor neurons examined and appeared to be seasonal: approximately 67% of neurons responded to GnRH during the courtship and mating season, compared with approximately 33% during the summer, when the sexes separate. GnRH also appears to alter an outward current in the same cells. Taken together, these data suggest that GnRH increases the excitability of olfactory receptor neurons and that the terminal nerve functions to modulate the odorant sensitivity of olfactory receptor neurons.

Published

2000

128. New kid on the block: a role for the Na/Ca exchanger in odor transduction.

Author

Dionne VE

Subjects

Animals, Odorants, Signal Transduction physiology, Smell physiology, Sodium-Calcium Exchanger physiology

Published

1998

129. A cyclic nucleotide-dependent chloride conductance in olfactory receptor neurons.

Author

Delay RJ, Dubin AE, and Dionne VE

Subjects

1-(5-Isoquinolinesulfonyl)-2-Methylpiperazine pharmacology, Adenosine Triphosphate pharmacology, Animals, Calcium pharmacology, Chloride Channels drug effects, Cyclic AMP analogs & derivatives, Cyclic AMP-Dependent Protein Kinases antagonists & inhibitors, Cyclic AMP-Dependent Protein Kinases metabolism, Cyclic GMP analogs & derivatives, Enzyme Inhibitors pharmacology, In Vitro Techniques, Isoquinolines pharmacology, Membrane Potentials drug effects, Membrane Potentials physiology, Necturus, Patch-Clamp Techniques, Photolysis, Calcium metabolism, Chloride Channels physiology, Cyclic AMP pharmacology, Cyclic GMP pharmacology, Olfactory Receptor Neurons physiology, Sulfonamides

Abstract

Whole-cell membrane currents were recorded from olfactory receptor neurons from the neotenic salamander Necturus maculosus. Cyclic nucleotides, released intracellularly by flash photolysis of NPE-caged cAMP or NPE-caged cGMP, activated a transient chloride current. The chloride current could be elicited at constant voltage in the absence of extracellular Ca2+ as well as in the presence of 3 mM intracellular Ca2+, suggesting that the current did not require either voltage or Ca2+ transients for activation. The current could be elicited in the presence of the protein kinase inhibitors H-7 and H-89, and in the absence of intracellular ATP, indicating that activation was independent of protein kinase A activity. These results suggest that Necturus olfactory receptor neurons contain a novel chloride ion channel that may be directly gated by cyclic nucleotides.

Published

1997

130. VIP modulates neuronal nicotinic acetylcholine receptor function by a cyclic AMP-dependent mechanism.

Author

Gurantz D, Harootunian AT, Tsien RY, Dionne VE, and Margiotta JF

Subjects

Acetylcholine pharmacology, Animals, Calcitonin Gene-Related Peptide pharmacology, Chick Embryo, Cyclic AMP metabolism, Electrophysiology, Neural Conduction, Neurons drug effects, Neurons physiology, Vasoactive Intestinal Peptide pharmacology, Cyclic AMP physiology, Neurons metabolism, Receptors, Nicotinic metabolism, Vasoactive Intestinal Peptide physiology

Abstract

Neuronal nicotinic ACh receptors (AChRs) mediate synaptic transmission throughout the nervous system, and are regulated by cellular processes and interactions that include second messenger signaling pathways. In the case of chick ciliary ganglion neurons, activation of the cAMP-dependent signaling pathway with cAMP analogs enhances ACh sensitivity in a manner consistent with an increase in the number of functional nicotinic receptors. We have now identified vasoactive intestinal peptide (VIP) as a neuromodulator or "first messenger" in the cAMP-mediated pathway that regulates neuronal AChRs. Using cAMP imaging and biochemical detection assays, we find that bath application of VIP elevates intracellular cAMP in freshly isolated ciliary ganglion neurons within minutes. The VIP treatment also enhances neuronal ACh sensitivity assessed with whole-cell recording. The enhanced ACh sensitivity produced by VIP appears with a short latency, similar to that associated with the increase in cAMP, and is not additive with the enhanced ACh sensitivity produced by bath application of a cAMP analog. In contrast, calcitonin gene-related peptide (CGRP), known to regulate muscle nicotinic AChRs via a cAMP-dependent pathway, has no detectable effect on levels of either cAMP or ACh sensitivity in the neurons. The results indicate that VIP enhances the ACh sensitivity of ciliary ganglion neurons via a cAMP-dependent signaling pathway, presumably by interaction with a specific receptor. Since VIP-like immunoreactivity is present in the presynaptic nerve terminals of avian ciliary ganglia, a VIP-like peptide could modulate AChRs in vivo.

Published

1994

131. Cellular mechanisms mediating agonist-stimulated calcium influx in the pancreatic acinar cell.

Author

Pandol SJ, Gukovskaya A, Bahnson TD, and Dionne VE

Subjects

Acetylcholine pharmacology, Animals, Cholecystokinin physiology, Models, Biological, Pancreas cytology, Pancreas drug effects, Second Messenger Systems, Signal Transduction, Calcium metabolism, Cholecystokinin pharmacology, Cyclic GMP physiology, Pancreas physiology

Abstract

Figure 1 summarizes our current concept of a signaling mechanism to explain agonist-induced Ca2+ entry in the pancreatic acinar cell. We propose that cGMP can modulate Ca2+ entry under conditions of internal Ca2+ store depletion and that the NO signaling system may be involved in coupling Ca2+ depletion to cGMP formation. The finding that Ca2+ entry after Ca2+ store depletion can occur with no elevation in [Ca2+]i37 raises the possibility that alternative signaling pathways may converge to stimulate cGMP formation or that additional messengers may activate plasmalemmal Ca2+ entry mechanisms in parallel.

Published

1994

132. Sensing scents.

Author

Dionne VE

Published

1993

133. Cyclic GMP modulates depletion-activated Ca2+ entry in pancreatic acinar cells.

Author

Bahnson TD, Pandol SJ, and Dionne VE

Subjects

Aminoquinolines pharmacology, Animals, Calcium Channels drug effects, Cyclic AMP pharmacology, Cyclic GMP analogs & derivatives, Guanylate Cyclase pharmacology, In Vitro Techniques, Inositol 1,4,5-Trisphosphate metabolism, Inositol Phosphates pharmacology, Kinetics, Membrane Potentials drug effects, Models, Biological, Pancreas cytology, Pancreas drug effects, Rats, Rats, Sprague-Dawley, Second Messenger Systems drug effects, Second Messenger Systems physiology, Time Factors, Calcium metabolism, Calcium Channels physiology, Cyclic GMP metabolism, Cyclic GMP pharmacology, Pancreas metabolism

Abstract

In the pancreatic acinar cell, hormonal stimulation causes a rise in the intracellular free Ca2+ concentration by activating the inositol 1,4,5-trisphosphate-mediated release of Ca2+ from intracellular stores (Berridge, M. J., and Irvine, R. F. (1989) Nature 341, 197-205). The released Ca2+ is, for the most part, extruded from the cell, necessitating a mechanism for Ca2+ entry and reloading of intracellular Ca2+ stores (Putney, J. W., Jr. (1990) Cell Calcium 11, 611-624; Rink, T. J. (1990) FEBS Lett. 268, 381-385). However, neither the mechanism of depletion-activated Ca2+ entry nor the signal that activates it is known. We report here that a sustained inward current of depletion-activated Ca2+ entry can be measured in pancreatic acinar cells using patch-clamp recording methods. Furthermore, the current can be blocked by an inhibitor of guanylyl cyclase, can be reactivated by 8-bromo-cGMP after inhibition, and can be activated in the absence of Ca2+ depletion by perfusing the cell with cGMP, but not cAMP. Intracellular perfusion with 1,3,4,5-inositol tetrakisphosphate did not activate an inward current, whereas perfusion with 2,4,5-inositol trisphosphate did activate an inward current. We conclude that cGMP may be an intracellular messenger that regulates depletion-activated Ca2+ entry.

Published

1993

134. Multiple voltage-sensitive K+ channels regulate dendritic excitability in cerebellar Purkinje neurons.

Author

Gruol DL, Dionne VE, and Yool AJ

Subjects

Adrenergic alpha-Antagonists pharmacology, Adrenergic beta-Antagonists pharmacology, Animals, Cells, Cultured, Dendrites drug effects, Dendrites metabolism, Electric Stimulation, Membrane Potentials drug effects, Norepinephrine pharmacology, Potassium Channels drug effects, Purkinje Cells metabolism, Rats, Dendrites physiology, Potassium Channels physiology, Purkinje Cells physiology

Abstract

Ionic conductances present in the dendritic region of the cerebellar Purkinje neuron were studied using the single-channel and whole-cell recording methods. Several types of voltage-sensitive K+ channels including a Ca2+ activated K+ channel were found to be a prominent components of the dendritic membrane. All patches studied contained K+ channel types and most patches contained more than one K+ channel type. In cell attached recordings, K+ channel activity was associated with the late phase of spontaneous action potentials suggesting a functional relationship. These data demonstrate that voltage-sensitive ion channels contribute to dendritic excitability and suggest that the transduction and integration of synaptic signals may involve both active and passive ionic conductances.

Published

1989

135. Characterization of drug iontophoresis with a fast microassay technique.

Author

Dionne VE

Subjects

Acetylcholine administration & dosage, Amines analysis, Carbachol administration & dosage, Diffusion, Microelectrodes, Quaternary Ammonium Compounds administration & dosage, Iontophoresis

Abstract

The iontophoretic release of drugs from micropipettes into free (Ringer's) solution was described using an ion-selective microelectrode assay method. This characterization, with a temporal resolution of 20 ms, showed that the equilibrium rate of drug transport was not linearly proportional to release current; the departure from linearity was increased by backing current and the result was demonstrated with analytically derived drug release functions. The general relation between the drug transport rate and release current was independent of the specific drug or pipette resistance; no functional relation was observed that might quantitatively predict this dependence without prior use of the assay. The diffusion coefficients at 25 degrees C in frog Ringer's of the drugs used in this study, all neuromuscular agonists, were determined: all values X 10(6) cm2/s; acetylcholine 6.11 +/- 0.30; carbamylcholine 7.44 +/- 0.34; 3-(m-hydroxyphenyl) prophyltrimethyl ammonium 5.79 +/- 0.13.

Published

1976

136. Biophysical and pharmacological properties of cloned GABAA receptor subunits expressed in Xenopus oocytes.

Author

Levitan ES, Blair LA, Dionne VE, and Barnard EA

Subjects

Animals, Female, Membrane Potentials drug effects, Oocytes drug effects, Oocytes metabolism, Receptors, GABA-A drug effects, Receptors, GABA-A metabolism, Xenopus laevis metabolism, Bicuculline pharmacology, Oocytes physiology, Pentobarbital pharmacology, Receptors, GABA-A physiology, Xenopus laevis physiology

Abstract

Biochemical and immunological studies indicate that the GABAA receptor contains at least two types of subunit. Here we report that coexpression of two GABAA receptor subunit clones (alpha and beta) in Xenopus oocytes yields receptors with many biophysical properties of native GABAA receptors. These include ion selectivity, multiple single-channel conductance states, voltage-dependent gating and rectification, and complex desensitization kinetics. Furthermore, the receptors are competitively inhibited by bicuculline and display the expected allosteric and agonist effects of the barbiturate pentobarbital. The expressed receptors, however, appear to be activated by one molecule of GABA instead of two and fail to show potentiation by benzodiazepines. This implies that an additional factor(s) or subunit(s) is required for the reconstitution of a fully functional GABAA receptor.

Published

1988

137. The properties and regulation of functional acetylcholine receptors on chick ciliary ganglion neurons.

Author

Margiotta JF, Berg DK, and Dionne VE

Subjects

Acetylcholine pharmacology, Animals, Cells, Cultured, Chick Embryo, Dose-Response Relationship, Drug, Electrophysiology, Ganglia, Parasympathetic drug effects, Ion Channels physiology, Kinetics, Mathematics, Neurons drug effects, Ganglia, Parasympathetic physiology, Neurons physiology, Receptors, Cholinergic physiology

Abstract

The properties of acetylcholine receptor (AChR) channels on chick ciliary ganglion neurons in culture were examined using patch-clamp recording techniques. Acetylcholine (ACh) was applied by rapid microperfusion. Whole-cell current noise analysis revealed a single class of functional receptors on the neurons. Dose-response studies indicated a Kd of about 36 microM and a Hill coefficient of 1.5-1.7, predicting 2 ACh binding sites per receptor. Both fast and slow components of receptor desensitization were observed. Single-channel recordings from excised outside-out patches of soma membrane exposed to 2-5 microM ACh indicated a single-channel conductance of 40 pS, a reversal potential of -9 mV, a mean open duration of 1 msec, and an opening probability of 0.34. The kinetic behavior of the channels was provisionally described by a 3-closed, 1-open state model for receptor activation. In all of these properties, AChRs of ciliary ganglion neurons resemble those on skeletal muscle fibers. Growing the neurons in an elevated K+ concentration produced a 2-3-fold decrease in peak whole-cell currents induced by ACh under standard test conditions, without altering any of the single-channel properties described above. Neither changes in cholinesterase activity nor receptor distribution accounted for the decrease. Instead, calculations indicated that elevated K+ reduced the ACh response by decreasing the number of functional AChRs on the neurons. No K+-dependent decrease is observed, however, in the number of total receptors on the neurons detected either by a monoclonal antibody specific for the receptor or by an alpha-neurotoxin that binds to the receptor and blocks its function. Moreover, the number of receptors detected by the 2 probes is at least 10-fold greater than the calculated number of functional receptors. The findings suggest that only a small fraction of the AChRs on the neuronal surface is functional and that the cell can alter the ratio of functional and nonfunctional receptors in response to growth conditions.

Published

1987

138. Single-channel acetylcholine receptor kinetics.

Author

Leibowitz MD and Dionne VE

Subjects

Animals, Kinetics, Ligands, Mathematics, Membrane Potentials, Models, Neurological, Snakes, Time Factors, Ion Channels physiology, Neuromuscular Junction physiology, Receptors, Nicotinic physiology

Abstract

The temporal relationships among junctional acetylcholine receptor single-channel currents have been examined to probe the mechanism of channel activation. We have presented an analytical approach, termed single-channel ensemble analysis, that allows one to estimate the kinetic transition rate constants for channel-opening and closing as well as the rate of leaving the specific doubly-liganded, closed state from which opening occurs. This approach may be applied to data produced by any number of independent channels as long as the probability of channel opening is low, a condition that is experimentally verifiable. The method has been independently validated using simulated single-channel data generated by computer from one or 100 hypothetical channels. Typical experimental values for the transition rate constants estimated from acetylcholine-activated single channels at the garter snake neuromuscular junction were: opening = 1,200 s-1, closing = 455 s-1, back rate for leaving the doubly-liganded, closed state = 3,200 s-1 at a transmembrane potential of -92 mV at room temperature. Each of these three rate constants was voltage dependent, with the closing rate decreasing e-fold for 173 mV of hyperpolarization, the opening rate increasing e-fold for 78 mV, and the unbinding rate increasing e-fold for 105 mV. The channel-closing rate was agonist dependent, being greater at all potentials for channels activated with carbamylcholine than for channels activated with acetylcholine. However, the single-channel conductance and reversal potential were the same for these two agonists.

Published

1984

139. Acetylcholine receptor kinetics at slow fiber neuromuscular junctions.

Author

Dionne VE

Subjects

Animals, Electric Conductivity, Ion Channels physiology, Kinetics, Membrane Potentials, Snakes, Acetylcholine physiology, Neuromuscular Junction physiology, Receptors, Cholinergic physiology

Abstract

Acetylcholine receptors in slow fiber neuromuscular junctions of garter snake (sp. Thamnophis) produced synaptic responses that were more complicated than those observed from twitch fibers. Although the slow fiber miniature end plate currents decayed monoexponentially with time, both the current fluctuations spectrum and the voltage jump end plate current required two temporal components for good theoretical fits. This behavior was accurately accounted for by a generalized version of the three-state kinetic model by del Castillo and Katz. Application of the model allowed not only the rate of channel closing to be estimated, but also the rate of channel opening (from the closed state with acetylcholine bound) and the apparent rate of acetylcholine unbinding from the receptor. The results suggest that at the peak of the miniature end plate current local receptor saturation occurs.

Published

1981

140. Developmental changes in K+-selective channel activity during differentiation of the Purkinje neuron in culture.

Author

Yool AJ, Dionne VE, and Gruol DL

Subjects

Animals, Cell Differentiation, Cells, Cultured, Electric Conductivity, Purkinje Cells metabolism, Purkinje Cells physiology, Tetraethylammonium, Tetraethylammonium Compounds pharmacology, Ion Channels physiology, Potassium metabolism, Purkinje Cells cytology

Abstract

The cerebellar Purkinje neuron cultured from 20 d rat embryos is electrically inexcitable when immature, and acquires excitable membrane properties according to a programmed developmental sequence, thus providing a useful model for investigating mechanisms of CNS neuronal development. Using conventional patch-clamp techniques, we have characterized the the predominant classes of active K+-selective channels at a range of ages encompassing the entire developmental process from 5 to 29 d in vitro (DIV), and have shown pharmacologically that these channels are important contributors to the patterns of spontaneous activity generated by the Purkinje neurons. The 4 predominant classes of K+ channels that are active during steady-state depolarizing voltage commands are identified by unit conductances as the 27, 44, 70, and 100 pS channels, and show differences in several properties, including voltage dependence, sensitivity to tetraethylammonium chloride (TEA), mean open time, and time of appearance during development. Intracellular current-clamp recordings show that physiological maturation of the Purkinje neuron entails increases in the firing rate, the diversity of spike events that comprise spontaneous activity, and the sensitivity of spontaneous activity to disruption by the K+ channel blocker TEA. This increase in sensitivity to TEA correlates with the new expression of activity of the larger-conductance TEA-sensitive classes of K+ channel (70 and 100 pS types). These data show that developmental regulation of the activity of K+-selective channels contributes significantly to the ionic mechanisms that underlie the developmental transitions in spontaneous activity patterns in the Purkinje neuron.

Published

1988

141. A polisher for patch pipets.

Author

Leibowitz MD and Dionne VE

Subjects

Electrophysiology, Ion Channels physiology, Microscopy instrumentation, Electrodes, Glass, Hot Temperature

Abstract

The design and construction of a novel apparatus to fire polish patch-clamp recording pipets is described. The device positions the polishing filament in the field of view of the high-power polishing objective and uses the mechanical stage of the microscope to hold the electrode, eliminating the need for a micromanipulator to hold either the filament or electrode.

Published

1987

142. Developmental acquisition of Ca2+-sensitivity by K+ channels in spinal neurones.

Author

Blair LA and Dionne VE

Subjects

Animals, Cells, Cultured, Electric Conductivity, Membrane Potentials, Spinal Nerves embryology, Spinal Nerves physiology, Xenopus laevis, Calcium physiology, Ion Channels physiology, Potassium physiology, Spinal Nerves growth & development

Abstract

A developmental change in the ionic basis of the inward current of action potentials has been observed in many excitable cells. In cultured spinal neurones of Xenopus, the timing of the development of the action parallels that seen in vivo. In vitro, as in vivo, neurones initially produce action potentials of long duration which are principally Ca-dependent; after 1 day of development the impulse is brief and primarily Na-dependent. At both ages, however, both inward components are present and the mechanism underlying shortening of the action potential is unknown. One possibility is that the outward currents change during development. Using the patch-clamp technique, we have recorded single K+-channel currents in membrane patches isolated from the cell bodies of cultured embryonic neurones. The unitary conductance of one class of K+ channels was approximately 155 pS and depolarization increased the probability of a channel being open. Neither conductance nor voltage dependence seemed to change with time in culture; in contrast, the Ca2+-sensitivity of this K+ channel increased. In younger neurones, Ca2+-sensitivity was greatly reduced or absent, whereas in more mature neurones, the activity of this channel was Ca-dependent. Such a change could account for the shortening of the action potential duration by increasing the relative contribution of outward currents.

Published

1985

143. Single subunits of the GABAA receptor form ion channels with properties of the native receptor.

Author

Blair LA, Levitan ES, Marshall J, Dionne VE, and Barnard EA

Subjects

Animals, Chloride Channels, Cloning, Molecular, Dose-Response Relationship, Drug, Electric Conductivity, Macromolecular Substances, Picrotoxin pharmacology, RNA, Messenger administration & dosage, Structure-Activity Relationship, Xenopus laevis, gamma-Aminobutyric Acid pharmacology, Chlorides physiology, Membrane Proteins physiology, Receptors, GABA-A physiology

Abstract

The alpha and beta subunits of the gamma-aminobutyric acidA (GABAA) receptor were expressed individually in Xenopus oocytes by injection of RNA synthesized from their cloned DNAs. GABA-sensitive chloride channels were detected several days after injection with any one of three different alpha RNAs (alpha 1, alpha 2, and alpha 3) or with beta RNA. The channels induced by each of the alpha-subunit RNAs were indistinguishable, they had multiple conductance levels (10, 19, 28, and 42 picosiemens), and their activity was potentiated by pentobarbital and inhibited by picrotoxin. The beta channels usually expressed poorly but showed similar single channel conductance levels (10, 18, 27, and 40 picosiemens), potentiation by pentobarbital and inhibition by picrotoxin. The finding that both alpha and beta subunits, examined separately, form GABA-sensitive ion channels with permeation properties and regulatory sites characteristic of the native receptor suggests that the amino acid sequences that confer these properties are within the homologous domains shared by the subunits.

Published

1988

144. Acetylcholine receptor kinetics. A description from single-channel currents at snake neuromuscular junctions.

Author

Dionne VE and Leibowitz MD

Subjects

Animals, Kinetics, Mathematics, Membrane Potentials, Models, Neurological, Snakes, Ion Channels physiology, Neuromuscular Junction physiology, Receptors, Cholinergic physiology

Abstract

Single-channel currents from acetylcholine receptor channels of garter snake neuromuscular junctions were recorded using the patch-clamp technique. Low concentrations of acetylcholine or carbamylcholine induced populations of single current events whose amplitudes and durations had unimodal distributions. The probability with which channel opening transitions occurred was time dependent, so that it was more probable for channels to open during the several hundred microseconds following a closing transition than during any later equivalent interval. The time-dependent distributions of duration and opening-transition probability were fitted by a sequential, reversible kinetic model in which the agonist binding steps occur before, and separately from, channel activation. This description allowed estimates to be obtained of both the opening (approximately 750s-1) and closing (approximately 500s-1) transition rates of these channels and of the mean lifetimes of the open- (approximately 2 ms) and the closed-channel state (approximately 200 mus) to which the open state was reversibly related.

Published

1982

145. How do you smell? Principle in question.

Author

Dionne VE

Subjects

Humans, Smell physiology

Published

1988