Similar properties of cGMP-activated channels between cones and rods in the carp retina

1991 ◽  
Vol 6 (6) ◽  
pp. 563-568 ◽  
Author(s):  
Shu-Ichi Watanabe ◽  
Motohiki Murakami
Keyword(s):  
Animal Species ◽  
Single Channel ◽  
Tiger Salamander ◽  
Membrane Hyperpolarization ◽  
Rods And Cones ◽  
Low Concentrations ◽  
Single Channel Currents ◽  
Channel Currents ◽  
Inside Out ◽  
Channel Properties

AbstractUsing patch-clamp techniques, properties of cGMP-activated channel were studied at a single-channel level in order to examine (1) whether any differences are recognized between the cGMP-activated channels of rods and cones in the same animal species, and (2) whether the channel properties of the same photoreceptor class differ in different animal species. Experiments were performed on inside-out membrane patches excised from outer segments of rods and morphological subtypes of cones in the carp retina. Single-channel activities could be recorded when the patches were perfused with low concentrations of cGMP (<10 μM). Throughout five morphological subtypes of cones and rod, single-channel currents showed no significant rectification at membrane hyperpolarization in a low divalent cation solution, and single-channel conductances were almost the same: 13.8 ± 0.2 pS (mean ± s.e.m., n = 23) in cones and 12.7 ± 0.8 pS (n = 3) in rods. These values were significantly smaller than that reported in catfish cones (about 50 pS), and that in rods of the toad and the tiger salamander (about 25 pS). In rods and all subtypes of cones of the carp, open durations of cGMP activated channels were brief. In addition, kinetic parameters of channel openings and closings showed no differences throughout all subtypes of cones and rod.

Anion channels for amino acids in MDCK cells

1992 ◽  
Vol 263 (6) ◽  
pp. C1200-C1207 ◽  
Author(s):  
U. Banderali ◽  
G. Roy
Keyword(s):  
Amino Acids ◽  
Single Channel ◽  
Mdck Cells ◽  
Reversal Potential ◽  
Patch Clamp Technique ◽  
Excised Patches ◽  
Single Channel Currents ◽  
Channel Currents ◽  
Inside Out ◽  
Cytoplasmic Side

Large losses of amino acids by diffusion were previously observed in Madin-Darby canine kidney (MDCK) cells during volume regulation. Also, an outward rectifying anion channel was activated. Because this channel was not selective among anions, it was suggested that it could be permeable to amino acids. Its permeability to aspartate, glutamate, and taurine was studied using the patch-clamp technique in the inside-out configuration. Solutions containing 500 mM aspartate or glutamate were used on the cytoplasmic side of excised patches to detect single-channel currents carried by these anions. Permeability ratios were estimated in two different ways: 1) from the shift in reversal potential of current-voltage curves after anion replacement in the bath solution and 2) from comparisons of amplitudes of single-channel currents carried by tested anions and chloride, respectively. The values of aspartate-to-chloride and glutamate-to-chloride permeability ratios obtained with both methods were quite consistent and were of the order of 0.2 for both amino acids. Taurine in solutions at physiological pH 7.3 is a zwitterionic molecule and bears no net charge. To detect single-channel currents carried by taurine, solutions containing 500 mM taurine at pH 8.2 were used in inside-out experiments. Under these conditions 120 mM of negatively charged taurine was present in the solutions bathing the cytoplasmic side of excised patches. The permeability ratio estimated from the shift in reversal potential was 0.75. These results showed that some of the organic compounds released by cells during regulatory volume decrease could diffuse through this outwardly rectifying anionic channel.

scholarly journals The nature and origin of spontaneous noise in G protein-gated ion channels.

1991 ◽  
Vol 97 (6) ◽  
pp. 1279-1293 ◽  
Author(s):  
K Okabe ◽  
A Yatani ◽  
A M Brown
Keyword(s):  
Ion Channels ◽  
G Protein ◽  
Single Channel ◽  
Coupled Systems ◽  
Dependent Manner ◽  
Protein Receptor ◽  
Spontaneous Noise ◽  
Single Channel Currents ◽  
Channel Currents ◽  
Inside Out

Arrival of agonist is generally thought to initiate the signal transduction process in G protein-receptor coupled systems. However, the muscarinic atrial K+ (K+[ACh]) channel opens spontaneously in the absence of applied agonist, giving a noisy appearance to the current records. We investigated the nature and origin of the noise by measuring single channel currents in cell-attached or excised, inside-out membrane patches. Guanosine triphosphate (GTP) produced identical single channel currents in a concentration- and Mg(2+)-dependent manner in the presence or absence of carbachol, but the requirements for GTP were greater in the absence of agonist. Hence the agonist-independent currents appeared to be produced by an endogenous G protein, Gk. This prediction was confirmed when an affinity-purified, sequence-specific Gi-3 alpha antibody or pertussis toxin (PTX) blocked the agonist-independent currents. Candidate endogenous agonists were ruled out by the lack of effect of their corresponding antagonists. Thus agonist-independent currents had the same nature as agonist-dependent K+[ACh] currents and seemed to originate in the same way. We have developed a hypothesis in which agonist-free, empty receptors prime Gk with GTP and Gk activates atrial K+ [ACh] channels producing basal currents or noise. Agonist-independent activation by G proteins of effectors including ion channels appears to be a common occurrence.

scholarly journals Inhibitors of asparagine-linked oligosaccharide processing alter the kinetics of the nicotinic acetylcholine receptor.

1989 ◽  
Vol 93 (5) ◽  
pp. 765-783 ◽  
Author(s):  
M Covarrubias ◽  
C Kopta ◽  
J H Steinbach
Keyword(s):  
Single Channel ◽  
Response Curves ◽  
Nicotinic Acetylcholine ◽  
Low Concentrations ◽  
Oligosaccharide Processing ◽  
Processing Step ◽  
Single Channel Currents ◽  
Channel Currents ◽  
Kinetics Of ◽  
Ach Receptors

We used selective inhibitors of the asparagine-linked oligosaccharide processing pathway to study the effect of sugar trimming on the functional properties of the nicotinic acetylcholine (ACh) receptor expressed in clonal mammalian BC3H-1 cells. Inhibitors of initial steps of the processing pathway (1-deoxynojirimycin[DNJ] and castanospermine[CS]) reduced the density of ACh receptors on the cell surface (3- to 5-fold) but their responsiveness to ACh was more reduced (5- to 10-fold). These results suggest that the function of the ACh receptor was altered. When the ACh receptors were expressed in the presence of DNJ or CS, analysis of ACh-evoked single-channel currents (-100 mV and 11 degrees C) revealed an approximate threefold reduction in the opening rate (control: 600-650 s(-1)), treated: 130-250 s(-1)) and an approximate twofold reduction in the rate of agonist dissociation (control: 900-1,000 s(-1), treated: 400-500 s(-1)). In addition, the proportion of brief duration bursts (tau = 50-100 microseconds) was increased (1.5- to 2-fold) by treatments with DNJ or CS. In contrast, an inhibitor of a late processing step (swainsonine) did not produce such alterations. The single-channel conductance was not altered by any of the three inhibitors, and the slopes of log-log dose-response curves at low concentrations and desensitization did not appear to be affected. Each inhibitor altered the electrophoretic mobility of the ACh receptor subunits. We conclude that early sugar trimming can influence the kinetics of the nicotinic ACh receptor in BC3H-1 cells.

scholarly journals Low pH Potentiates Both Capsaicin Binding and Channel Gating of VR1 Receptors

2003 ◽  
Vol 122 (1) ◽  
pp. 45-61 ◽  
Author(s):  
Sujung Ryu ◽  
Beiying Liu ◽  
Feng Qin
Keyword(s):  
Single Channel ◽  
Channel Gating ◽  
General Mechanism ◽  
Low Concentrations ◽  
Excised Patches ◽  
High Concentrations ◽  
Activation Pathways ◽  
Single Channel Currents ◽  
Channel Currents ◽  
Important Basis

Capsaicin ion channels are highly expressed in peripheral nervous terminals and involved in pain and thermal sensations. One characteristic of the cloned VR1 receptor is its multimodal responses to various types of noxious stimuli. The channel is independently activated by capsaicin and related vanilloids at submicromolar range, by heat above 40°C, and by protons at pH below 6.5. Furthermore, simultaneous applications of two or more stimuli lead to cross sensitization of the receptor, with an apparent increase in the sensitivity to any individual stimulus when applied alone. We studied here the mechanism underlying such cross-sensitization; in particular, between capsaicin and pH, two prototypical stimuli for the channel. By analyzing single-channel currents recorded from excised-patches expressing single recombinant VR1 receptors, we examined the effect of pH on burst properties of capsaicin activation at low concentrations and the effect on gating kinetics at high concentrations. Our results indicate that pH has dual effects on both capsaicin binding and channel gating. Lowering pH enhances the apparent binding affinity of capsaicin, promotes the occurrences of long openings and short closures, and stabilizes at least one of the open conformations of the channel. Our data also demonstrate that capsaicin binding and protonation of the receptor interact allosterically, where the effect of one can be offset by the effect of the other. These results provide important basis to further understand the nature of the activation pathways of the channel evoked by different stimuli as well as the general mechanism underling the cross-sensitization of pain.

A patch-clamp study of acetylcholine-activated ion channels in Ascaris suum muscle

1990 ◽  
Vol 154 (1) ◽  
pp. 201-221
Author(s):  
A. J. Pennington ◽  
R. J. Martin
Keyword(s):  
Patch Clamp ◽  
Single Channel ◽  
Ascaris Suum ◽  
Open Time ◽  
Sites Of Action ◽  
Single Channel Currents ◽  
Clamp Study ◽  
Channel Currents ◽  
Inside Out ◽  
Burst Time

Acetylcholine-activated single-channel currents were recorded from cell-attached and inside-out patches of isolated muscle vesicles from Ascaris suum. Acetylcholine (1–10 mumols l-1) activated cation-selective channels of two amplitudes: 40–50 pS and 25–35 pS. Both channels had linear I/V relationships and mean open durations independent of voltage. The larger conductance was analysed in detail to determine its open-, closed- and burst-time kinetics; the open and burst durations were composed of two components (short and long), while closed durations had at least three components (short, intermediate and long). The data were then corrected to allow for missing short events in order to estimate various parameters including corrected mean open time (1.26 + 0.11 ms, mean +/− S.E.). Values were also derived for the efficacy (beta/alpha = 4.9) and affinity [1/KD = 147 × 10(3) (mol l-1) −1] of acetylcholine at this receptor. Larger concentrations of acetylcholine (25–100 mumols l-1) were shown to produce desensitization and caused single-channel currents to occur in clusters with long closed times (mean 171 s) between clusters. It was concluded that the extrasynaptic muscle of Ascaris suum contains two types of acetylcholine-activated ion channel and these are possible sites of action of various anthelmintic drugs. This paper is the first to describe acetylcholine-activated single-channel currents in invertebrate muscle.

scholarly journals Intracellular pH modulates the availability of vascular L-type Ca2+ channels.

1994 ◽  
Vol 103 (4) ◽  
pp. 647-663 ◽  
Author(s):  
U Klöckner ◽  
G Isenberg
Keyword(s):  
Intracellular Ph ◽  
Single Channel ◽  
Surface Membrane ◽  
Life Time ◽  
Bicarbonate Buffer ◽  
State Changes ◽  
Channel Currents ◽  
Inside Out ◽  
Ca2 Channels

L-type Ca2+ channel currents were recorded from myocytes isolated from bovine pial and porcine coronary arteries to study the influence of changes in intracellular pH (pHi). Whole cell ICa fell when pHi was made more acidic by substituting HEPES/NaOH with CO2/bicarbonate buffer (pHo 7.4, 36 degrees C), and increased when pHi was made more alkaline by addition of 20 mM NH4Cl. Peak ICa was less pHi sensitive than late ICa (170 ms after depolarization to 0 mV). pHi-effects on single Ca2+ channel currents were studied with 110 mM BaCl2 as the charge carrier (22 degrees C, pHo 7.4). In cell-attached patches pHi was changed by extracellular NH4Cl or through the opened cell. In inside-out patches pHi was controlled through the bath. Independent of the method used the following results were obtained: (a) Single channel conductance (24 pS) and life time of the open state were not influenced by pHi (between pHi 6 and 8.4). (b) Alkaline pHi increased and acidic pHi reduced the channel availability (frequency of nonblank sweeps). (c) Alkaline pHi increased and acidic pHi reduced the frequency of late channel re-openings. The effects are discussed in terms of a deprotonation (protonation) of cytosolic binding sites that favor (prevent) the shift of the channels from a sleepy to an available state. Changes of bath pHo mimicked the pHi effects within 20 s, suggesting that protons can rapidly permeate through the surface membrane of vascular smooth muscle cells. The role of pHi in Ca2+ homeostases and vasotonus is discussed.

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