Your search keyword '"Quandt, F."' showing total 4 results

1. Voltage-dependent gating and block of the cyclic-GMP-dependent current in bovine rod outer segments.

Author

Quandt FN, Nicol GD, and Schnetkamp PP

Subjects

Animals, Calcium Channels drug effects, Cattle, Membrane Potentials, Tetracaine pharmacology, Calcium metabolism, Calcium Channels physiology, Cyclic GMP physiology, Diltiazem pharmacology, Ion Channel Gating drug effects, Rod Cell Outer Segment physiology, Second Messenger Systems drug effects

Abstract

The properties of the cyclic-GMP-activated conductance in the plasma membrane of bovine rod outer segments were studied in excised membranes. Multiple-channel and single-channel currents were recorded by the patch-clamp technique in symmetrical NaCl solutions which were free of divalent cations. The current-voltage relationship for the current, recorded when a large population of channels was activated, exhibited outward rectification. Rectification decreased as the concentration of cyclic-GMP was increased, and the concentration of cyclic-GMP required for half maximal activation of the channel decreased with depolarization. At a concentration of 1-3 microM cyclic-GMP, single-channel activity could be observed from these excised patches. The conductance of the open channel was 6 pS and was independent of the membrane potential. These results are consistent with the interpretation that under these conditions, the mechanism responsible for the outward rectification is due to an increase in the probability of an open channel as the membrane is depolarized. The cyclic-GMP-activated current could be blocked by L-cis-diltiazem. Block was voltage and time dependent. The time constant for the onset of block and its steady state level increased with depolarization. The extent of block by diltiazem was not enhanced as the cyclic-GMP concentration was increased, suggesting that the channel is not required to be open for block to occur. Complete block was never attained even for high concentrations of diltiazem. However, the diltiazem-resistant component of the cyclic-GMP-activated current could be blocked by tetracaine.

Published

1991

2. Calcium spikes in toad rods.

Author

Fain GL, Gerschenfeld HM, and Quandt FN

Subjects

Action Potentials drug effects, Animals, Bufo marinus, Cations, Divalent pharmacology, Cations, Monovalent pharmacology, Electric Conductivity, Female, In Vitro Techniques, Membrane Potentials drug effects, Photoreceptor Cells drug effects, Potassium physiology, Tetraethylammonium Compounds pharmacology, Calcium physiology, Photoreceptor Cells physiology

Abstract

1. When the retina of the toad, Bufo marinus, was superfused with 6-12 mM-tetraethylammonium chloride (TEA), intracellular recordings from rods showed large, depolarizing regenerative potentials. For brief exposures to TEA, these potentials occurred during the recovery phase of the light responses; whereas, during longer exposures, they were spontaneous in darkness but suppressed during illumination. Similar regenerative potentials were observed during perfusion with 3-10 mM-4-aminopyridine and 1-2 mM-BaCl2. 2. The amplitude of the regenerative potentials depended upon the extracellular Ca concentration ([Ca2+]o). Lowering [Ca2+]o decreased their amplitude and in zero [Ca2+]o they were reversibly abolished. Increasing [Ca2+]o by 1.5-2 times produced a small hyperpolarization of membrane potential and a large augmentation in regenerative response amplitude. However, larger increases in [Ca2+]o produced large membrane hyperpolarizations and reversibly suppressed the regenerative responses. 3. High concentrations of Sr2+ in TEA also enhanced regenerative activity but did not affect the rod resting membrane potential. The amplitude of regenerative potentials increased continuously with increasing [Sr2+]o, and in 28 mM-Sr2+ the rods generated 60-70 mV action potentials, even in the absence of extracellular Na+. 4. The regenerative potentials were blocked by 25 microM-Cd2+, 50-100 microM-Co2+, 5mM-Mg2+, and 100 microM-D-600. They were unaffected by 2 microM-TTX or 2-5 mM-Na aspartate. 5. In Ringer containing 12 mM-TEA, large anode break responses could be recorded from rods at the termination of inward current pulses. These anode break responses were also suppressed by Co2+ and unaffected by TTX or Na aspartate. 6. We conclude that the membrane of toad rods contains a conductance normally selective for Ca2+, which is activated by depolarization. In normal Ringer, the inward current through this conductance produces little effect, since it is balanced by a large outward current, probably carried by K+. TEA and other agents appear to block this outward current, permitting the Ca2+ current to become regenerative.

Published

1980

3. Calcium activated potassium channels in cultured astrocytes.

Author

Quandt FN and MacVicar BA

Subjects

Animals, Astrocytes drug effects, Cell Membrane Permeability, Cells, Cultured, Ion Channels metabolism, Membrane Potentials drug effects, Rats, Tetraethylammonium Compounds pharmacology, Astrocytes metabolism, Calcium pharmacology, Ion Channels drug effects

Abstract

The patch clamp technique was used to analyze single channel currents in intact and excised patches of glial cell membranes grown in primary cultures from newborn rat brain. Glial cells were morphologically identified by immunohistochemical staining for glial fibrillary acidic protein. Outward currents due to single channels were observed in recordings from both intact and excised patches obtained from the cell body region. The channel responsible for these currents was preferentially permeable to K+ because the reversal potential for this current was correlated with changes in the potassium equilibrium potential, when experimentally altered. The single channel conductance was 25 pS when measured between -20 and +20 mV in solutions with physiological K+ concentrations (10 degrees C). Channel gating was dependent on both the internal Ca2+ concentration and the membrane potential. Either depolarization of the membrane patch, or the addition of increasing Ca2+ concentrations to the internal surface, increased the probability of channel opening. Tetraethylammonium reversibly blocked the channel whereas 4-aminopyridine had no effect. The characteristics exhibited by this channel indicate that a Ca2+-activated K+ channel is present in the membrane of astrocytes grown in culture. These results, combined with previous evidence for a voltage dependent Ca2+ channel, suggest a dynamic role for glial cells in controlling excitability in the central nervous system. Influx of Ca2+ upon depolarization would increase the membrane permeability to K+ and could increase the "buffering" capacity of glial cells for extracellular K+.

Published

1986

4. Calcium-dependent regenerative responses in rods.

Author

Fain GL, Quandt FN, and Gerschenfeld HM

Subjects

Action Potentials drug effects, Animals, Bufo marinus, Calcium metabolism, Electric Conductivity, In Vitro Techniques, Osmolar Concentration, Photic Stimulation, Photoreceptor Cells drug effects, Photoreceptor Cells metabolism, Tetraethylammonium Compounds pharmacology, Calcium physiology, Photoreceptor Cells physiology

Published

1977