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The time course of the muscarinic response to ionophoretic acetylcholine application to the S-A node of the rabbit heart (1981)

Osterrieder, W. ; Yang, Q. ; Trautwein, W.

Springer

Pflügers Archiv 389 (1981), S. 283-291

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ISSN: 1432-2013

Keywords: S-A node ; Muscarinic response ; ACh-activated potassium channel ; Ionophoresis

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract 1. In the rabbit S-A node the factors which control the time course of hyperpolarizations (muscarinic response) induced by ionophoretic application of acetylcholine were studied. 2. The muscarinic response is characterized by an apparent delay of minimally 30 ms and a slow rise to the peak. The time to peak rises continually from about 200 ms to 1,000 ms when the amount of ACh released is increased. 3. For a given strong releasing pulse both peak time and delay time depend on the distance of the pipette tip to the surface of the preparation with a power of 2 for large distances (about 〉60 μm). For shorter pipette distances the peak time remains constant, and it was concluded that for this location the chemical reactions of agonist binding and channel opening are slow compared to the change of ACh concentration (non-equilibrium) and possibly saturation occurs. 4. Peak shape and total duration of the response are strongly influenced by the activity of the tissue cholinesterase: In the presence of neostigmine the same amount of ACh released produces a larger and longer response. Lowering the temperature from 37°C to 27°C prolongs the peak time by a factor of 1.7–2.1. 5. The hyperpolarizations could be reconstructed on the basis of the Katz-Miledi model including the rate constants of the opening and closing of the ion channel, and the diffusion of the agonist in the sinus node preparation with a low density of muscarinic receptors. The calculations suggest that the apparent delay is mainly due to the kinetics of the ion channel and that diffusion determines the slow time course of the response. 6. The model simulates changes of the external factors which strongly influence the shape of the response (e.g. strength of the releasing pulse, temperature and activity of the cholinesterase).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00584791

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Effects of barium on the membrane currents in the rabbit S-A node (1982)

Osterrieder, W. ; Yang, Q. -F. ; Trautwein, W.

Springer

Pflügers Archiv 394 (1982), S. 78-84

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ISSN: 1432-2013

Keywords: Barium ; S-A node ; Slow inward current ; K outward current

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In small preparations of rabbit sinoatrial node voltage clamp experiments with the two microelectrode technique were carried out. The effects of extracellular barium ions on the slow inward current and outward currents were studied and the following results were obtained: 1. Ba increased the amplitude of the slow inward current without a change in the time course of inactivation. In 10 mM Ba the steady-state inactivation curve (f∞) shifted in the positive direction (3–4 m V), suggesting a neutralization of negative surface charges. A similar shift of the steady state activation curve (d∞) could not be detected. 2. Ba reduced the amplitude of the time-dependent (IK, Ix) and time-independent (Ibg) potassium currents in a concentration-dependent manner. 3. The block of the time-dependent potassium current, IK, depended on the membrane potential. The block was stronger at negative than at positive potentials. The block could be relieved by depolarizing pulses, the degree of unblock increased with longer duration of the depolarizing pulse. 4. Ba blocked the slow outward current Ix in a voltage- and time-dependent manner. Like for IK, the block of Ix was stronger at negative than at positive potentials. A given concentration of Ba produced stronger block of Ix than of IK and the removal of block of Ix by depolarizing pulses was slower than the removal of IK block. 5. The effects of Ba on Ix suggest that this current is a potassium current.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01108311

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Conductance of the slow inward channel in the rabbit sinoatrial node (1982)

Osterrieder, W. ; Yang, Q. -F. ; Trautwein, W.

Springer

Pflügers Archiv 394 (1982), S. 85-89

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ISSN: 1432-2013

Keywords: S-A node ; Slow inward current ; Noise analysis ; Single channel conductance

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The elementary conductance of the slow inward current channel in the rabbit sinoatrial node was measured by analysis of the current fluctuations. The preparations were voltage-clamped to −30 mV, where d∞ and f∞ of the slow inward current (Isi) intersect. In the presence of Ba, which increases Isi and decreases outward currents, a small steadystate component of Isi could be detected. The fluctuations of the current in 10 mM Ba were smaller due to the block of the outward channels. They were further reduced after the inhibition of Isi by the Ca channel blocker D600. The spectral power density distribution of the current fluctuations originating from Isi could be fitted at frequencies 〈30 Hz with a single Lorentzian which was attributed to the inactivation process. The corner frequency was 5.28 ±1.16 Hz (n=10), corresponding to an average open time of the single channel of about 30 msec at −30mV. The single channel conductance was determined to 6.50±3.15 pS (S.D.,n=10).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01108312

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The electrophysiological basis of the bradycardic action of AQA 39 on the sinoatrial node (1981)

Osterrieder, W. ; Pelzer, D. ; Yang, Q. -f. ; [et al.]

Springer

Naunyn-Schmiedeberg's archives of pharmacology 317 (1981), S. 233-237

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ISSN: 1432-1912

Keywords: Rabbit sinoatrial node ; Transmembrane action potentials ; Slow inward current ; Potassium current ; Antimuscarinic effect

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The electrophysiological effects of the bradycardic agent AQA 39 (5,6-dimethoxy-2-[3-[[α-(3,4-dimethoxy) phenylethyl]methylamino]propyl]phthalimidine hydrochloride) on small preparations of the S-A node of the rabbit heart were investigated. The following results were obtained: 1. The decrease in the rate of the spontaneous preparation resulted from a lower rate of diastolic depolarization, a slower upstroke and a longer duration of the action potential. Concomitantly, overshoot and maximum diastolic potential were decreased. 2. The drug effect on rate strongly depended on the potential during diastole. AQA 39 acted stronger the more positive the maximum diastolic potential. 3. In voltage-clamp experiments, the membrane potential was held at −40 mV and transiently depolarized by square pulses to −10 mV. At a low pulsing rate (0.005 Hz), the main effect was a reduction of the time-dependent potassium current (I K); the slow inward current, (I si) was only slightly reduced. However, when the pulsing rate was increased to 1 Hz, a clear reduction of I si was observed. 4. When the block of Ca channels had reached a steady state during continuous pulsing in the presence of the drug, part of the block could be removed by rest periods, relief of block being dependent on the membrane potential during rest. At a fixed rest period of 45 s, relief of block was nearly complete for potentials negative to −55 mV, but negligible positive to −35 mV. 5. AQA 39 shifted the dose-response curve to ionophoretic application of acetylcholine to higher concentrations, suggesting a competitive action of the drug with acetylcholine at the muscarinic receptor.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00503823

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