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The effect of motilin on the electrical activity of rabbit circular duodenal muscle (1977)

Riemer, Jürgen ; Kölling, Klaus ; Mayer, Claus Jürgen

Springer

Pflügers Archiv 372 (1977), S. 243-250

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ISSN: 1432-2013

Keywords: Smooth muscle ; Duodenum ; Motilin ; Electrical activity ; Minute rhythm

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The effect of 13-norleucine motilin on electrical activity and membrane resistance of the rabbit circular duodenal muscle was studied with intracellular recording techniques. Electrical slow waves without spikes occurred in Krebs solution made twice hypertonic by addition of sucrose. The slow waves were basic organ specific type rhythm (BOR). Their mean frequency was 18.1·min−1, the mean amplitude from trough to peak was 11.4 mV and mean membrane potential during the trough was −59.1 mV. Motilin (1·10−7 g/ml) had the following effects: (1) The membrane depolarized by a mean of 10.9 mV. (2) Membrane resistance was reduced. (3) The BOR slow waves were either reduced or abolished. (4) Slow fluctuations of membrane potential characteristic of a minute-type rhythm (MR) appeared. (5) Trains of spikes occurred at the crests of the MR and were associated with contraction of the muscle.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01063859

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Dual effects of calcium ions on pacemaker activity in guinea-pig taenia coli (1975)

Reimer, Jürgen ; Mayer, Claus-Jürgen ; Ulbrecht, Gerhard

Springer

Pflügers Archiv 356 (1975), S. 19-31

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ISSN: 1432-2013

Keywords: Smooth Muscle ; Taenia coli ; Membrane Potential ; Calcium ; Pacemaker Activity

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The effects of various [Ca2+]0 tn membrane potential (MP), action potential (AP) frequency, and isometric tension of isolated guinea-pig taenia coli were studied using intracellular recording techniques and simultaneous tension measurement. At 5.9 mM [K+]0 the order of potency of [Ca2+]0 to increase AP frequency is 0.83〉2.5〉7.5 mM. At higher [K+]0 this order is gradually reversed since high [Ca2+]0 becomes more potent in accelerating impulse discharges. At 2.5 mM [Ca2+]0 the line relating MP to log [K+]0 is not straight; its slope for a tenfold change of [K+]0 is 21.1 mV in the range between 5.9 and 17.7 mM [K+]0, and 51.5 mV between 32.45 and 59 mM [K+]0. In general, reducing [Ca2+]0 depolarizes the membrane whereas increasing [Ca2+]0 hyperpolarizes it. The Ca2+-induced changes of MP are reduced at high [K+]0. At 2.5 and 7.5 mM [Ca2+]0 the lines relating AP frequency and tension to the MP are nearly superimposed. In contrast, at 0.83 mM [Ca2+]0 the line is shifted to lower frequency and tension for all MP values studied. In conclusion, in the range of low [Ca2+]0 the system underlying pacemaker activity seems to be dependent on Ca2+ in two ways: 1. by an indirect negative action mediated by an increase ofP $$P_{{\text{K}}^{\text{ + }} } $$ and by hyperpolarization of the membrane; 2. by a direct positive action which is not mediated by alterations of MP. In the range of normal and high [Ca2+]0 only potential-mediated Ca2+-effects determine AP frequency. The hypothesis is put forward that Ca2+ may carry the background inward current responsible for pacemaker activity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00583518

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Calcium-antagonistic effects on the spontaneous activity of guinea-pig taenia coli (1974)

Riemer, Jürgen ; Dörfler, Folker ; Mayer, Claus-Jürgen ; [et al.]

Springer

Pflügers Archiv 351 (1974), S. 241-258

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ISSN: 1432-2013

Keywords: Smooth Muscle ; Electro-Mechanical Coupling ; Iproveratril ; Action Potential ; Pacemaker Potential ; Ca Ions

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Iproveratril suppresses the amplitude of spontaneous and K-induced phasic contractions of isolated preparations of guinea-pig taenia coli. The dose-response curves obtained in Krebs solution with different Ca concentrations reveal a competitive antagonism between Ca and iproveratril. One molecule of iproveratril is able to antagonize about 8000 Ca ions. Intracellular measurements of electrical activity, recorded simultaneously with tension, indicate that the drug decreases contractile force primarily by reducing the frequency of action potentials. In addition, a slight impairment of electro-mechanical coupling may contribute to a further reduction of tension. Iproveratril suppresses the rate of rise and fall and the overshoot of the action potential and slows down the pacemaker potential preceding and initating the spike. These inhibiting effects are antagonized by increasing the extracellular Ca concentration. The membrane potential and its slow fluctuations (minute rhythm) appear to be rather resistant to the drug. These findings indicate that iproveratril suppresses the rate of spike discharges by impairing the mechanisms underlying the spike formation and the pacemaker potential. The results are consistent with the hypothesis that the spike may be carried by an inward current of Ca ions and support the concept that Ca is essential for pacemaker mechanism.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00586921

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Determination of membrane potential in smooth muscle cells using microelectrodes with reduced tip potential (1974)

Riemer, Jürgen ; Mayer, Claus-Jürgen ; Ulbrecht, Gerhard

Springer

Pflügers Archiv 349 (1974), S. 267-275

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ISSN: 1432-2013

Keywords: Smooth Muscle ; Microelectrodes ; Membrane Potential

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Conventionally 3 M KCl-filled, high resistance glass microelectrodes introduce large errors in the measurement of d.c. transmembrane potentials (MP) because of normally occurring tip potentials (TP). If, however, the 3 M KCl filling solution is adjusted to pH 2.0 with HCl, electrodes loose, almost entirely, the TP. Furthermore, the sensitivity of TP to the ionic composition of the test medium (0.125 M KCl and 0.125 M NaCl solution) is lost. Conventionally 3 M KCl-filled electrodes (pH 6.5) are found to have TP exceeding −30 mV in 0.125 M KCl solution. TP values measured in 0.125 M NaCl solution are about 29% higher than those measured in 0.125 M KCl solution. The MP of smooth muscle cells (isolated taenia coli of guinea-pig in modified Krebs solution at 32°C) determined using acidified electrodes shows an arithmetic mean of −51.2 mV with a S.D. of only 1.8 mV. However, MP determined by conventionally filled electrodes appears to be smaller by a variable amount. This reduction of MP is found to be linearly correlated over a wide range with the TP difference (Δ TP), as measured in the two test solutions. When comparing the MP determined by the two kinds of electrodes there is a good correlation provided that Δ TP is comparable. The results indicate that the reduction of MP determined by conventional electrodes is induced by their different TP in solutions of varying ionic composition. As a result, avoiding large TP by acidifying the filling solution can help to reduce TP-induced errors in MP measurements.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00592454

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