Repolarization-Induced Reactivation of Contracture Tension in Frog Skeletal Muscle

1973 ◽  
Vol 51 (5) ◽  
pp. 324-334 ◽  
Author(s):  
J. G. Foulks ◽  
J. A. D. Miller ◽  
Florence A. Perry
Keyword(s):  
Skeletal Muscle ◽  
Relaxation Rate ◽  
Frog Skeletal Muscle ◽  
Maximum Tension ◽  
Long Duration ◽  
High K ◽  
Regulation Of Contraction ◽  
Low K ◽  
Dependent Processes

In solutions containing perchlorate in place of chloride frog toe muscles or small bundles of semitendinosus fibers undergo maximum potassium (K) contractures of long duration at low [K]0 (5–10 mM). After relaxation at high [K]0, large protracted "reactivation" contractures (70–90% of maximum tension) again develop when repolarization is accomplished by a reduction of [K]0 to 2.5–10 mM. Somewhat smaller contractures also appear during repolarization at lower perchlorate concentrations (8–12 mM). The effects of perchlorate include disproportionate shifts in the relation between log [K]0 and K-contracture tension, and between log [K]0 and relaxation rate. Similar but smaller effects are observed in the presence of 1 mM caffeine or 1.5 mM chloroform. These observations implicate at least two potential-dependent processes in the regulation of contraction in frog twitch muscle.

Unidirectional flux ratio for potassium ions in depolarized frog skeletal muscle

1981 ◽  
Vol 241 (1) ◽  
pp. C68-C75 ◽  
Author(s):  
B. C. Spalding ◽  
O. Senyk ◽  
J. G. Swift ◽  
P. Horowicz
Keyword(s):  
Skeletal Muscle ◽  
Membrane Potential ◽  
Flux Ratio ◽  
External Solution ◽  
Resting Potential ◽  
Frog Skeletal Muscle ◽  
High K ◽  
Sigmoidal Curve ◽  
K Concentration ◽  
Low K

Small bundles of frog skeletal muscle fibers were loaded with 305 mM K+ and 120 mM Cl-, and 42K+ tracer efflux and influx were measured as a function of external K+ concentration ([K+]o) at a resting potential of -2 mV. As [K+]o was lowered from 305 mM, efflux decreased along a markedly sigmoidal curve, reaching a constant nonzero value at low [K+]o. Influx varied linearly with [K+]o at low [K+]o and more steeply at higher [K+]o. The ratio of influx to efflux was described by the equation: influx/efflux = exp[-n(V - VK)F/RT] with n = 2 at high [K+]o, but the ratio approached this equation with n = 1 at low [K+]o. Efflux did not depend on [K+]o when the membrane potential was raised to +36 mV, whereas at low [K+]o decreasing the membrane potential to -19 mV further activated the efflux. The results are discussed in terms of an inwardly rectifying potassium channel with two or more activating sites within the membrane that bind K+ and are accessible from the external solution.

Parvalbumin relaxes frog skeletal muscle when sarcoplasmic reticulum Ca(2+)-ATPase is inhibited

1996 ◽  
Vol 270 (2) ◽  
pp. C411-C417 ◽  
Author(s):  
Y. Jiang ◽  
J. D. Johnson ◽  
J. A. Rall
Keyword(s):  
Skeletal Muscle ◽  
Sarcoplasmic Reticulum ◽  
Relaxation Rate ◽  
Time Course ◽  
Muscle Fibers ◽  
Peak Force ◽  
Half Time ◽  
Frog Skeletal Muscle ◽  
Twitch Force ◽  
Total Failure

Inhibition of sarcoplasmic reticulum (SR) Ca(2+)-adenosinetriphosphatase (ATPase) with 2,5-di-(tert-butyl)-1,4-benzohydroquinone (TBQ) in frog skeletal muscle fibers at 10 degrees C prolonged the half time of the fall of the Ca2+ transient by 62% and twitch force by 100% and increased peak force by 120% without increasing the amplitude of the Ca2+ signal. In the presence of TBQ the rate of relaxation and the rate of fall of Ca2+ became progressively slower in a series of twitches until relaxation failed. Relaxation rate decreased with a time course (approximately 2 s-1) similar to the Mg2+ off rate from purified parvalbumin (PA; 3.6 s-1). TBQ slowed the rate of fall of Ca2+ (5-fold) and force (8-fold) in a 0.3-s tetanus so that the rate of fall of Ca2+ (approximately 2.5 s-1) was similar to the Mg2+ off rate from PA. TBQ caused a near total failure of both Ca2+ sequestration and relaxation in a 1.1-s tetanus, during which PA would be saturated with Ca2+ and could not contribute to relaxation. Thus, when the SR Ca(2+)-ATPase is inhibited, Mg(2+)-PA can sequester Ca2+ and produce relaxation at a rate that is defined by the Mg2+ off rate from PA.

Restoration of the Ability of Frog Skeletal Muscle to Develop Potassium Contractures in Calcium-Deficient Media

1973 ◽  
Vol 51 (5) ◽  
pp. 335-343 ◽  
Author(s):  
J. G. Foulks ◽  
J. A. D. Miller ◽  
Florence A. Perry
Keyword(s):  
Skeletal Muscle ◽  
Contractile Function ◽  
Divalent Cations ◽  
Frog Skeletal Muscle ◽  
Free Media ◽  
Dependent Processes

A number of agents were tested for their ability to restore potassium (K) contractures in calcium-free media. Effective agents included caffeine, chloroform, more polar permeant anions (e.g. nitrate and perchlorate) in place of external chloride, as well as divalent cations, e.g. Mg2+. The presence of sufficient EGTA to preclude significant increases in [Ca]0 did not affect the extent of K contracture restoration produced by these agents. The loss of K contracture capacity in calcium-free media, and its restoration by effective agents, appear to be related to the disproportionate effect of these procedures on the relation between log [K]0 and the potential-dependent processes which regulate contractile function.

K+-stimulated sugar uptake in skeletal muscle: role of cytoplasmic Ca2+

1983 ◽  
Vol 245 (1) ◽  
pp. C125-C132 ◽  
Author(s):  
P. Valant ◽  
D. Erlij
Keyword(s):  
Skeletal Muscle ◽  
Protein Synthesis ◽  
Cytochalasin B ◽  
Sugar Transport ◽  
Sugar Uptake ◽  
Frog Skeletal Muscle ◽  
High K ◽  
K Concentration ◽  
External K

We have compared the effects of insulin with those of elevated external K+ concentration ([K+]o) on sugar uptake and protein synthesis by frog skeletal muscle. When [K+]o was between 0.5 and 15 mM there were no effects on uptake; however, when 20 mM was used a significant increase was observed. Further increases in [K+]o caused larger stimulations of uptake. The stimulation persisted for 2.5 h after washing the high [K+]o. The stimulations caused by both insulin and high K+ were markedly inhibited by cytochalasin B. Dantrolene nearly abolished the response to high K+, whereas it had only minor effects on the resting sugar uptake and on the stimulations caused by either insulin or epinephrine. These results suggest that while both insulin and high K+ activate the cytochalasin-sensitive transport system of sugar transport, each agent must act through a different pathway, because only the effects of high K+ were dantrolene sensitive. The effect of dantrolene suggests that the enhancement of sugar transport caused by high K+ is due to an increase of cytoplasmic Ca2+. In contrast to insulin, high K+ did not modify the rate of protein synthesis.

Ultra-Rapid Freezing of Isolated Skeletal Muscle Fibers

1977 ◽  
Vol 35 ◽  
pp. 576-577
Author(s):  
Joachim R. Sommer ◽  
Nancy R. Wallace
Keyword(s):  
Skeletal Muscle ◽  
Sarcoplasmic Reticulum ◽  
Granular Material ◽  
Nuclear Envelope ◽  
Intracellular Calcium ◽  
Ruthenium Red ◽  
Threshold Concentration ◽  
Rapid Freezing ◽  
Frog Skeletal Muscle ◽  
Electrical Isolation

After Howell (1) had shown that ruthenium red treatment of fixed frog skeletal muscle caused collapse of the intermediate cisternae of the sarcoplasmic reticulum (SR), forming a pentalaminate structure by obi iterating the SR lumen, we demonstrated that the phenomenon involves the entire SR including the nuclear envelope and that it also occurs after treatment with other cations, including calcium (2,3,4).From these observations we have formulated a hypothesis which states that intracellular calcium taken up by the SR at the end of contraction causes the M rete to collapse at a certain threshold concentration as the first step in a subsequent centrifugal zippering of the free SR toward the junctional SR (JSR). This would cause a) bulk transport of SR contents, such as calcium and granular material (4) into the JSR and, b) electrical isolation of the free SR from the JSR.

Electron Probe Analysis of Muscle

1982 ◽  
Vol 40 ◽  
pp. 398-401
Author(s):  
A. V. Somlyo ◽  
H. Shuman ◽  
A. P. Somlyo
Keyword(s):  
Skeletal Muscle ◽  
Smooth Muscle ◽  
Sarcoplasmic Reticulum ◽  
Resting State ◽  
Binding Sites ◽  
Electron Probe ◽  
Frog Skeletal Muscle ◽  
Electron Probe Analysis ◽  
Probe Analysis

Electron probe analysis of frozen dried cryosections of frog skeletal muscle, rabbit vascular smooth muscle and of isolated, hyperpermeab1 e rabbit cardiac myocytes has been used to determine the composition of the cytoplasm and organelles in the resting state as well as during contraction. The concentration of elements within the organelles reflects the permeabilities of the organelle membranes to the cytoplasmic ions as well as binding sites. The measurements of [Ca] in the sarcoplasmic reticulum (SR) and mitochondria at rest and during contraction, have direct bearing on their role as release and/or storage sites for Ca in situ.

Electron Probe Analysis of Vertebrate Smooth Muscle: Distribution of Ca and Ci

1976 ◽  
Vol 34 ◽  
pp. 334-335 ◽  
Author(s):  
Avril V. Somlyo ◽  
H. Shuman ◽  
A.P. Somlyo
Keyword(s):  
Smooth Muscle ◽  
Electron Probe ◽  
Preliminary Report ◽  
Cell Damage ◽  
Electron Probe Analysis ◽  
Perinuclear Space ◽  
Probe Analysis ◽  
High K ◽  
Low K ◽  
Initial Results

This is a preliminary report of electron probe analysis of rabbit portal-anterior mesenteric vein (PAMV) smooth muscle cryosectioned without fixation or cryoprotection. The instrumentation and method of electron probe quantitation used (1) and our initial results with cardiac (2) and skeletal (3) muscle have been presented elsewhere.In preparations depolarized with high K (K2SO4) solution, significant calcium peaks were detected over the sarcoplasmic reticulum (Fig 1 and 2) and the continuous perinuclear space. In some of the fibers there were also significant (up to 200 mM/kg dry wt) calcium peaks over the mitochondria. However, in smooth muscle that was not depolarized, high mitochondrial Ca was found in fibers that also contained elevated Na and low K (Fig 3). Therefore, the possibility that these Ca-loaded mitochondria are indicative of cell damage remains to be ruled out.

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