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Myosin light chain phosphorylation and the cross-bridge cycle at low substrate concentration in chemically skinned guinea pigTaenia coli (1985)

Hellstrand, Per ; Arner, Anders

Springer

Pflügers Archiv 405 (1985), S. 323-328

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ISSN: 1432-2013

Keywords: Smooth muscle ; ATP ; ATP-γ-S ; Ca2+ ; Force-velocity relation ; Energetics

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Force-velocity relations, rate of ATP turnover (JATP), and phosphorylation of the 20,000 D myosin light chains (LC20) were measured in chemically skinned guinea pigTaenia coli. Relative LC20 phosphorylation at 3.2 mM MgATP was 17% in relaxed tissues at pCa 9, and increased with force at increasing [Ca2+] to a maximum of 67% at pCa 4.5. Force at pCa 4.5 was dependent on the MgATP concentration with a half-maximal response at about 0.1 mM. At 0.1 mM MgATP LC20 phosphorylation at pCa 4.5 was 38%. Both JATP and the maximal shortening velocity (V max) were reduced in 0.1 mM MgATP, to 32% and 43%, respectively, of their values at 3.2 mM MgATP. Low-MgATP thus inhibits both LC20 phosphorylation and the extent and rate of cross-bridge interaction. High levels of LC20 phosphorylation, independent of Ca2+ and MgATP concentrations, were obtained by treatment with ATP-γ-S. Maximal force at 3.2 mM MgATP after LC20 thiophosphorylation was unchanged, whereas halfmaximal force occurred at 0.065 mM MgATP after thiophosphrylation, compared to 0.13 mM after activation by Ca2+. The contraction in thiophosphorylated preparations at low-MgATP (0.1 mM) was associated with submaximalV max (60%) and JATP (27%). The results show that LC20 phosphorylation is correlated with the degree of force development in the Ca2+ activated contraction, both when Ca2+ and MgATP concentrations are varied. The reduced force and rate of crossbridge turnover in lowMgATP are however primarily mediated by an influence of MgATP on the cross-bridge cycle, which is separate from the effect on LC20 phosphorylation.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00595684

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Contractile properties of skinned preparations from ischaemic canine myocardium and coronary arteries (1993)

Arner, Anders ; Bialojan, Corinna ; Brückner, Uwe B. ; [et al.]

Springer

Pflügers Archiv 425 (1993), S. 82-89

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ISSN: 1432-2013

Keywords: Myocardial ischaemia ; Myocardium ; Vascular smooth muscle ; Dog ; Contractile proteins ; Calcium dependence ; Myosin phosphorylation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The influence of prolonged ischaemia on the regulation of contraction in the myocardium and in the smooth muscle of coronary arteries was investigated. Chemically skinned preparations were used which enabled the contraction to be studied with the environment of the contractile filaments controlled. Myocardial ischaemia was produced in anaesthetized adult beagle dogs by occlusion of the left anterior descending artery for 3 h and followed by 30 min reperfusion. Myocardial tissue and segments from coronary arteries were obtained from the ischaemic infarcted wall region (“in vivo ischaemic”) and compared with control preparations from perfused coronary arteries and from the free wall of the left ventricle. Coronary and myocardial preparations were also obtained from the heart after a 3 h period in vitro under anoxic conditions at 37°C (“in vitro ischaemic”) simulating a state of extreme ischaemia. Control myocardial fibres were fully relaxed at pCa (-log-[Ca2+]) 9 and developed 24±5% (n=7) of maximum force at intermediate calcium concentration (pCa 5.5). In contrast, the in vivo and in vitro ischaemic preparations produced force at pCa 9 (28±13 and 39±8%, respectively, n=5 and 7) and showed an increased force development at pCa 5.5 (53±11 and 75±5%). The in vivo and in vitro ischaemic coronary arteries relaxed more slowly following calcium removal than control vessels. The in vitro ischaemic vascular preparations developed active force at pCa 9 and showed increased levels of myosin light chain phosphorylation and reduced phosphatase activity. This suggests a reduced rate of dephosphorylation as a cause for the changes in contracile behaviour of the smooth muscle. In conclusion, extreme ischaemia in vitro is associated with a loss of calcium regulation and an increased calcium sensitivity of the contractile system in myocardium and changes in the phosphorylation/dephosphorylation reactions of coronary arteries. The changes in myocardium appear to occur also during ischaemia in vivo, and might contribute to contracture development in cells under conditions when adenosine triphosphate synthesis is reestablished after reperfusion.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00374507

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