DPI 201-106对哺乳动物工作心肌产生正性肌力作用和延迟舒张的机制:对细胞内钙处理的影响
Mechanisms of positive inotropic effects and delayed relaxation produced by DPI 201-106 in mammalian working myocardium: effects on intracellular calcium handling.
作者信息
Kihara Y, Gwathmey J K, Grossman W, Morgan J P
机构信息
Charles A. Dana Research Institute, Boston, Massachusetts.
出版信息
Br J Pharmacol. 1989 Apr;96(4):927-39. doi: 10.1111/j.1476-5381.1989.tb11904.x.
Abstract
- We used the bioluminescent protein aequorin, which emits light when it combines with Ca2+, to test the hypothesis that the inotropic and lusitropic actions of DPI 201-106 are due to changes in intracellular Ca2+ handling in papillary muscles from ferrets and guinea-pigs. 2. DPI 201-106 increased peak isometric tension (T) in a dose-dependent manner, with an 83% increase in T as the concentration of DPI 201-106 was increased to 1 x 10(-5) M; however, peak [Ca2+]i did not increase significantly until the concentration of DPI 201-106 reached 3 x 10(-6) M, suggesting a sensitization of the contractile apparatus to Ca2+. 3. Tetrodotoxin (1 x 10(-6) M), which did not reduce the tension response significantly before DPI 201-106, decreased both [Ca2+]i and T in the presence of 1 x 10(-5) M DPI 201-106, suggesting involvement of a sodium channel activation mechanism; however, tetrodotoxin did not completely reverse the calcium sensitization. 4. The shift of the [Ca2+]i versus T relationship was not observed in the presence of another sodium channel agonist, veratridine (3 x 10(-7)-1 x 10(-6) M). 5. In the guinea-pig, DPI 201-106 markedly prolonged relaxation of tension (increase of 60% in the time from peak to 50% tension regression), which was accompanied by the appearance of a second component in the aequorin light signal; effects on relaxation were less prominent in the ferret. 6. Tension prolongation and the second component of the [Ca2+]i transient in the guinea-pig were exacerbated by increased [Ca2+]o and decreased by tetrodotoxin. Ryanodine (3 x 10(-7) M) markedly diminished the calcium transient in controls and the initial component of the calcium transient in the presence of DPI 201-106, but had only a modest effect on the second component. 7. We conclude that although sodium agonism plays a role, sensitization of the contractile apparatus to Ca2+ is an important mechanism in the positive inotropic action of DPI 201-106. 8. The negative lusitropic action of DPI 201-106 varies between ferret and guinea-pig, possibly reflecting differences between these two species in subcellular Ca2+ handling.
摘要
- 我们使用了生物发光蛋白水母发光蛋白,其在与Ca2+结合时会发光,以检验以下假设:DPI 201 - 106的正性肌力和负性变时作用是由于雪貂和豚鼠乳头肌细胞内Ca2+处理的变化所致。2. DPI 201 - 106以剂量依赖性方式增加等长收缩峰值张力(T),当DPI 201 - 106浓度增加至1×10(-5) M时,T增加83%;然而,直到DPI 201 - 106浓度达到3×10(-6) M时,[Ca2+]i峰值才显著增加,这表明收缩装置对Ca2+敏感。3. 河豚毒素(1×10(-6) M)在DPI 201 - 106之前并未显著降低张力反应,但在存在1×10(-5) M DPI 201 - 106时会降低[Ca2+]i和T,提示涉及钠通道激活机制;然而,河豚毒素并未完全逆转钙敏化。4. 在存在另一种钠通道激动剂藜芦碱(3×10(-7) - 1×10(-6) M)时,未观察到[Ca2+]i与T关系的改变。5. 在豚鼠中,DPI 201 - 106显著延长张力松弛时间(从峰值到50%张力恢复时间增加60%),同时水母发光蛋白光信号中出现第二个成分;在雪貂中对松弛的影响较小。6. 豚鼠中张力延长和[Ca2+]i瞬变的第二个成分在细胞外Ca2+增加时加剧,在河豚毒素存在时减弱。Ryanodine(3×10(-7) M)在对照组中显著减少钙瞬变,在存在DPI 201 - 106时减少钙瞬变的初始成分,但对第二个成分只有适度影响。7. 我们得出结论,虽然钠激动作用起一定作用,但收缩装置对Ca2+的敏感化是DPI 201 - 106正性肌力作用的重要机制。8. DPI 201 - 106的负性变时作用在雪貂和豚鼠之间有所不同,这可能反映了这两个物种在亚细胞Ca2+处理方面的差异。
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