用或不用Ca2+激活的兔去皮肌纤维的等长力再发展。
Isometric force redevelopment of skinned muscle fibers from rabbit activated with and without Ca2+.
作者信息
Chase P B, Martyn D A, Hannon J D
机构信息
Department of Radiology, University of Washington, Seattle 98195.
出版信息
Biophys J. 1994 Nov;67(5):1994-2001. doi: 10.1016/S0006-3495(94)80682-4.
Fiber isometric tension redevelopment rate (kTR) was measured during submaximal and maximal activations in glycerinated fibers from rabbit psoas muscle. In fibers either containing endogenous skeletal troponin C (sTnC) or reconstituted with either purified cardiac troponin C (cTnC) or sTnC, graded activation was achieved by varying [Ca2+]. Some fibers were first partially, then fully, reconstituted with a modified form of cTnC (aTnC) that enables active force generation and shortening in the absence of Ca2+. kTR was derived from the half-time of tension redevelopment. In control fibers with endogenous sTnC, kTR increased nonlinearly with [Ca2+], and maximal kTR was 15.3 +/- 3.6 s-1 (mean +/- SD; n = 26 determinations on 25 fibers) at pCa 4.0. During submaximal activations by Ca2+, kTR in cTnC reconstituted fibers was approximately threefold faster than control, despite the lower (60%) maximum Ca(2+)-activated force after reconstitution. To obtain submaximal force with aTnC, eight fibers were treated to fully extract endogenous sTnC, then reconstituted with a mixture of a TnC and cTnC (aTnC:cTnC molar ratio 1:8.5). A second extraction selectively removed cTnC. In such fibers containing aTnC only, neither force nor kTR was affected by changes in [Ca2+]. Force was 22 +/- 7% of maximum control (mean +/- SD; n = 15) at pCa 9.2 vs. 24 +/- 8% (mean +/- SD; n = 8) at pCa 4.0, whereas kTR was 98 +/- 14% of maximum control (mean +/- SD; n = 15) at pCa 9.2 vs. 96 +/- 15% (mean +/- SD; n = 8) at pCa 4.0. Maximal reconstitution of fibers with aTnC alone increased force at pCa 9.2 to 69 +/- 5% of maximum control (mean + SD; n = 22 determinations on 13 fibers) and caused a small but significant reduction of kTR to 78 +/- 8% of maximum control (mean +/- SD; n = 22 determinations on 13 fibers); neither force nor krR was significantly affected by Ca>2(pCa 4.0). Taken together, we interpret our results to indicate that kTR reflects the dynamics of activation of individual thin filament regulatory units and that modulation of kTR by Ca> is effected primarily by Ca>+ binding to TnC.
在兔腰大肌甘油化纤维的次最大激活和最大激活过程中,测量了纤维等长张力再发展速率(kTR)。在含有内源性骨骼肌肌钙蛋白C(sTnC)或用纯化的心肌肌钙蛋白C(cTnC)或sTnC重构的纤维中,通过改变[Ca2+]实现分级激活。一些纤维首先用一种修饰形式的cTnC(aTnC)进行部分重构,然后完全重构,这种修饰形式的cTnC在没有Ca2+的情况下能够产生主动力并缩短。kTR由张力再发展的半衰期得出。在内源性sTnC的对照纤维中,kTR随[Ca2+]呈非线性增加,在pCa 4.0时最大kTR为15.3±3.6 s-1(平均值±标准差;对25根纤维进行26次测定)。在Ca2+引起的次最大激活过程中,cTnC重构纤维中的kTR比对照快约三倍,尽管重构后最大Ca(2+)激活力较低(60%)。为了用aTnC获得次最大力,对8根纤维进行处理以完全提取内源性sTnC,然后用TnC和cTnC的混合物(aTnC:cTnC摩尔比1:8.5)进行重构。第二次提取选择性地去除了cTnC。在仅含有aTnC的此类纤维中,力和kTR均不受[Ca2+]变化的影响。在pCa 9.2时,力为最大对照的22±7%(平均值±标准差;n = 15),而在pCa 4.0时为24±8%(平均值±标准差;n = 8),而在pCa 9.2时kTR为最大对照的98±14%(平均值±标准差;n = 15),在pCa 4.0时为96±15%(平均值±标准差;n = 8)。仅用aTnC对纤维进行最大程度的重构可使pCa 9.2时的力增加到最大对照的69±5%(平均值+标准差;对13根纤维进行22次测定),并使kTR小幅但显著降低至最大对照的78±8%(平均值±标准差;对13根纤维进行22次测定);Ca>2(pCa 4.0)对力和krR均无显著影响。综上所述,我们解释我们的结果表明kTR反映了单个细肌丝调节单位的激活动力学,并且Ca>对kTR的调节主要是通过Ca>+与TnC结合来实现的。
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