新型鱼精蛋白变体对左心室衰竭时心肌细胞收缩功能的不同影响。
Differential effects of novel protamine variants on myocyte contractile function with left ventricular failure.
作者信息
Cox M H, O S J, Clair M J, Mukherjee R, Wakefield T W, Andrews P C, Stanley J C, Crawford F A, Spinale F G
机构信息
Division of Cardiothoracic Surgery, Medical University of South Carolina, Charleston 29425, USA.
出版信息
Surgery. 1997 Mar;121(3):304-13. doi: 10.1016/s0039-6060(97)90359-7.
BACKGROUND
Protamine administration can cause left ventricular (LV) dysfunction, which may have clinical significance in the setting of congestive heart failure (CHF). Protamine variants have recently been constructed with heparin reversal capacity similar to protamine. The purpose of this study was to examine the potential differential effects of these protamine variants on isolated myocyte contractile function in normal myocytes and in myocytes after the development of CHF.
METHODS
Contractile function was measured by means of computer-aided videomicroscopy in myocytes from five normal pigs and five pigs with CHF induced by rapid pacing (240 beats/min for 3 weeks). Myocyte contractility was examined in the presence of 40 micrograms/ml native protamine or one of three protamine variants: (1) reduced charge (+18) and lysine substituted for arginine; (2) lysine-substituted variant with glutamic acid substituted for the initial proline; or (3) arginine-rich peptide with a terminal arginine-glycine-aspartic acid (RGD) amino acid sequence.
RESULTS
In the presence of native protamine, myocyte percent shortening fell from baseline in both the normal (2.86 +/- 0.15 versus 4.58 +/- 0.08, p < 0.05) and the CHF groups (1.01 +/- 0.06 versus 2.07 +/- 0.05, p < 0.05). With both of the lysine-substituted protamine variants, percent shortening fell from baseline in the normal group (3.42 +/- 0.20 for arginine and 3.74 +/- 0.20 for glutamic acid versus 4.58 +/- 0.08, p < 0.05), and was unchanged in the CHF group (1.94 +/- 0.13 versus 2.07 +/- 0.05, p = 0.34 for arginine; and 1.96 +/- 0.10 versus 2.07 +/- 0.05, p = 0.31, for glutamic acid). However, with the arginine/RGD variant, percent shortening fell from baseline in both the normal (2.86 +/- 0.23 versus 4.58 +/- 0.08, p < 0.05) and the CHF groups (1.32 +/- 0.10 versus 2.07 +/- 0.05, p < 0.05).
CONCLUSIONS
Specific changes in the primary and secondary structures of protamine had different effects on myocyte contractile function. Furthermore, the negative effects of lysine-substituted protamine variants on myocyte contractility were less pronounced in both CHF and normal myocytes. Thus protamine variants may be of clinical use, particularly in the setting of preexisting LV dysfunction.
背景
鱼精蛋白的应用可导致左心室(LV)功能障碍,这在充血性心力衰竭(CHF)患者中可能具有临床意义。最近构建的鱼精蛋白变体具有与鱼精蛋白相似的肝素中和能力。本研究的目的是检测这些鱼精蛋白变体对正常心肌细胞和CHF发生后心肌细胞的分离心肌细胞收缩功能的潜在差异影响。
方法
通过计算机辅助视频显微镜测量来自5只正常猪和5只通过快速起搏(240次/分钟,持续3周)诱导CHF的猪的心肌细胞的收缩功能。在存在40微克/毫升天然鱼精蛋白或三种鱼精蛋白变体之一的情况下检测心肌细胞收缩性:(1)电荷减少(+18)且赖氨酸取代精氨酸;(2)赖氨酸取代变体,其中谷氨酸取代初始脯氨酸;或(3)具有末端精氨酸-甘氨酸-天冬氨酸(RGD)氨基酸序列的富含精氨酸的肽。
结果
在天然鱼精蛋白存在下,正常组(2.86±0.15对4.58±0.08,p<0.05)和CHF组(1.01±0.06对2.07±0.05,p<0.05)的心肌细胞缩短百分比均从基线下降。对于两种赖氨酸取代的鱼精蛋白变体,正常组的缩短百分比均从基线下降(精氨酸为3.42±0.20,谷氨酸为3.74±0.20对4.58±0.08,p<0.05),而CHF组则无变化(精氨酸为1.94±0.13对2.07±0.05,p = 0.34;谷氨酸为1.96±0.10对2.07±0.05,p = 0.31)。然而,对于精氨酸/RGD变体,正常组(2.86±0.23对4.58±0.08,p<0.05)和CHF组(1.32±0.10对2.07±0.05,p<0.05)的缩短百分比均从基线下降。
结论
鱼精蛋白一级和二级结构的特定变化对心肌细胞收缩功能有不同影响。此外,赖氨酸取代的鱼精蛋白变体对CHF和正常心肌细胞收缩性的负面影响均不明显。因此,鱼精蛋白变体可能具有临床应用价值,尤其是在已有LV功能障碍的情况下。
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