Lorenzen-Schmidt Ilka, Stuyvers Bruno D, ter Keurs Henk E D J, Date Moto-o, Hoshijima Masahiko, Chien Kenneth R, McCulloch Andrew D, Omens Jeffrey H
Department of Bioengineering, University of California, San Diego, La Jolla, CA 92093-0412, USA.
J Mol Cell Cardiol. 2005 Aug;39(2):241-50. doi: 10.1016/j.yjmcc.2005.05.006.
Targeted deletion of cytoskeletal muscle LIM protein (MLP) in mice consistently leads to dilated cardiomyopathy (DCM) after one or more months. However, next to nothing is known at present about the mechanisms of this process. We investigated whether diastolic performance including passive mechanics and systolic behavior are altered in 2-week-old MLP knockout (MLPKO) mice, in which heart size, fractional shortening and ejection fraction are still normal. Right ventricular trabeculae were isolated from 2-week-old MLPKO and wildtype mice and placed in an apparatus that allowed force measurements and sarcomere length measurements using laser diffraction. During a twitch from the unloaded state at 1 Hz, MLPKO muscles relengthened to slack length more slowly than controls, although the corresponding force relaxation time was unchanged. Active developed stress at a diastolic sarcomere length of 2.00 microm was preserved in MLPKO trabeculae over a wide range of pacing frequencies. Force relaxation under the same conditions was consistently prolonged compared with wildtype controls, whereas time to peak and maximum rate of force generation were not significantly altered. Ca2+ content of the sarcoplasmic reticulum (SR) and the quantities of Ca2+ handling proteins were similar in both genotypes. In summary, young MLPKO mice revealed substantial alterations in passive myocardial properties and relaxation time, but not in most systolic characteristics. These results indicate that the progression to heart failure in the MLPKO model may be driven by diastolic myocardial dysfunction and abnormal passive properties rather than systolic dysfunction.
在小鼠中靶向删除细胞骨架肌肉LIM蛋白(MLP),持续一个或多个月后会导致扩张型心肌病(DCM)。然而,目前对于这一过程的机制几乎一无所知。我们研究了在2周龄的MLP基因敲除(MLPKO)小鼠中舒张功能(包括被动力学和收缩行为)是否发生改变,此时这些小鼠的心脏大小、缩短分数和射血分数仍属正常。从2周龄的MLPKO小鼠和野生型小鼠中分离出右心室小梁,将其置于一种可通过激光衍射进行力测量和肌节长度测量的仪器中。在1Hz频率下从无负荷状态开始的单次收缩过程中,MLPKO肌肉的再伸长至松弛长度的速度比对照组慢,尽管相应的力松弛时间未变。在较宽的起搏频率范围内,MLPKO小梁在舒张期肌节长度为2.00微米时的主动产生应力得以保留。与野生型对照组相比,相同条件下的力松弛持续延长,而达到峰值的时间和最大力产生速率未发生显著改变。两种基因型的肌浆网(SR)钙含量和钙处理蛋白数量相似。总之,年轻的MLPKO小鼠在被动心肌特性和松弛时间方面出现了显著改变,但大多数收缩特性未变。这些结果表明,MLPKO模型中向心力衰竭的进展可能是由舒张期心肌功能障碍和异常的被动特性驱动的,而非收缩功能障碍。