Translational mechanisms accelerate the rate of protein synthesis during canine pressure-overload hypertrophy.

American Journal of Physiology Pub Date : 1999-12-01 DOI:10.1152/ajpheart.1999.277.6.H2176

Y Nagatomo, B A Carabello, M Hamawaki, S Nemoto, T Matsuo, P J McDermott

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引用次数: 2

Abstract

This study examined how translational mechanisms regulate the rate of cardiac protein synthesis during canine pressure overload in vivo. Acute aortic stenosis (AS) was produced by inflating a balloon catheter in the ascending aorta for 6 h; sustained AS was created by controlled banding of the ascending aorta. AS caused significant hypertrophy as reflected by increased left ventricular (LV) mass after 5 and 10 days. To monitor LV protein synthesis in vivo, myosin heavy chain (MHC) synthesis was measured by continuous infusion of radiolabeled leucine. Acute AS accelerated the rate of myosin synthesis without a corresponding increase in ribosomal RNA, indicating an increase in translational efficiency. Total MHC synthesis (mg MHC/LV per day) was significantly increased at 5 and 10 days of sustained AS. Total MHC degradation was not significantly altered at 5 days of AS but increased at 10 days of AS in concordance with a new steady state with respect to growth. Translational capacity (mg total RNA/LV) was significantly increased after 5 and 10 days of AS and was preceded by an increase in the rate of ribosome formation. MHC mRNA levels remained unchanged during AS. These findings demonstrate that cardiac protein synthesis is accelerated in response to pressure overload by an initial increase in translational efficiency, followed by an adaptive increase in translational capacity during sustained hypertrophic growth.

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翻译机制加速了犬压力过载肥厚期间蛋白质合成的速率。

本研究探讨了翻译机制如何调节犬体内压力过载时心脏蛋白合成的速率。将球囊导管在升主动脉内充气6小时，产生急性主动脉狭窄(AS);持续AS是通过控制升主动脉捆扎而产生的。5和10天后，AS引起了显著的肥厚，反映在左心室(LV)重量增加。为了监测左室蛋白的体内合成，通过连续输注放射性标记亮氨酸来测定肌球蛋白重链(MHC)的合成。急性AS加速了肌球蛋白的合成速度，但核糖体RNA没有相应增加，表明翻译效率提高。总MHC合成(mg MHC/LV / day)在持续AS的第5天和第10天显著增加。总MHC降解在第5天没有显著改变，但在第10天增加，与生长的新稳定状态一致。翻译能力(mg总RNA/LV)在AS作用5天和10天后显著增加，并在此之前增加了核糖体的形成速度。AS期间MHC mRNA水平保持不变。这些发现表明，在压力过载的情况下，心脏蛋白质合成会通过最初的翻译效率增加而加速，随后在持续的肥厚生长过程中，翻译能力会出现适应性的增加。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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American Journal of Physiology

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