组成型β2-肾上腺素能信号增强肌浆网Ca2+循环以增强小鼠心脏收缩。
Constitutive beta2-adrenergic signalling enhances sarcoplasmic reticulum Ca2+ cycling to augment contraction in mouse heart.
作者信息
Zhou Y Y, Song L S, Lakatta E G, Xiao R P, Cheng H
机构信息
Laboratory of Cardiovascular Science, Gerontology Research Center, National Institute on Aging, National Institutes of Health, Baltimore, MD 21224, USA.
出版信息
J Physiol. 1999 Dec 1;521 Pt 2(Pt 2):351-61. doi: 10.1111/j.1469-7793.1999.00351.x.
Abstract
- Transgenic overexpression of the beta2-adrenergic receptor (beta2AR) in mouse heart augments baseline cardiac function in a ligand-independent manner, due to the presence of spontaneously active beta2AR (beta2AR*). This study aims to elucidate the mechanism of beta2AR*-mediated modulation of cardiac excitation-contraction (EC) coupling. 2. Confocal imaging was used to analyse Ca2+ sparks and spatially resolve Ca2+ transients in single ventricular myocytes from transgenic (TG4) and non-transgenic (NTG) littermates. Whole-cell voltage- and current-clamp techniques were used to record L-type Ca2+ currents (ICa) and action potentials, respectively. 3. In the absence of any beta2AR ligand, TG4 myocytes had greater contraction amplitudes, larger Ca2+ transients and faster relaxation times than did NTG cells. 4. The action potentials of TG4 and NTG myocytes were similar, except for a prolonged end-stage repolarization in TG4 cells; the ICa density and kinetics were nearly identical. The relationship between peak Ca2+ and contraction, which reflects myofilament Ca2+ sensitivity, was similar. 5. In TG4 cells, the frequency of Ca2+ sparks (spontaneous or evoked at -40 mV) was 2-7 times greater, despite the absence of change in the resting Ca2+, sarcoplasmic reticulum (SR) Ca2+ content, and ICa. Individual sparks were brighter, broader and lasted longer, leading to a 2.3-fold greater signal mass. Thus, changes in both spark frequency and size underlie the greater Ca2+ transient in TG4 cells. 6. The inverse agonist ICI 118,551 (ICI, 5 x 10-7 M), which blocks spontaneous beta2AR activation, reversed the aforementioned beta2AR* effects on cardiac EC coupling without affecting the sarcolemmal ICa. However, ICI failed to detect significant constitutive beta2AR activity in NTG cells. 7. We conclude that beta2AR*-mediated signalling enhances SR release channel activity and Ca2+-induced Ca2+ release in TG4 cardiac myocytes, and that beta2AR* enhances EC coupling by reinforcing SR Ca2+ cycling (release and reuptake), but bypassing the sarcolemmal ICa.
摘要
- 由于存在自发激活的β2肾上腺素能受体(β2AR*),β2肾上腺素能受体(β2AR)在小鼠心脏中的转基因过表达以非配体依赖的方式增强了基线心脏功能。本研究旨在阐明β2AR介导的心脏兴奋 - 收缩(EC)偶联调节机制。2. 共聚焦成像用于分析转基因(TG4)和非转基因(NTG)同窝小鼠单个心室肌细胞中的Ca2+火花,并在空间上解析Ca2+瞬变。全细胞电压钳和电流钳技术分别用于记录L型Ca2+电流(ICa)和动作电位。3. 在没有任何β2AR配体的情况下,TG4肌细胞比NTG细胞具有更大的收缩幅度、更大的Ca2+瞬变和更快的舒张时间。4. TG4和NTG肌细胞的动作电位相似,只是TG4细胞的终末期复极化延长;ICa密度和动力学几乎相同。反映肌丝Ca2+敏感性的峰值Ca2+与收缩之间的关系相似。5. 在TG4细胞中,尽管静息Ca2+、肌浆网(SR)Ca2+含量和ICa没有变化,但Ca2+火花(自发的或在-40 mV诱发的)频率高2 - 7倍。单个火花更亮、更宽且持续时间更长,导致信号质量增加2.3倍。因此,火花频率和大小的变化是TG4细胞中更大Ca2+瞬变的基础。6. 反向激动剂ICI 118,551(ICI,5×10-7 M)可阻断β2AR的自发激活,逆转上述β2AR对心脏EC偶联的影响,而不影响肌膜ICa。然而,ICI未能在NTG细胞中检测到明显的组成性β2AR活性。7. 我们得出结论,β2AR介导的信号传导增强了TG4心肌细胞中的SR释放通道活性和Ca2+诱导的Ca2+释放,并且β2AR通过加强SR Ca2+循环(释放和再摄取)但绕过肌膜ICa来增强EC偶联。
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