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一氧化氮可利用性改变对大鼠收缩期间肌肉微血管氧合的影响。

Effects of altered nitric oxide availability on rat muscle microvascular oxygenation during contractions.

作者信息

Ferreira L F, Padilla D J, Williams J, Hageman K S, Musch T I, Poole D C

机构信息

Clarenburg Research Laboratory, Department of Anatomy and Physiology, Kansas State University, Manhattan, KS 66506-5802, USA.

出版信息

Acta Physiol (Oxf). 2006 Mar;186(3):223-32. doi: 10.1111/j.1748-1716.2006.01523.x.

DOI:10.1111/j.1748-1716.2006.01523.x
PMID:16497201
Abstract

AIM

To explore the role of nitric oxide (NO) in controlling microvascular O2 pressure (P(O2)mv) at rest and during contractions (1 Hz). We hypothesized that at the onset of contractions sodium nitroprusside (SNP) would raise P(O2)mv and slow the kinetics of P(O2)mv change whereas l-nitro arginine methyl ester (L-NAME) would decrease P(O2)mv and speed its kinetics.

METHODS

We superfused the spinotrapezius muscle of female Sprague-Dawley rats (n = 7, body mass = 298 +/- 10 g) with SNP (300 microM) and L-NAME (1.5 mm) and measured P(O2)mv (phosphorescence quenching) during contractions.

RESULTS

SNP decreased mean arterial pressure (92 +/- 5 mmHg) below that of control (CON, 124 +/- 4 mmHg) and L-NAME (120 +/- 4 mmHg) conditions. SNP did not raise P(O2)mv at rest but it did elevate the P(O2)mv-to-MAP ratio (50% increase, P < 0.05) and slow the kinetics by lengthening the time-delay (TD, 14.0 +/- 5.0 s) and time constant (tau, 24.0 +/- 10.0 s) of the response compared with CON (TD, 8.4 +/- 3.3 s; tau, 16.0 +/- 4.5 s, P < 0.05 vs. SNP). L-NAME decreased P(O2)mv at rest and tended to speed tau (10.1 +/- 3.8 s, P = 0.1), while TD (8.1 +/- 1.0 s) was not significantly different. L-NAME also caused P(O2)mv to fall transiently below steady-state contracting values.

CONCLUSIONS

These results indicate that NO availability can significantly affect P(O2)mv at rest and during contractions and suggests that P(O2)mv derangements in ageing and chronic disease conditions may potentially result from impairments in NO availability.

摘要

目的

探讨一氧化氮(NO)在静息及收缩(1赫兹)过程中对微血管氧分压(P(O2)mv)的调控作用。我们假设在收缩开始时,硝普钠(SNP)会升高P(O2)mv并减缓P(O2)mv变化的动力学过程,而L-硝基精氨酸甲酯(L-NAME)会降低P(O2)mv并加快其动力学过程。

方法

我们用SNP(300微摩尔)和L-NAME(1.5毫摩尔)对雌性Sprague-Dawley大鼠(n = 7,体重 = 298 ± 10克)的斜方肌进行灌流,并在收缩过程中测量P(O2)mv(磷光猝灭)。

结果

SNP使平均动脉压(92 ± 5毫米汞柱)低于对照组(CON,124 ± 4毫米汞柱)和L-NAME组(120 ± 4毫米汞柱)的水平。SNP在静息时并未升高P(O2)mv,但确实提高了P(O2)mv与平均动脉压的比值(增加50%,P < 0.05),并通过延长反应的时间延迟(TD,14.0 ± 5.0秒)和时间常数(tau,24.0 ± 10.0秒)减缓了动力学过程,与CON组相比(TD,8.4 ± 3.3秒;tau,16.0 ± 4.5秒,与SNP相比P < 0.05)。L-NAME在静息时降低了P(O2)mv,并倾向于加快tau(10.1 ± 3.8秒,P = 0.1),而TD(8.1 ± 1.0秒)无显著差异。L-NAME还导致P(O2)mv短暂降至稳态收缩值以下。

结论

这些结果表明,NO的可利用性可在静息及收缩过程中显著影响P(O2)mv,并提示衰老和慢性疾病状态下P(O2)mv的紊乱可能潜在地源于NO可利用性的损害。

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