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肾上腺素和去甲肾上腺素都会刺激心脏α-肾上腺素能受体以诱导大鼠心房产生正性肌力作用吗?

Do both adrenaline and noradrenaline stimulate cardiac alpha-adrenoceptors to induce positive inotropy of rat atria?

作者信息

Williamson K L, Broadley K J

机构信息

Department of Pharmacology, Welsh School of Pharmacy, University of Wales College of Cardiff.

出版信息

Br J Pharmacol. 1989 Oct;98(2):597-611. doi: 10.1111/j.1476-5381.1989.tb12634.x.

DOI:10.1111/j.1476-5381.1989.tb12634.x
PMID:2555016
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1854741/
Abstract
  1. The positive inotropic responses of rat paced left atria to adrenaline and noradrenaline were recorded. Desmethylimipramine (DMI, 1 microM) and metanephrine (10 microM) were initially present throughout. 2. The positive chronotropic responses of spontaneously beating right atria to adrenaline were used as a reference. In these, pindolol, in increasing concentrations, caused progressive shift of the concentration-response curves to the right, which yielded a pA2 value (8.15) compatible with antagonism of beta-adrenoceptors. 3. The left atrial tension responses to adrenaline showed an initial progressive displacement by pindolol (up to 3 microM) which gave an unexpectedly low pA2 value (6.48). However, with further increases in pindolol concentration there was no additional shift of the curve. In the presence of pindolol (3 microM), prazosin (0.1 microM) displaced the curve to the right but the pA2 value derived from this shift (7.75) was less than expected for alpha 1-adrenoceptor antagonism. 4. When the experiments in the presence of pindolol (3 microM) were repeated in the absence of DMI, prazosin displaced the concentration-response curves for adrenaline-induced left atrial tension to a greater extent and the pA2 value (8.76) was now compatible with adrenaline stimulating typical alpha 1-adrenoceptors. 5. The concentration-response curves for noradrenaline-induced left atrial tension were also progressively displaced to the right by pindolol (0.1, 0.3 and 1.0 microM). These concentrations yielded a Schild plot of unity slope and a pA2 value of 7.94 +/- 0.04. This was not significantly different from the pA2 value of 8.02 +/- 0.07 determined for pindolol against isoprenaline in the left atria, which indicates a normal interaction of noradrenaline with beta-adrenoceptors in the absence and presence of low concentrations of pindolol. 6. A further increase in the concentration of pindolol to 3 microM failed to induce an additional shift of the noradrenaline curves, whether a 'before and after' antagonist or a 'naïve tissue' design was adopted. Similarly, the rightwards shift of the concentration-response curves by timolol reached a limit as the concentration was increased. In all cases the limit of shift occurred at a noradrenaline EC50 value of 5-10 microM. 7. At the limit of beta-adrenoceptor antagonism, prazosin and dibenamine did not displace the noradrenaline curves further. The residual inotropic response to noradrenaline therefore appeared to be mediated via neither alpha- nor beta-adrenoceptors. 8. DMI, in the absence of beta-blockade, produced the potentiation of adrenaline and noradrenaline expected of a neuronal uptake inhibitor. However, in the presence of pindolol, there was no potentiation of the right atrial rate response to adrenaline while its left atrial tension responses were antagonized. This suggested that DMI was acting as an alpha-adrenoceptor antagonist. It also explained the less-than-expected shift by prazosin of the adrenaline responses in the presence of both pindolol and DMI, the latter drug already exerting some alpha-blocking activity. In contrast, the left atrial tension responses to noradrenaline in the presence of pindolol (1 microM) were neither potentiated nor antagonized by DMI. 9. When the effects of prazosin upon left atrial tension responses to noradrenaline in the presence of pindolol (10 microM) were examined in the presence of a lower concentration of DMI (O.1 microM) or cocaine (1O microM), again there was no further shift of the curve. However, when the effect of prazosin) The Macmillan Press Ltd 1989 598 K.L. WILLIAMSON & K.J. BROADLEY was examined in the absence of DMI, but in the presence of pindolol (1 and 1O microM) or timolol (3 microM), there was a small shift of the curves by prazosin (0.1 microM). This yielded pA2 values of 7.19, 7.34 +/- 0.1 and 7.66 +/- 0.09, which were at least one order of magnitude less than literature values and that obtained with adrenaline (8.76 +/- 0.18), and are not consistent with noradrenaline stimulating an alpha 1-adrenoreceptor in the presence of beta-adrenoceptor blockade, the increase in left atrial tension by noradrenaline does not appear to be mediated by beta l- or typical alpha-adrenoceptors. This is in contrast to adrenaline which in these conditions stimulates typical alpha 1-adrenoceptors.
摘要
  1. 记录了大鼠起搏左心房对肾上腺素和去甲肾上腺素的正性肌力反应。实验全程均预先加入去甲丙咪嗪(DMI,1微摩尔)和间甲肾上腺素(10微摩尔)。2. 以自发搏动的右心房对肾上腺素的正性变时反应作为对照。在此实验中,随着吲哚洛尔浓度增加,浓度 - 反应曲线逐渐右移,得出的pA2值(8.15)符合β - 肾上腺素能受体拮抗作用。3. 左心房对肾上腺素的张力反应起初随吲哚洛尔(浓度达3微摩尔)逐渐右移,得出的pA2值出人意料地低(6.48)。然而,随着吲哚洛尔浓度进一步增加,曲线未再出现额外右移。在存在吲哚洛尔(3微摩尔)时,哌唑嗪(0.1微摩尔)使曲线右移,但由此得出的pA2值(7.75)低于α1 - 肾上腺素能受体拮抗作用预期值。4. 当在不存在DMI的情况下重复进行在吲哚洛尔(3微摩尔)存在时的实验时,哌唑嗪使肾上腺素诱导的左心房张力浓度 - 反应曲线右移程度更大,此时pA2值(8.76)符合肾上腺素刺激典型α1 - 肾上腺素能受体的情况。5. 吲哚洛尔(0.1、0.3和1.0微摩尔)也使去甲肾上腺素诱导的左心房张力浓度 - 反应曲线逐渐右移。这些浓度得出的Schild图斜率为1,pA2值为7.94±0.04。这与在左心房中测定的吲哚洛尔对异丙肾上腺素的pA2值8.02±0.07无显著差异,表明在不存在和存在低浓度吲哚洛尔时,去甲肾上腺素与β - 肾上腺素能受体正常相互作用。6. 无论采用“前后”拮抗剂设计还是“单纯组织”设计,将吲哚洛尔浓度进一步增至3微摩尔均未能使去甲肾上腺素曲线出现额外右移。同样,随着噻吗洛尔浓度增加,其使浓度 - 反应曲线右移程度达到极限。在所有情况下,右移极限均出现在去甲肾上腺素EC50值为5 - 10微摩尔时。7. 在β - 肾上腺素能受体拮抗作用极限时,哌唑嗪和二苄胺未使去甲肾上腺素曲线进一步右移。因此,去甲肾上腺素剩余的正性肌力反应似乎既非由α - 也非由β - 肾上腺素能受体介导。8. 在不存在β - 阻滞剂时,DMI产生了神经元摄取抑制剂预期的肾上腺素和去甲肾上腺素增强作用。然而,在存在吲哚洛尔时,右心房对肾上腺素的速率反应未增强,而其左心房张力反应受到拮抗。这表明DMI起α - 肾上腺素能受体拮抗剂作用。这也解释了在吲哚洛尔和DMI均存在时,哌唑嗪使肾上腺素反应右移程度低于预期,因为后一种药物已发挥一定的α - 阻滞活性。相比之下,在存在吲哚洛尔(1微摩尔)时,DMI对去甲肾上腺素诱导的左心房张力反应既未增强也未拮抗。9. 当在较低浓度DMI(0.1微摩尔)或可卡因(10微摩尔)存在下研究哌唑嗪对在吲哚洛尔(10微摩尔)存在时左心房对去甲肾上腺素的张力反应的影响时,曲线同样未进一步右移。然而,当在不存在DMI但存在吲哚洛尔(1和10微摩尔)或噻吗洛尔(3微摩尔)时研究哌唑嗪的作用时,哌唑嗪(0.1微摩尔)使曲线出现小幅度右移。得出的pA2值分别为7.19、7.34±0.1和7.66±0.09,这些值比文献值以及用肾上腺素得出的值(8.76±0.18)至少低一个数量级,并且与在β - 肾上腺素能受体阻滞存在时去甲肾上腺素刺激α1 - 肾上腺素能受体不符,去甲肾上腺素引起的左心房张力增加似乎并非由β1 - 或典型α - 肾上腺素能受体介导。这与在这些条件下肾上腺素刺激典型α1 - 肾上腺素能受体形成对比。

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Atypical beta-adrenoceptor on brown adipocytes as target for anti-obesity drugs.棕色脂肪细胞上的非典型β-肾上腺素能受体作为抗肥胖药物的靶点。
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Demonstration of an alpha adrenoceptor-mediated inotropic effect of norepinephrine in rabbit papillary muscle.去甲肾上腺素在兔乳头肌中α肾上腺素能受体介导的变力作用的证明。
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What role do alpha- and beta-adrenoceptors play in the regulation of the heart?α和β肾上腺素能受体在心脏调节中起什么作用?
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Qualitative differences between the inotropic responses in rat papillary muscles to alpha-adrenoceptor and beta-adrenoceptor stimulation by both noradrenaline and adrenaline.去甲肾上腺素和肾上腺素对大鼠乳头肌α-肾上腺素能受体和β-肾上腺素能受体刺激的变力性反应之间的质的差异。
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