Mast cells, peptides and cardioprotection – an unlikely marriage?

S. K. Walsh, K. A. Kane, C. L. Wainwright
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引用次数: 12

Abstract

1 Mast cells have classically been regarded as the ‘bad guys’ in the setting of acute myocardial ischaemia, where their released contents are believed to contribute both to tissue injury and electrical disturbances resulting from ischaemia. Recent evidence suggests, however, that if mast cell degranulation occurs in advance of ischaemia onset, this may be cardioprotective by virtue of the depletion of mast cell contents that can no longer act as instruments of injury when the tissue becomes ischaemic.

2 Many peptides, such as ET-1, adrenomedullin, relaxin and atrial natriuretic peptide, have been demonstrated to be cardioprotective when given prior to the onset of myocardial ischaemia, although their physiological functions are varied and the mechanisms of their cardioprotective actions appear to be diverse and often ill defined. However, one common denominator that is emerging is the ability of these peptides to modulate mast cell degranulation, raising the possibility that peptide-induced mast cell degranulation or stabilization may hold the key to a common mechanism of their cardioprotection.

3 The aim of this review was to consolidate the evidence implying that mast cell degranulation could play both a detrimental and protective role in myocardial ischaemia, depending upon when it occurs, and that this may underlie the cardioprotective effects of a range of diverse peptides that exerts physiological effects within the cardiovascular system.

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肥大细胞、多肽和心脏保护——不可能的联姻?
肥大细胞通常被认为是急性心肌缺血的“坏人”,其释放的内容物被认为是缺血导致组织损伤和电干扰的原因。然而,最近的证据表明,如果肥大细胞脱颗粒发生在缺血发作之前,这可能是由于肥大细胞内容物的消耗而具有心脏保护作用,当组织缺血时,肥大细胞内容物不再作为损伤工具。2许多多肽,如ET-1、肾上腺髓质素、松弛素和房利钠肽,已被证明在心肌缺血发作前给予心脏保护作用,尽管它们的生理功能各不相同,其心脏保护作用的机制似乎多种多样,而且往往不明确。然而,一个正在出现的共同点是这些肽调节肥大细胞脱颗粒的能力,提高了肽诱导肥大细胞脱颗粒或稳定的可能性,这可能是它们保护心脏的共同机制的关键。3本综述的目的是巩固肥大细胞脱颗粒可能在心肌缺血中发挥有害和保护作用的证据,这取决于它发生的时间,这可能是一系列不同肽在心血管系统中发挥生理作用的心脏保护作用的基础。
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Issue Information Autonomic and Autacoid Pharmacology: Goodbye and thank you Attenuation of the anti-contractile effect of cooling in the rat aorta by perivascular adipose tissue Retraction: Dopamine receptor immunohistochemistry in the rat choroid plexus. Issue Information
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