糖尿病-代谢预处理在保护心脏免受缺血性损伤中的作用?

IF 0.7 Q4 ENDOCRINOLOGY & METABOLISM Diabetes Mellitus Pub Date : 2022-12-28 DOI:10.14341/dm12933
D. Kondratieva, S. Afanasiev, E. Muslimova
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引用次数: 0

摘要

糖尿病(DM)对心血管系统的负面影响已被大量临床研究证实。然而,有实验研究表明,糖尿病动物心脏对缺血和再灌注损伤的抵抗能力增强,其特点是梗死区面积较小,心肌收缩功能保存较好,缺血性和再灌注心律失常发生率较低。假设在糖尿病发展的某个阶段,形成了一个“代谢窗口”,在这个窗口中,细胞水平的代谢改变触发了适应性机制,增加了心肌细胞的活力。已发表的数据证实,DM诱导的保护作用的大小与预处理现象相当,在某些情况下甚至超过了预处理现象的作用。人们认识到,在糖尿病的背景下,保护心脏免受缺血和再灌注损伤的机制是普遍的,并且与抗氧化系统、凋亡因子、促炎细胞因子和确保细胞存活的信号系统的调节有关。糖尿病的主要致病因素之一是高血糖,但在应激状态下,它起着一种适应机制,旨在满足病理状态下增加的能量需求。可能,在糖尿病的某一阶段,高血糖成为保护作用发展的触发因素,不仅激活信号通路,而且激活能量代谢的重组,使ATP的产生维持在足够的水平,以维持缺血/再灌注条件下心脏细胞的重要活动。这是可能的,葡萄糖水平的增加,伴随着胰岛素进入细胞的非依赖性机制的激活,以及这种能量底物的可用性,将有助于梗死后心脏细胞更好地恢复能量生产,这反过来又将显著降低心肌损伤程度,并有助于保持心脏的收缩功能。确定DM诱导的心肌保护现象的条件和机制,将有可能模拟实现心肌细胞免受损伤因素保护的代谢状态。
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Diabetes mellitus — metabolic preconditioning in protecting the heart from ischemic damage?
The negative impact of diabetes mellitus (DM) on the cardiovascular system has been confirmed by numerous clinical studies. However, there are experimental studies that show an increase in the resistance of the heart to ischemic and reperfusion damage in animals with DM. This phenomenon is characterized by a smaller size of the infarct zone, better preservation of the contractile function of the myocardium, and a lower incidence of ischemic and reperfusion arrhythmias. It is assumed that at a certain stage in the development of DM, a “metabolic window” is formed, in which metabolic alterations at the cellular level trigger adaptive mechanisms that increase the viability of cardiomyocytes. Published data confirm that the magnitude of the protective effect induced by DM is comparable to, and in some cases even exceeds, the effect of the preconditioning phenomenon. It is recognized that the mechanisms that protect the heart from ischemic and reperfusion damage against the background of DM are universal and are associated with the modulation of the antioxidant system, apoptosis factors, pro-inflammatory cytokines, and signaling systems that ensure cell survival. The one of the main pathogenic factor in DM is hyperglycemia, but under stress it plays the role of an adaptive mechanism aimed at meeting the increased energy demand in pathological conditions. Probably, at a certain stage of DM, hyperglycemia becomes a trigger for the development of protective effects and activates not only signaling pathways, but also the restructuring of energy metabolism, which makes it possible to maintain ATP production at a sufficient level to maintain the vital activity of heart cells under ischemia/reperfusion conditions. It is possible that an increased level of glucose, accompanied by the activation of insulin-independent mechanisms of its entry into cells, as well as the availability of this energy substrate, will contribute to a better restoration of energy production in heart cells after a infarction, which, in turn, will significantly reduce the degree of myocardial damage and will help preserve the contractile function of the heart. Identification of the conditions and mechanisms of the cardioprotective phenomenon induced by DM will make it possible to simulate the metabolic state in which the protection of cardiomyocytes from damaging factors is realized.
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来源期刊
Diabetes Mellitus
Diabetes Mellitus ENDOCRINOLOGY & METABOLISM-
CiteScore
1.90
自引率
40.00%
发文量
61
审稿时长
7 weeks
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