Long Samantha, Romani Andrea Mp
Department of Physiology and Biophysics, School of Medicine, Case Western Reserve University, USA.
Austin J Nutr Food Sci. 2014 Nov 18;2(10).
Magnesium is required for many of the major organs to function and plays a crucial role in human and mammalian physiology. Magnesium is essential for the structure of bones and teeth, acts as a cofactor for more than 300 enzymes in the body, including binding to ATP for kinase reactions, and affects permeability of excitable membranes and neuromuscular transmission. Despite these essential roles, much is still unknown about magnesium physiology and homeostasis. Currently, nutritionists believe that the general population intakes insufficient magnesium daily through the diet. The effects of magnesium deficiency are, for the most part undetected, and simple, widespread assessments of magnesium intake remain unavailable for humans. Many of the patients admitted to hospitals or medical care facilities are unaware of their low magnesium levels. Moreover, because magnesium is predominantly an intracellular cation (>99%), serum magnesium levels remain a poor predictor of tissue magnesium content and availability. This review will discuss the effects of magnesium deficiency in various pathologies affecting the human population. The underlying causes for magnesium depletion in major physiological systems will be examined along with the involved signaling pathways and the main roles of magnesium homeostasis. Where possible (e.g. alcoholism), the implications of administering supplemental magnesium will be discussed. Ultimately, this review will advocate for the necessity of identifying easy and reproducible methods to assess serum and cellular magnesium levels and to identify magnesium deficiency in order to alleviate related pathological conditions.
许多主要器官的正常运作都需要镁,镁在人类和哺乳动物的生理学中起着至关重要的作用。镁对骨骼和牙齿的结构至关重要,是体内300多种酶的辅助因子,包括与ATP结合以参与激酶反应,并影响可兴奋膜的通透性和神经肌肉传递。尽管镁有这些重要作用,但关于镁的生理学和体内平衡仍有许多未知之处。目前,营养学家认为普通人群通过饮食每日摄入的镁不足。镁缺乏的影响在很大程度上未被察觉,而且针对人类的简单、广泛的镁摄入量评估方法仍然不可用。许多入住医院或医疗保健机构的患者并未意识到自己的镁水平较低。此外,由于镁主要是一种细胞内阳离子(>99%),血清镁水平仍然不能很好地预测组织镁含量和可利用性。本综述将讨论镁缺乏在影响人类的各种病理状况中的作用。将研究主要生理系统中镁耗竭的潜在原因,以及相关的信号通路和镁稳态的主要作用。在可能的情况下(如酗酒),还将讨论补充镁的影响。最终,本综述将倡导有必要确定简单且可重复的方法来评估血清和细胞镁水平,并识别镁缺乏,以缓解相关的病理状况。