Magnesium (Mg2+): Essential Mineral for Neuronal Health: From Cellular Biochemistry to Cognitive Health and Behavior Regulation

Abstract

Magnesium (Mg²⁺) is a crucial mineral involved in numerous cellular processes critical for neuronal health and function. This review explores the multifaceted roles of Mg²⁺, from its biochemical interactions at the cellular level to its impact on cognitive health and behavioral regulation. Mg²⁺ acts as a cofactor for over 300 enzymatic reactions, including those involved in ATP synthesis, nucleic acid stability, and neurotransmitter release. It regulates ion channels, modulates synaptic plasticity, and maintains the structural integrity of cell membranes, which are essential for proper neuronal signaling and synaptic transmission. Recent studies have highlighted the significance of Mg²⁺ in neuroprotection, showing its ability to attenuate oxidative stress, reduce inflammation, and mitigate excitotoxicity, thereby safeguarding neuronal health. Furthermore, Mg²⁺ deficiency has been linked to a range of neuropsychiatric disorders, including depression, anxiety, and cognitive decline. Supplementation with Mg²⁺, particularly in the form of bioavailable compounds such as Magnesium-L-Threonate (MgLT), Magnesium-Acetyl-Taurate (MgAT), and other Magnesium salts, has shown some promising results in enhancing synaptic density, improving memory function, and alleviating symptoms of mental health disorders. This review highlights significant current findings on the cellular mechanisms by which Mg²⁺ exerts its neuroprotective effects and evaluates clinical and preclinical evidence supporting its therapeutic potential. By elucidating the comprehensive role of Mg²⁺ in neuronal health, this review aims to underscore the importance of maintaining optimal Mg²⁺ levels for cognitive function and behavioral regulation, advocating for further research into Mg²⁺ supplementation as a viable intervention for neuropsychiatric and neurodegenerative conditions.

Keywords: Magnesium (Mg2+); bioavailability; cognitive function; cognitive impairment; magnesium supplementation; mental health; mood disorders; neurodegenerative diseases.; neurological function; neuronal health; neuroprotection; synaptic plasticity.