Abstract Title:

Magnesium decreases inflammatory cytokine production: a novel innate immunomodulatory mechanism.

Abstract Source:

J Immunol. 2012 Jun 15 ;188(12):6338-46. Epub 2012 May 18. PMID: 22611240

Abstract Author(s):

Jun Sugimoto, Andrea M Romani, Alice M Valentin-Torres, Angel A Luciano, Christina M Ramirez Kitchen, Nicholas Funderburg, Sam Mesiano, Helene B Bernstein

Article Affiliation:

Department of Reproductive Biology, Case Western Reserve University School of Medicine, Cleveland, OH 44106, USA.


MgSO(4) exposure before preterm birth is neuroprotective, reducing the risk of cerebral palsy and major motor dysfunction. Neonatal inflammatory cytokine levels correlate with neurologic outcome, leading us to assess the effect of MgSO(4) on cytokine production in humans. We found reduced maternal TNF-α and IL-6 production following in vivo MgSO(4) treatment. Short-term exposure to a clinically effective MgSO(4) concentration in vitro substantially reduced the frequency of neonatal monocytes producing TNF-α and IL-6 under constitutive and TLR-stimulated conditions, decreasing cytokine gene andprotein expression, without influencing cell viability or phagocytic function. In summary, MgSO(4) reduced cytokine production in intrapartum women, term and preterm neonates, demonstrating effectiveness in those at risk for inflammation-associated adverse perinatal outcomes. By probing the mechanism of decreased cytokine production, we found that the immunomodulatory effect was mediated by magnesium and not the sulfate moiety, and it was reversible. Cellular magnesium content increased rapidly upon MgSO(4) exposure, and reduced cytokine production occurred following stimulation with differentTLR ligands as well as when magnesium was added after TLR stimulation, strongly suggesting that magnesium acts intracellularly. Magnesium increased basal IĸBα levels, and upon TLR stimulation was associated with reduced NF-κB activation and nuclear localization. These findings establish a new paradigm for innate immunoregulation, whereby magnesium plays a critical regulatory role in NF-κB activation, cytokine production, and disease pathogenesis.

Study Type : Review

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