Magnesium Is a Key Regulator of the Balance between Osteoclast and Osteoblast Differentiation in the Presence of Vitamin D3
Int. J. Mol. Sci. 2019, 20(2), 385; https://doi.org/10.3390/ijms20020385 (registering DOI)
Fabiana Mammoli 1,†, Sara Castiglioni 2, Sandra Parenti 3,4, Concettina Cappadone 5, Giovanna Farruggia 5,6, Stefano Iotti 5,6, Pierpaola Davalli 7, Jeanette A.M. Maier 2, Alexis Grande 7,* and Chiara Frassineti 7
(This article belongs to the Special Issue Magnesium in Differentiation and Development)
Items in both categories Magnesium and Bone are listed here:
- Magnesium helps bones a bit – meta-analysis Jan 2022
- Magnesium increases Vitamin D, which increases Mg. Both increase bone – Oct 2019
- Vitamin D and Calcium do not increase bone density (also need exercise, Mg, K2, protein etc.) – RCT Aug 2019
- Many seniors do not get enough protein, Vitamin D, Mg, etc. needed for bones – Feb 2019
- More Magnesium makes more bone when there is enough Vitamin D (petri dish) – Jan 2019
- Diagnosis and treatment of osteopenia – Holick 2010
- Adding just vitamin D again failed to add bone density (also need Magnesium, Vitamin K, etc) – RCT Aug 2018
- MAGNESIUM IN MAN - IMPLICATIONS FOR HEALTH AND DISEASE – review 2015
- Stronger bones after 3 generations of tap water (more Ca and Mg) vs bottled water – March 2015
- Bones grow better with high level of magnesium: rat study – Dec 2013
- 20 percent fewer male hip fractures if more Magnesium in the water – July 2013
- Magnesium may be more important to kids’ bone health than calcium – May 2013
- Healthy bones need: Calcium, Vitamin D, Magnesium, Silicon, Vitamin K, and Boron – 2012
- Vitamin D, K2, Magnesium, etc increase bone density when taking together– Jan 2012
- 400 IU of vitamin D Magnesium and Calcium helped Twin bones – Feb 2011
Download the PDF from VitaminDWiki
Magnesium (Mg) is crucial for bone health. Low concentrations of Mg inhibit the activity of osteoblasts while promoting that of osteoclasts, with the final result of inducing osteopenia. Conversely, little is known about the effects of high concentrations of extracellular Mg on osteoclasts and osteoblasts. Since the differentiation and activation of these cells is coordinated by vitamin D3 (VD3), we investigated the effects of high extracellular Mg, as well as its impact on VD3 activity, in these cells. U937 cells were induced to osteoclastic differentiation by VD3 in the presence of supra-physiological concentrations (>1 mM) of extracellular Mg. The effect of high Mg concentrations was also studied in human bone-marrow-derived mesenchymal stem cells (bMSCs) induced to differentiate into osteoblasts by VD3. We demonstrate that high extra-cellular Mg levels potentiate VD3-induced osteoclastic differentiation, while decreasing osteoblastogenesis. We hypothesize that Mg might reprogram VD3 activity on bone remodeling, causing an unbalanced activation of osteoclasts and osteoblasts.