Molecular Approaches for Optimizing Vitamin D (one size does not fit all) – Carlberg

Created December 2015

Molecular Approaches for Optimizing Vitamin D Supplementation

Vitamins & Hormones, online 30 November 2015

Carsten Carlberg carsten.carlberg@uef.fi

VitaminDWiki quick-read comment on the study

Genes are responsible for much of the individual variation in response to vitamin D.

Author introduces a concept of a vitamin D Index which could be made based on before/after measurements of vitamin D levels along with before/after DNA analysis of 4 – 20 genes (to measure affect of Vitamin D intervention).

If a loading dose is used the vitamin D tests could be closely spaced (a few days to a week or so).

Quotes from the PDF

VitDmet (NCT01479933 small study of mRNA expression in peripheral blood mononuclear cells (PBM) Carlberg et al., 2013
- “study subjects differed significantly by responding only to 29% to 83% of all. This allowed a segregation of the study subjects into high and low responders”
VitDbol (NCT02063334 – 2,000 IU reported in Vukic et al., 2015
“each human individual displays a personal response to vitamin D”
“it is advisable to measure at least twice a person’s vitamin D status together with a number of molecular and clinical parameter”
“The response to vitamin D supplementation varies considerably from individual to individual and depends on many factors, such as baseline level, adiposity, and genotype, i.e., a “one dose fits all” approach is not anymore appropriate ”

What appears to be missing in the study
No numbers from the study about how big the factors actually are
No indication of influence of Vitamin D Receptor inside cells – which is not measured by ANY vitamin D test
No mention of importance of cofactors (Magnesium, Omega-3, etc) on the vitamin D response
No indication of response variation from alternate sources of vitamin D (topical, gut friendly, active vitamin D, etc)
No indication of affects of genes not in the blood – e.g. prostrate, skin, breast, etc.

📄 Download the PDF from Sci-Hub via VitaminDWiki

Bibliography includes the following
Carlberg, C. (2014a). Genome-wide (over)view on the actions of vitamin D. Frontiers in Physiology, 5, 167. - on VitaminDWiki
Carlberg, C. (2014b). The physiology of vitamin D—Far more than calcium and bone. *Frontiers in Physiology, 5, 335.-
Carlberg, C., & Campbell, M. J. (2013). Vitamin D receptor signaling mechanisms: Integrated actions of a well-defined transcription factor. Steroids, 78, 127–136.
Carlberg, C., & Dunlop, T. W. (2006). An integrated biological approach to nuclear receptor signaling in physiological control and disease. Critical Reviews in Eukaryotic Gene Expression, 16, 1–22.
Carlberg, C., & Molna ´r, F. (2012). Current status of vitamin D signaling and its therapeutic applications. Current Topics in Medicinal Chemistry, 12, 528–547.
Carlberg, C., Molna ´r, F., & Mourino, A. (2012). Vitamin D receptor ligands: The impact of crystal structures. Expert Opinion on Therapeutic Patents, 22, 417–435.
Carlberg, C., & Polly, P. (1998). Gene regulation by vitamin D3. Critical Reviews in Eukaryotic Gene Expression, 8, 19–42.
Carlberg, C., & Raunio, H. (2014). From pharmacogenomics to integrated personalomics profiling: A gap in implementation into healthcare. Personalized Medicine, 11, 625–629.
Carlberg, C., Seuter, S., de Mello, V. D., Schwab, U., Voutilainen, S., Pulkki, K., et al. (2013). Primary vitamin D target genes allow a categorization of possible benefits of vitamin D3 supplementation. PloS One, 8, e71042. on VitaminDWiki
Vukic, M., Neme, A., Seuter, S., Saksa, N., de Mello, V. D., Nurmi, T., et al. (2015). Relevance of vitamin D receptor target genes for monitoring the vitamin D responsiveness of primary human cells. PloS One, 10, e0124339. on VitaminDWiki

Molecular Approaches for Optimizing Vitamin D (one size does not fit all) – Carlberg

Molecular Approaches for Optimizing Vitamin D Supplementation

Some of Carlberg's later publications on VitaminDWiki

See also VitaminDWiki