Vitamin D and immune function: an overview

• Published in: Proceedings of the Nutrition Society Vol. 71; no. 1; pp. 50 - 61
• Main Author: Hewison, Martin
• Format: Journal Article
• Language: English
• Published: Cambridge, UK Cambridge University Press 01.02.2012
• Subjects: adaptive immunity; Autoimmune diseases; Autoimmune Diseases - blood; Autoimmune Diseases - etiology; Crohn disease; dendritic cells; Dendritic Cells - physiology; epidemiological studies; Health problems; human physiology; Human subjects; Humans; Immune response; Immune system; Immunity - physiology; Immunologic Factors - metabolism; immunomodulation; Infection - blood; Infection - etiology; Inflammatory bowel disease; insulin-dependent diabetes mellitus; Lymphocytes; macrophages; Macrophages - physiology; Metabolites; Mycobacterium; Nutrition; pathogens; Rodents; sclerosis; Symposium 3: Vitamin D and immune function: from pregnancy to adolescence; T-Lymphocytes; Tuberculosis; Vitamin D; Vitamin D - analogs & derivatives; Vitamin D - immunology; Vitamin D - metabolism; Vitamin D Deficiency - blood; Vitamin D Deficiency - complications; Vitamin D Deficiency - immunology; vitamin deficiencies; Vitamin deficiency; Innate immunity; Adaptive immunity; Antibacterial; Vitamin D
• ISSN: 0029-6651; 1475-2719; 1475-2719
• DOI: 10.1017/S0029665111001650

Immunomodulatory actions of vitamin D have been recognised for over a quarter of a century, but it is only in the last few years that the significance of this to normal human physiology has become apparent. Two key factors have underpinned this revised perspective. Firstly, there are increasing data linking vitamin insufficiency with prevalent immune disorders. Improved awareness of low circulating levels of precursor 25-hydroxyvitamin D in populations across the globe has prompted epidemiological investigations of health problems associated with vitamin D insufficiency. Prominent among these are autoimmune diseases such as multiple sclerosis, type 1 diabetes and Crohn's disease, but more recent studies indicate that infections such as tuberculosis may also be linked to low 25-hydroxyvitamin D levels. The second factor expanding the link between vitamin D and the immune system is our improved knowledge of the mechanisms that facilitate this association. It is now clear that cells from the immune system contain all the machinery needed to convert 25-hydroxyvitamin D to active 1,25-dihydroxyvitamin D, and for subsequent responses to 1,25-dihydroxyvitamin D. Mechanisms such as this are important for promoting antimicrobial responses to pathogens in macrophages, and for regulating the maturation of antigen-presenting dendritic cells. The latter may be a key pathway by which vitamin D controls T-lymphocyte (T-cell) function. However, T-cells also exhibit direct responses to 1,25-dihydroxyvitamin D, notably the development of suppressor regulatory T-cells. Collectively these observations suggest that vitamin D is a key factor linking innate and adaptive immunity, and both of these functions may be compromised under conditions of vitamin D insufficiency.