Background & aims: Mortality resulting from influenza (flu) virus infections occurs primarily in the elderly through declining immunity. Studies in mice have suggested beneficial effects of selenium (Se) supplementation on immunity to flu but similar evidence is lacking in humans. A dietary intervention study was therefore designed to test the effects of Se-supplementation on a variety of parameters of anti flu immunity in healthy subjects aged 50-64 years. Methods: A 12-week randomized, double-blinded, placebo-controlled clinical trial (ClinicalTrials.gov NCT00279812) was undertaken in six groups of individuals with plasma Se levels <110 ng/mL. Four groups were given daily capsules of yeast enriched with 0 mu g Se/day (SeY-0/d; n = 20), 50 mu g Se/d (SeY-50/d; n = 18), 100 mu g Se/c1 (SeY-100/d; n = 21) or 200 mu g Se/d (SeY-2001d; n = 23). Two groups were given onion-containing meals with either <1 mu g Se/d(Se0-0/d; n = 17) or 50 mu g Se/d (SeO-50/d; n = 18). Flu vaccine was administrated at week 10 and immune parameters were assessed until week 12. Results: Primary study endpoints were changes in cellular and humoral immune responses. Supplementation with SeY and Se0 affected different aspects of cellular immunity. SeY increased TctxADCC cell counts in blood (214%, SeY-100/d) before flu vaccination and a dose-dependent increase in T cell proliferation (500%, SeY-50/100/200/d), IL-8 (169%, SeY-100/d) and IL-10 (317%, SeY-200/d) secretion after in vivo flu challenge. Positive effects were contrasted by lower granzyme B content of CD8 cells (55%, SeY-200/d). Se0 (Se 50 mu g/d) also enhanced T cell proliferation after vaccination (650%), IFN-gamma (289%), and IL-8 secretion (139%), granzyme (209%) and perforin (190%) content of CD8 cells but inhibited TNF-alpha synthesis (42%). Onion on its own reduced the number of NKT cells in blood (38%). These effects were determined by comparison to group-specific baseline yeast or onion control groups. Mucosal flu-specific antibody responses were unaffected by Se supplementation. Conclusion: Se-supplementation in healthy human adults with marginal Se status resulted in both beneficial and detrimental effects on cellular immunity to flu that was affected by the form of Se, supplemental dose and delivery matrix. These observations call for a thorough evaluation of the risks and benefits associated with Se-supplementation
Selenium supplementation has beneficial and detrimental effects on immunity to influenza vaccine in older adults / Ivory, Kamal; Prieto, Elena; Spinks, Caroline; Armah, Charlotte N.; Goldson, Andrew J.; Dainty, Jack R.; Nicoletti, Claudio. - In: CLINICAL NUTRITION. - ISSN 0261-5614. - STAMPA. - 36:(2017), pp. 407-415. [10.1016/j.clnu.2015.12.003]
Selenium supplementation has beneficial and detrimental effects on immunity to influenza vaccine in older adults
NICOLETTI, CLAUDIO
2017
Abstract
Background & aims: Mortality resulting from influenza (flu) virus infections occurs primarily in the elderly through declining immunity. Studies in mice have suggested beneficial effects of selenium (Se) supplementation on immunity to flu but similar evidence is lacking in humans. A dietary intervention study was therefore designed to test the effects of Se-supplementation on a variety of parameters of anti flu immunity in healthy subjects aged 50-64 years. Methods: A 12-week randomized, double-blinded, placebo-controlled clinical trial (ClinicalTrials.gov NCT00279812) was undertaken in six groups of individuals with plasma Se levels <110 ng/mL. Four groups were given daily capsules of yeast enriched with 0 mu g Se/day (SeY-0/d; n = 20), 50 mu g Se/d (SeY-50/d; n = 18), 100 mu g Se/c1 (SeY-100/d; n = 21) or 200 mu g Se/d (SeY-2001d; n = 23). Two groups were given onion-containing meals with either <1 mu g Se/d(Se0-0/d; n = 17) or 50 mu g Se/d (SeO-50/d; n = 18). Flu vaccine was administrated at week 10 and immune parameters were assessed until week 12. Results: Primary study endpoints were changes in cellular and humoral immune responses. Supplementation with SeY and Se0 affected different aspects of cellular immunity. SeY increased TctxADCC cell counts in blood (214%, SeY-100/d) before flu vaccination and a dose-dependent increase in T cell proliferation (500%, SeY-50/100/200/d), IL-8 (169%, SeY-100/d) and IL-10 (317%, SeY-200/d) secretion after in vivo flu challenge. Positive effects were contrasted by lower granzyme B content of CD8 cells (55%, SeY-200/d). Se0 (Se 50 mu g/d) also enhanced T cell proliferation after vaccination (650%), IFN-gamma (289%), and IL-8 secretion (139%), granzyme (209%) and perforin (190%) content of CD8 cells but inhibited TNF-alpha synthesis (42%). Onion on its own reduced the number of NKT cells in blood (38%). These effects were determined by comparison to group-specific baseline yeast or onion control groups. Mucosal flu-specific antibody responses were unaffected by Se supplementation. Conclusion: Se-supplementation in healthy human adults with marginal Se status resulted in both beneficial and detrimental effects on cellular immunity to flu that was affected by the form of Se, supplemental dose and delivery matrix. These observations call for a thorough evaluation of the risks and benefits associated with Se-supplementation
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