Vitamin D Promotes Protein Homeostasis and Longevity via the Stress Response Pathway Genes skn-1, ire-1, and xbp-1
Cell Rep, 17 (5), 1227-1237 2016 Oct 25, DOI: 10.1016/j.celrep.2016.09.086
Mortality category in Vitamin D Life starts with:
People die sooner if they have low vitamin D
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The Meta-analysis of Mortality and Vitamin D are listed here:
- Deaths from many types of Cancer associated with low vitamin D- review of meta-analyses Sept 2020
- People supplemented with Vitamin D had 13 percent fewer Cancer deaths – Meta-analysis of RCT June 2019
- Cancer with low Vitamin D increases Mortality by 13 percent – meta-analysis Feb 2019
- Decreased Vitamin D is associated with dying sooner (70 studies) – meta-analysis Jan 2019
- Prostate Cancer death 40 percent less likely if 40 ng level of vitamin D – Meta-analysis Oct 2018
- Review of meta-analyses of non-skeletal benefits of vitamin D (Mortality, RTI, etc) – July 2017
- Chronic Kidney Disease mortality is 60 percent less likely if good vitamin D – meta-analysis July 2017
- Lung Cancer death 60 percent less likely if high level of vitamin D – 2 meta-analysis 2017
- Breast Cancer Mortality reduced 60 percent if more than 60 ng of Vitamin D – meta-analysis June 2017
- Cardiovascular deaths 12 percent less likely if have 10 ng more vitamin D – meta-analysis March 2017
- ICU patients 30 percent less likely to die if have enough vitamin D – meta-analysis Nov 2016
- Less likely to die if have enough vitamin D - Meta-analysis June 2014
- Cancer survival 4 percent more likely with just a little more vitamin D (4 ng) - meta-analysis July 2014
- Death due to breast cancer reduced 40 percent if high vitamin D – meta-analysis April 2014
- Vitamin D reduces risk of cause specific death, unless it is D2 – meta-analysis BMJ April 2014
- More survive Breast Cancer if more vitamin D – 2X fewer deaths with just 30 ng -meta-analysis March 2014
- Colorectal and Breast Cancer – Vitamin D is associated with fewer deaths – meta-analysis Feb 2014
- Death of women from cancer 24 percent less likely if 20 ng more vitamin D – meta-analysis Sept 2013
- Chance of dying increases by 25 percent in seniors if low vitamin D – Meta-analysis July 2013
- Breast Cancer survival 2X more likely if vitamin D sufficient – meta-analysis May 2013
- Vitamin D with Calcium reduces mortality by 7 percent – meta-analysis May 2012
- Death rate reduced 8 percent for 8 nanogram more vitamin D – meta-analysis Feb 2012
- 40 ng Vitamin D perhaps optimal for reduced mortality – Meta-analysis Jan 2012
- Vitamin D3 but not D2 reduces mortality – meta-analysis July 2011
- Vitamin D and mortality a meta-analysis of RCT - 2008
- Life extension and health improvement: Calico (Google) and perhaps Vitamin D
- Contains the following was made by the founder of Vitamin D Life in 2013
- Vitamin D and co-factors will square the curve (live longer AND healthier)
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Search web for Longevity and “vitamin D > 1,700,000 items as of Jan 2020
Google Scholar reported 33 references to this study as of Jan 2020
- Current Perspective in the Discovery of Anti-aging Agents from Natural Products - Oct 2017 FREE PDF
- The Death D-fying Vitamin - June 2018 Dr. Holick, Mayo Clinic FREE PDF
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Karla A Mark 1, Kathleen J Dumas 2, Dipa Bhaumik 1, Birgit Schilling 1, Sonnet Davis 1, Tal Ronnen Oron 1, Dylan J Sorensen 1, Mark Lucanic 1, Rachel B Brem 1, Simon Melov 1, Arvind Ramanathan 1, Bradford W Gibson 1, Gordon J Lithgow 3
Vitamin D has multiple roles, including the regulation of bone and calcium homeostasis. Deficiency of 25-hydroxyvitamin D, the major circulating form of vitamin D, is associated with an increased risk of age-related chronic diseases, including Alzheimer's disease, Parkinson's disease, cognitive impairment, and cancer. In this study, we utilized Caenorhabditis elegans to examine the mechanism by which vitamin D influences aging. We found that vitamin-D3-induced lifespan extension requires the stress response pathway genes skn-1, ire-1, and xbp-1. Vitamin D3 (D3) induced expression of SKN-1 target genes but not canonical targets of XBP-1. D3 suppressed an important molecular pathology of aging, that of widespread protein insolubility, and prevented toxicity caused by human β-amyloid. Our observation that D3 improves protein homeostasis and slows aging highlights the importance of maintaining appropriate vitamin D serum levels and may explain why such a wide variety of human age-related diseases are associated with vitamin D deficiency.
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