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Health problems can persist through many generations – Epigenetics and Vitamin D

"Epigenetics literally means "above" or "on top of" genetics.
It refers to external modifications to DNA that turn genes "on" or "off."


Epigenetic Memories are Passed Down 14 Successive Generations, Game-Changing Research Reveals GreenMed Info Oct 2018

  • Genes Load the Gun, Environment Pulls the Trigger” (is Vitamin D a bullet-proof vest?)
  • one dose of insecticide methoxychlor caused poor fertility for 4 generations of rats
  • Cherry smell was given concurrently with electric shock. Rats two generations later still feared the cherry scent
  • Thermal effects of environment passed on thru14 generations of nematode worms

See VitaminDWiki


See also Web

DNA tests are blind to epigenetic activations

Quora

  • No - these tests look at the underlying DNA sequence, using technologies that are “blind” to the presence or absence of epigenetic marks on the DNA.
  • There are some direct-to-consumer tests that look at epigenetic changes, but they’re specifically marketed as epigenetic tests.
  • Want to know when you’re going to die? MIT Review Oct 2018
    Epigenetics +DNA predicts lifespan much better than DNA alone
    DNA methylation-based measures of biological age: meta-analysis predicting time to death - Sept 2016
    Life Epigenetics mentioned
    Clew Medical uses AI to predict death in critical hospital situations
    • Does not consider the reduction in ICU and Sepsis deaths due to Vitamin D

Amount of response to Vitamin D is passed on to future generations – May 2018

Vitamin D Genomics: From In Vitro to In Vivo.
Front Endocrinol (Lausanne). 2018 May 23;9:250. doi: 10.3389/fendo.2018.00250.
Carlberg C1.
School of Medicine, Institute of Biomedicine, University of Eastern Finland, Kuopio, Finland.
free PDF online

The vitamin D3 metabolite 1α,25-dihydroxyvitamin D3 [1,25(OH)2D3] is the exclusive high-affinity ligand of the vitamin D receptor (VDR), a transcription factor with direct effects on gene expression. Transcriptome- and epigenome-wide data obtained in THP-1 human monocytes are the basis of the chromatin model of vitamin D signaling. The model describes, how VDR's spatio-temporal binding profile provides key insight into the pleiotropic action of vitamin D. The transcription of some 300 primary target genes is significantly modulated through the action of genomic VDR binding sites in concert with the pioneer transcription factor PU.1 and the chromatin organizer CTCF. In parallel, the short-term vitamin D intervention study VitDbol (NCT02063334) was designed, in order to extrapolate insight into vitamin D signaling from in vitro to in vivo.
Before and 24 h after a vitamin D3 bolus chromatin and RNA were prepared from peripheral blood mononuclear cells for epigenome- and transcriptome-wide analysis. The study subjects showed a personalized response to vitamin D and could be distinguished into high, mid, and low responders. Comparable principles of vitamin D signaling were identified in vivo and in vitro concerning target gene responses as well as changes in chromatin accessibility.
In conclusion, short-term vitamin D supplementation studies represent a new type of safe in vivo investigations demonstrating that vitamin D and its metabolites have direct effects on the human epigenome and modulate the response of the transcriptome in a personalized fashion.


In vivo response of the human epigenome to vitamin D: A Proof-of-principle study.

J Steroid Biochem Mol Biol. 2018 Jun;180:142-148. doi: 10.1016/j.jsbmb.2018.01.002. Epub 2018 Jan 6.
Carlberg C1, Seuter S2, Nurmi T3, Tuomainen TP3, Virtanen JK3, Neme A2.

In vitro cell culture studies showed that the hormonal form of vitamin D3, 1α,25-dihydroxyvitamin D3, significantly (p < 0.05) affects the human epigenome at thousands of genomic loci. Phase II of the VitDbol vitamin D intervention trial (NCT02063334) involved a proof-of-principle study of one individual, who was exposed three times every 28 days to an oral bolus (2000 μg) of vitamin D3. Blood samples were taken directly before each supplementation as well as one and two days after, chromatin was isolated from peripheral blood mononuclear cells without any further in vitro culture and at all nine time points epigenome-wide chromatin accessibility was assessed by applying FAIRE-seq (formaldehyde-assisted isolation of regulatory elements sequencing). The vitamin D3 bolus resulted in an average raise in 25-hydroxyvitamin D3 (25(OH)D3) serum concentration of 11.9 and 19.4 nM within one and two days, respectively. Consistently accessible chromatin was detected at 5205 genomic loci, the 853 most prominent of which a self-organizing map algorithm classified into early, delayed and non-responding genomic regions: 70 loci showed already after one day and 361 sites after two days significant (p < 0.0001) chromatin opening or closing. Interestingly, more than half of these genomic regions overlap with transcription start sites, but the change of chromatin accessibility at these sites has no direct effect on the transcriptome. Some of the vitamin D responsive chromatin sites cluster at specific loci within the human genome, the most prominent of which is the human leukocyte antigen region in chromosome 6. In conclusion, this study demonstrates that under in vivo conditions a rather minor rise in 25(OH)D3 serum levels is sufficient to result in significant changes at hundreds of sites within the epigenome of human leukocytes.


VitaminDWiki pages with EPIGENETIC in title (16 as of June 2022)

This list is automatically updated

Items found: 19
Title Modified
Vitamins etc, appear to slow down epigenetic aging and reduce inflammation – March 2024 26 Mar, 2024
Epigenetics and Vitamin D – many studies 23 Oct, 2023
Vitamin D Health problems can run in families (epigenetics, they miss other reasons) – June 2023) 16 Jun, 2023
Vitamin D supplementation is associated with slower epigenetic aging - May 2022 21 Jun, 2022
Epigenetics, vitamin D, and Multiple Sclerosis 15 Jun, 2022
Epigenetics - PDFs and links, with and without Vitamin D 25 Feb, 2021
Epigenetics identified Cervical Cancer 100 percent of time – 2019 23 Dec, 2019
Stressors as a fetus or child can cause health problems in adult (perhaps via epigenetics) – Dec 2017 14 Oct, 2018
Health problems can persist through many generations – Epigenetics and Vitamin D 13 Oct, 2018
Epigenetics meets endocrinology – 2011 13 Oct, 2018
Vitamin D Receptor – environment, genetics and epigenetics – May 2015 13 Oct, 2018
Low vitamin D in pregnancy – epigenetic pancreas problems in offspring (mice) – May 2016 05 May, 2016
Epigenetics of Multiple Sclerosis – March 2014 06 Sep, 2015
Micronutrients, methylation, epigenetics, longevity podcast by Rhonda Patrick and Tim Ferriss - June 2015 22 Jun, 2015
Epigenetics meets endocrinology - 2011 21 Jan, 2015
Hypothesis: Epigenetics, vitamin D, and Multiple Sclerosis – Nov 2012 29 Aug, 2014
Epigenetics of prostate cancer and vitamin D – June 2010 09 Jul, 2013
Lung disease, vitamin D, and epigenetics – Aug 2011 13 Feb, 2012
Epigenetics and vitamin D – June 2010 clips from the web 05 Jun, 2010


Created by admin. Last Modification: Sunday June 26, 2022 16:34:25 GMT-0000 by admin. (Version 27)

Attached files

ID Name Comment Uploaded Size Downloads
17975 Maternal multi-gen mice_CompressPdf.pdf admin 26 Jun, 2022 603.68 Kb 181
17974 Epigenetic Aging in Early Life_CompressPdf.pdf admin 26 Jun, 2022 373.02 Kb 131
17973 Epifenetic early life_CompressPdf.pdf admin 26 Jun, 2022 373.03 Kb 169
17972 slower epigenetic_CompressPdf.pdf admin 26 Jun, 2022 274.14 Kb 195
17971 Epi Wim_CompressPdf.pdf admin 26 Jun, 2022 356.40 Kb 184
10709 DNA methylation-based measures of biological age-compressed.pdf admin 19 Oct, 2018 829.79 Kb 649
10678 Epi and Vit D.jpg admin 13 Oct, 2018 42.13 Kb 1002
10677 Ageing.jpg admin 13 Oct, 2018 40.45 Kb 766
10676 183.full.pdf admin 13 Oct, 2018 331.41 Kb 1068
10675 Epigenetic Modulation.jpg admin 13 Oct, 2018 51.20 Kb 1147