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Vitamin D is suppressed by both Roundup and Genes

VitaminDWiki

P450, also known as CYP2R1, controls vitamin D processing in the liver
P450 is "suppressed" by Roundup/Glyphosate as well as some genes
Do not know just how much Glyphosate suppression there is
Options when P450 is supressed

  1. Increase Vitamin D dose or time in the sun
    Optimize vitamin D from the sun
  2. Increase the response to the vitamin D which you do get
    Reasons for low response to vitamin D
    How you might double your response to vitamin D
  3. Increase Omega-3 and/or resveratrol to increase local activation of vitamin D
    Omega 3 increases vitamin D in the blood – many studies
    Overview: Omega-3 many benefits include helping vitamin D
  4. Increase Magnesium
    Overview Magnesium and vitamin D
  5. Supplement with active vitamin D (generally by prescription)
    Getting Vitamin D into your body

I am now realizing a possible reason that Magnesium and Omega-3 have such a synergistic relationship with Vitamin D
See also VitaminDWiki

Reductions before Vitamin D gets to the cells
Reductions in Vitamin D is.gd/VitDReductions
   click on image for details

Investigation on Roundup - glyphosate at VitaminDWiki has a chart of Autism and Glyphosate
Image
See also Web

  • Glyphosate’s Suppression of Cytochrome P450 Enzymes and Amino Acid Biosynthesis by the Gut Microbiome: Pathways to Modern Diseases - 2013
     Download the PDF from VitaminDWiki
    Some people doubt the article #1, #2

Category page = Glyphosate and Vitamin D - many studies

10 most-visited pages in Glyphosate category in VitaminDWiki

Id Page Hits Last modification Creator Categories
4116 Investigation on Roundup - glyphosate at VitaminDWiki 112256
19 Jul, 2023 11:47
admin Glyphosate
3976 Vitamin D is suppressed by both Roundup and Genes 18661
29 Nov, 2023 21:10
admin Vitamin D Receptor
Glyphosate
10639 Low Vitamin D is one of the causes of oxidative stress and aging – March 2019 11439
15 May, 2019 20:46
admin Interactions with Vitamin D
Glyphosate
6131 Huge increases in health problems – risk factors include Vitamin D, Antibiotics, and Roundup 10977
11 Jun, 2019 17:15
admin Top news
Antibiotics, probiotics
Glyphosate
10154 Reasons for Low Vitamin D and what to do 9633
28 Nov, 2022 13:39
admin Deficiency of Vitamin D
Loading dose for Vitamin D
Top news
Antibiotics, probiotics
Glyphosate
8878 Glyphosate and Vitamin D - many studies 9459
09 Feb, 2024 20:20
admin Category
Glyphosate
4061 Off topic: Roundup may be source of many medical problem increases - April 2013 8967
25 Oct, 2017 15:44
admin Off Topic
Glyphosate
3591 Off Topic GMO Roundup Corn causes lots of cancer and other problems in rats – Dec 2012 6967
25 Oct, 2017 15:45
admin Cancer - Breast
Off Topic
Glyphosate
6127 20 X more Parkinson's and 100X more Autism with GMO soy in China 6024
27 Nov, 2018 10:52
admin Autism
Parkinson
Orient
Glyphosate
5262 Off topic – Roundup found to be 125X more toxic than its active ingredient (glyphosate) - April 2014 5259
25 Oct, 2017 11:20
admin Off Topic
Glyphosate

Cytochrome P450-mediated metabolism of vitamin D – April 2013

The Journal of Lipid Research, jlr.R031534. April 6, 2013, doi: 10.1194/jlr.R031534
Glenville Jones gj1 at queensu.ca, David E. Prosser and Martin Kaufmann
Queen's University, Canada

The vitamin D signal transduction system involves a series of cytochrome P450-containing sterol hydroxylases to generate and degrade the active hormone, 1α,25-dihydroxyvitamin D3 which serves as a ligand for the vitamin D receptor-mediated transcriptional gene expression, described in companion chapters in this review series. This review will update our current knowledge of the specific anabolic cytochrome P450s involved in 25- and 1α-hydroxylation, as well as the catabolic cytochrome P450 involved in 24- and 23-hydroxylation steps, which are believed to initiate inactivation of the vitamin D molecule. We will focus on the biochemical properties of these enzymes; key residues in their active sites derived from crystal structures and mutagenesis studies; the physiological roles of these enzymes as determined by animal knockout studies and human genetic diseases; and the regulation of these different cytochrome P450s by extracellular ions and peptide modulators. We will highlight the importance of these cytochrome P450s in the pathogenesis of kidney disease, metabolic bone disease and hyperproliferative diseases such as psoriasis and cancer; as well as to explore potential future developments in the field.

Received August 22, 2012. Accepted April 6, 2013.
Copyright © 2013, The American Society for Biochemistry and Molecular Biology

Clipped from PDF: Future Perspectives

This study of the cytochrome P450s involved in vitamin D metabolism has come of age with the cloning and structural elucidation of several of the family members. Just as the crystal structure of the VDR has opened the door to new families of vitamin D analogs which more precisely position the vitamin D ligand in the ligand-binding pocket (See companion review on VDR), the substrate-binding pockets of the vitamin D-related CYPs, especially CYP24A1, will allow us to design "metabolism-resistant" or "metabolism-sensitive" vitamin D analogs as well as a second generation of CYP24A1 or CYP27B1 inhibitors using rational drug design [174]. From a biochemical perspective such information will also allow us to better understand the mechanism of multiple hydroxylation reactions executed by these enzymes

As was pointed out throughout this review, the number of CYP2R1, CYP27A1, CYP27B1 and CYP24A1 polymorphisms in the genomic databases is expanding at an exponential pace. Undoubtedly, the recent discovery of inactivating CYP24A1 mutations in IIH patients [168] will also drive clinical interest in CYP24A1 research. One would expect that more of these polymorphisms may be loss-of-function mutations associated with mild and more severe diseases in the hypercalcemic constellation, including IIH, but it remains to be seen whether CYP24A1 dysregulation can be connected with other disease states e.g. nephrolithiasis. There is no doubt that the CYP24A1-knockout mouse [133-137] still has much more to reveal about the roles of CYP24A1 in vivo. Likewise the development of the CYP2R1-null mouse [36] and its crossing with the CYP27A1-null mouse should lead to a much better understanding of the vitamin D-25-hydroxylase. Lastly, and perhaps most importantly, the exact role of the extra-renal CYP27B1 should also be clarified over the next few years. This is an exciting time to be involved in the study of vitamin D-related cytochromes P450 and vitamin D metabolomics.



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Cytochromes P450 are essential players in the vitamin D signaling system - 2011

Biochim Biophys Acta. 2011 Jan;1814(1):186-99. doi: 10.1016/j.bbapap.2010.06.022. Epub 2010 Jul 7.
Cytochromes P450 are essential players in the vitamin D signaling system.
Schuster I1.

From earliest development on, the vitamin D receptor (VDR) is expressed in most cells of the mammalian body. The VDR is a nuclear, ligand-induced transcription factor that regulates in complex with hormonally active vitamin D the expression of more than 900 genes involved in a wide array of physiological functions (e.g. calcium homeostasis, growth control, differentiation, cognition, immune response, etc.). Accordingly, severe health problems are associated to vitamin deficiencies. Synthesis of the major active form 1α,25(OH)₂D₃ from vitamin D and subsequent metabolism are exclusively controlled by specific P450-forms.
Synthesis, a two-step process, starts with a 25-hydroxylation primarily by CYP2R1 (CYP27A1, CYP2J2, and CYP3A4 may also contribute) and a subsequent 1α-hydroxylation via CYP27B1. Circulating in the bloodstream, 1α,25(OH)₂D₃ acts at sites of VDR expression (target sites) in an endocrine way. However, it is also capable of autocrine/paracrine functions since various target tissues are fully competent in 1α,25(OH)₂D₃ synthesis, as illustrated by three examples. 1α,25(OH)₂D₃ levels are short-lived: the hormone upregulates its rapid metabolism by CYP24A1 that attacks repeatedly the vitamin D C₂₀₋₂₇ side chain, thereby producing a complex cascade of transient metabolites with increasing polarity. Most of these metabolites still retain 1α,25(OH)₂D₃-like activities on the VDR, contributing to the overall effect that is commonly attributed to 1α,25(OH)₂D₃. As selective inhibitors of CYP24A1 increase the lifetime and thereby the function of vitamin D metabolites, they will help exploring whether and which intrinsic activities distinct metabolites possess. It appears likely that this strategy may unmask important regulators of new functions.

Copyright © 2010 Elsevier B.V. All rights reserved., PMID: 20619365

Attached files

ID Name Comment Uploaded Size Downloads
6426 Glyphosate’s Suppression of Cytochrome P450 - 2013.pdf admin 26 Feb, 2016 517.94 Kb 1071
2310 Cytochrome P450.pdf admin 07 Apr, 2013 1.94 Mb 1738
2309 Cyto 6A.jpg admin 07 Apr, 2013 24.63 Kb 6226
2308 Cyto 6B.jpg admin 07 Apr, 2013 36.67 Kb 5295
2307 Cyto 1.jpg admin 07 Apr, 2013 39.80 Kb 7222