Rapid Nontranscriptional Effects of Calcifediol and Calcitriol.

Author: AuriliaCinzia, BrandiMaria Luisa, DonatiSimone, FalsettiIrene, IantomasiTeresa, MigliettaFrancesca, PalminiGaia

Paper Details 
Original Abstract of the Article :
Classically, a secosteroid hormone, vitamin D, has been implicated in calcium and phosphate homeostasis and has been associated with the pathogenesis of rickets and osteomalacia in patients with severe nutritional vitamin D deficiency. The spectrum of known vitamin D-mediated effects has been expand...See full text at original site
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引用元:
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8951353/

データ提供:米国国立医学図書館(NLM)

Unveiling the Rapid, Non-Transcriptional Effects of Vitamin D

Vitamin D, a crucial nutrient often associated with calcium and bone health, has a much broader spectrum of influence than previously thought. This study delves into the fascinating world of vitamin D's rapid, non-genomic actions, which occur independently of gene transcription. Researchers explore the mechanisms by which vitamin D metabolites, calcifediol and calcitriol, initiate swift cellular responses through membrane receptors. The study identifies membrane-associated vitamin D receptor (VDRm) and protein disulfide isomerase family A member 3 (Pdia3) as potential key players in mediating these rapid responses.

Beyond Transcription: The Speedy Actions of Vitamin D

The study sheds light on the previously underappreciated rapid, non-genomic effects of vitamin D, expanding our understanding of this essential nutrient. It's akin to discovering a hidden oasis in the vast desert, a source of life-giving water that flows quickly and directly without the need for long, winding pathways. This discovery opens doors to new therapeutic targets for modulating vitamin D's actions.

Vitamin D's Hidden Depths: A New Perspective

This research unveils a new layer of complexity in our understanding of vitamin D, highlighting its potential beyond its traditional role in calcium homeostasis. As we delve deeper into these rapid, non-genomic actions, we can anticipate a more comprehensive understanding of vitamin D's physiological functions and potential therapeutic applications. Imagine finding a hidden spring in the desert, a source of immediate refreshment that we were previously unaware of.

Dr. Camel's Conclusion

This research unravels the intricate workings of vitamin D, highlighting its rapid, non-genomic actions. This discovery opens new avenues for exploring the potential of vitamin D in addressing various health concerns. Like a desert traveler discovering a hidden wellspring, we are uncovering new possibilities for harnessing the power of vitamin D.

Date :
  1. Date Completed 2022-03-30
  2. Date Revised 2022-04-01
Further Info :

Pubmed ID

35334948

DOI: Digital Object Identifier

PMC8951353

Related Literature

SNS
PICO Info
in preparation
Languages

English

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