Abstract

The ability to store and distribute vitamin A inside the body is the main evolutionary adaptation that allows vertebrates to maintain retinoid functions during nutritional deficiencies and to acquire new metabolic pathways enabling light-independent production of 11-cis retinoids. These processes greatly depend on enzymes that esterify vitamin A as well as associated retinoid binding proteins. Although the significance of retinyl esters for vitamin A homeostasis is well established, until recently, the molecular basis for the retinol esterification enzymatic activity was unknown. In this review, we will look at retinoid absorption through the prism of current biochemical and structural studies on vitamin A esterifying enzymes. We describe molecular adaptations that enable retinoid storage and delineate mechanisms in which mutations found in selective proteins might influence vitamin A homeostasis in affected patients.

Details

Title
Molecular Basis for Vitamin A Uptake and Storage in Vertebrates
Author
Chelstowska, Sylwia; Widjaja-Adhi, Made Airanthi K; Silvaroli, Josie A; Golczak, Marcin
First page
676
Publication year
2016
Publication date
2016
Publisher
MDPI AG
e-ISSN
20726643
Source type
Scholarly Journal
Language of publication
English
DOI
https://doi.org/10.3390/nu8110676
ProQuest document ID
1849285785
Copyright
Copyright MDPI AG 2016