Abstract
AbstractLecithin:retinol acyltransferase and retinol-binding protein enable vitamin A (VA) storage and transport, respectively, maintaining tissue homeostasis of retinoids (VA derivatives). The precarious VA status of the lecithin:retinol acyltransferase–deficient (Lrat−/−) retinol-binding protein–deficient (Rbp−/−) mice rapidly deteriorates upon dietary VA restriction, leading to signs of severe vitamin A deficiency (VAD). As retinoids impact gut morphology and functions, VAD is often linked to intestinal pathological conditions and microbial dysbiosis. Thus, we investigated the contribution of VA storage and transport to intestinal retinoid homeostasis and functionalities. We showed the occurrence of intestinal VAD in Lrat−/−Rbp−/− mice, demonstrating the critical role of both pathways in preserving gut retinoid homeostasis. Moreover, in the mutant colon, VAD resulted in a compromised intestinal barrier as manifested by reduced mucins and antimicrobial defense, leaky gut, increased inflammation and oxidative stress, and altered mucosal immunocytokine profiles. These perturbations were accompanied by fecal dysbiosis, revealing that the VA status (sufficient vs. deficient), rather than the amount of dietary VA per se, is likely a major initial discriminant of the intestinal microbiome. Our data also pointed to a specific fecal taxonomic profile and distinct microbial functionalities associated with VAD. Overall, our findings revealed the suitability of the Lrat−/−Rbp−/− mice as a model to study intestinal dysfunctions and dysbiosis promoted by changes in tissue retinoid homeostasis induced by the host VA status and/or intake.
Highlights
Supplementary key words colon gut microbiome lecithin:retinol acyltransferase retinoic acid retinol-binding protein vitamin A vitamin A deficiency
Our data confirmed that the precarious vitamin A (VA) status of this mutant strain is further compromised under a restricted dietary VA intake [11, 25], and showed that this is the case in peripheral tissues such as the intestine
Lipid Res. (2021) 62 100046 and 27.5 ± 1.2 in WT colon and duodenum, respectively; n = 6/group), lecithin:retinol acyltransferase (LRAT) does not seem to be the predominant ROH-esterifying enzyme in the colon, where retinyl esters (REs) levels are comparable between mutant and WT mice on the VA-containing diet (Fig. 1)
Summary
Tissue retinoid homeostasis is maintained by a fine balance between VA transport to the target organs and conversion to VA ester reserves to be used in times of need. The critical role of RBP and LRAT in maintaining tissue retinoid homeostasis in adult and developing tissues has been confirmed mainly by investigating the consequences of the lack of Rbp and/or Lrat in genetically modified mouse models [6, 8,9,10,11,12,13]. VA modulates morphology and functions by maintaining epithelial barrier integrity and regulating gut immunity and inflammation [14, 15]. The impact of the pathways of VA transport and stores formation versus the dietary VA per se in maintaining intestinal retinoid homeostasis and functions is unknown
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