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Assessing the Interactions between Zinc and Vitamin A on Intestinal Functionality, Morphology, and the Microbiome In Vivo ( Gallus gallus ).

Cydney D JacksonNikolai KolbaElad Tako
Published in: Nutrients (2023)
Dietary deficiencies in zinc (Zn) and vitamin A (VA) are among the leading micronutrient deficiencies globally and previous research has proposed a notable interaction between Zn and VA physiological status. This study aimed to assess the effects of zinc and vitamin A (isolated and combined) on intestinal functionality and morphology, and the gut microbiome ( Gallus gallus ). The study included nine treatment groups ( n ~11)-no-injection (NI); H 2 O; 0.5% oil; normal zinc (40 mg/kg ZnSO 4 ) (ZN); low zinc (20 mg/kg) (ZL); normal retinoid (1500 IU/kg retinyl palmitate) (RN); low retinoid (100 IU/kg) (RL); normal zinc and retinoid (40 mg/kg; 1500 IU/kg) (ZNRN); low zinc and retinoid (ZLRL) (20 mg/kg; 100 IU/kg). Samples were injected into the amniotic fluid of the fertile broiler eggs. Tissue samples were collected upon hatch to target biomarkers. ZLRL reduced ZIP4 gene expression and upregulated ZnT1 gene expression ( p < 0.05). Duodenal surface area increased the greatest in RL compared to RN ( p < 0.01), and ZLRL compared to ZNRN ( p < 0.05). All nutrient treatments yielded shorter crypt depths ( p < 0.01). Compared to the oil control, ZLRL and ZNRN reduced ( p < 0.05) the cecal abundance of Bifidobacterium and Clostridium genera ( p < 0.05). These results suggest a potentially improved intestinal epithelium proceeding with Zn and VA intra-amniotic administration. Intestinal functionality and gut bacteria were modulated. Further research should characterize long-term responses and the microbiome profile.
Keyphrases
  • gene expression
  • oxide nanoparticles
  • heavy metals
  • dna methylation
  • bone marrow
  • combination therapy
  • fatty acid
  • heat stress
  • anaerobic digestion