# Dietary Fat Intake Attenuates Vitamin A Deficiency-Associated Elastic Fiber Remodeling and Lipid Reduction in the Alveolar Niche in Mice

**Authors:** Lisa-Marie Hoy, Tabea Meier, Natascha Mierswa, Melanie Bornemann, Lea Naasner, Heike Bähre, Natali Froese, Christian Riehle, Christian Mühlfeld, Julia Schipke

PMC · DOI: 10.1016/j.tjnut.2025.07.010 · The Journal of Nutrition · 2025-07-17

## TL;DR

A diet high in fat reduces the negative effects of vitamin A deficiency on lung structure and lipid levels in mice.

## Contribution

The study reveals that high-fat diets can mitigate vitamin A deficiency-induced changes in lung elastic fibers and lipid droplets in mice.

## Key findings

- Vitamin A deficiency caused dense elastic fiber packing and increased fibrillin expression in lean mice.
- High-fat diets reduced alveolar lipid droplets and lung airspace volume compared to control diets.
- Combining high-fat diets with vitamin A deficiency attenuated the negative effects on lung structure.

## Abstract

Vitamin A deficiency (VAD) and obesity are widespread nutrition-related health conditions that are independently associated with pulmonary remodeling processes linked to lung function decline and respiratory diseases.

This study tested the hypothesis that VAD-related pulmonary alterations are aggravated by diet-induced obesity.

Eight-week-old C57BL/6J/129Sv mice with a deletion of lecithin-retinol-acyltransferase (Lrat−; impaired vitamin A storage) were fed vitamin A deficient control diet (CD, n = 13) or high-fat diet (HFD, n = 15) to induce VAD in lean (CD-VAD, n = 13) or obese (HFD-VAD, n = 13) mice. Wild-type mice receiving vitamin A-containing CD or HFD served as controls. After 20 wk, lungs were subjected to structural and molecular analyses by stereology, western blot, and high-pressure liquid chromatography-mass spectrometry. Statistics used were 2-way analysis of variance.

Pulmonary vitamin A reserves were efficiently depleted in CD-VAD and HFD-VAD (P < 0.001 compared with controls). In CD-VAD, 76% of pulmonary elastic fibers appeared densely packed (CD: 53%, P < 0.01), and expression of fibrillin was 110% higher compared with CD (P < 0.01), indicating a higher septal microfibril content. Elastin expression was slightly reduced in HFD-groups (HFD: 14%, HFD-VAD: 16% of respective controls, both P < 0.05), whereas neither diet nor VAD affected expression levels of collagen I or III. Lipid droplet volumes decreased by 32% in septal fibroblasts (P < 0.05) and by 53% in alveolar epithelial type 2 (AE2) cells in CD-VAD, compared with CD. HFD alone led to a 20% reduction in lung airspace volume, a 13% decrease in septal surface area, and a 15% reduction in AE2 cell numbers compared with CD. These VAD- and obesity-related changes were alleviated or absent in HFD-VAD.

VAD-induced elastic fiber remodeling and lipid droplet reduction in the alveolar region of lean mice, whereas HFD resulted in smaller lungs containing less AE2 cells. Both VAD- and obesity-related effects were attenuated in HFD-VAD, indicating mutually mitigating effects.

Image 1

## Linked entities

- **Genes:** LRAT (lecithin retinol acyltransferase) [NCBI Gene 9227]
- **Proteins:** FIB (fibrillin), LIMK1 (LIM domain kinase 1)
- **Diseases:** Vitamin A deficiency (MONDO:0007016), obesity (MONDO:0011122)
- **Species:** Mus musculus (taxon 10090)

## Full-text entities

- **Genes:** Lrat (lecithin-retinol acyltransferase (phosphatidylcholine-retinol-O-acyltransferase)) [NCBI Gene 79235] {aka 1300010A18Rik}, Eln (elastin) [NCBI Gene 13717] {aka E030024M20Rik}
- **Diseases:** obese (MESH:D009765), respiratory diseases (MESH:D012140), VAD (MESH:D014802), pulmonary alterations (MESH:D004408), lung (MESH:D008171)
- **Chemicals:** Lipid (MESH:D008055), vitamin A (MESH:D014801), fat (MESH:D005223), CD (-)
- **Species:** Mus musculus (house mouse, species) [taxon 10090]
- **Cell lines:** AE2 — Mus musculus (Mouse), Transformed cell line (CVCL_A7VS)

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12799404/full.md

## References

76 references — full list in the complete paper: https://tomesphere.com/paper/PMC12799404/full.md

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Source: https://tomesphere.com/paper/PMC12799404