Muribaculum intestinale-derived 3-hydroxybutyric acid from Heterophyllin B attenuated pulmonary fibrosis through IDO1-mediated ferroptosis

Muribaculum intestinale-derived 3-hydroxybutyric acid from Heterophyllin B attenuated pulmonary fibrosis through IDO1-mediated ferroptosis

Pulmonary fibrosis (PF) is a fatal disease with increasing incidence, poor prognosis, and unclear pathogenesis. Our previous research demonstrated the beneficial effects of the natural cyclopeptide Heterophyllin B (HB) in PF. However, the precise mechanism by which HB exerts its effects in PF remain...

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Bibliographic Details
Main Authors: Ce Chen, Jialin Wang, Mengqin Cheng, Haifeng Xie, Wei Li, Chaofeng Zhang
Format: Article
Language:English
Published: Elsevier 2025-02-01
Series:Pharmacological Research
Subjects:
Pulmonary fibrosis
Heterophyllin B
Gut-lung axis
IDO1
Ferroptosis
Metabolism
Online Access:http://www.sciencedirect.com/science/article/pii/S104366182500012X
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Summary:Pulmonary fibrosis (PF) is a fatal disease with increasing incidence, poor prognosis, and unclear pathogenesis. Our previous research demonstrated the beneficial effects of the natural cyclopeptide Heterophyllin B (HB) in PF. However, the precise mechanism by which HB exerts its effects in PF remains unclear. Our study revealed HB's beneficial effects in alleviating PF symptoms and restoring the intestinal mucosal barrier. Subsequently, the microbiota-dependent antifibrotic efficacy of HB was verified using various delivery routes, antibiotic treatments, and faecal microbiota transplantation. Functionally, 16S rRNA sequencing, untargeted metabolomics, and co-incubation experiments revealed that the antifibrotic efficacy of HB was primarily contingent on the enrichment of Muribaculum intestinale and its metabolite, 3-hydroxybutyric acid. Mechanistically, indoleamine 2,3- dioxygenase 1 (IDO1)-mediated ferroptosis was identified as a pivotal process in initiating PF, and the anti-fibrotic efficacy of HB relies on suppressing IDO1-mediated ferroptosis. Conversely, IDO1 deficiency alleviated the symptoms of bleomycin-induced PF and ferroptosis in mice. Coincidentally, both IDO1 overexpression and ferroptosis were observed in the pulmonary tissue of patients with idiopathic PF. Collectively, this study revealed that HB alleviates PF by eliminating intestinal microecology and metabolism and highlights the feasibility of targeting IDO1 for PF treatment.
ISSN:1096-1186

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