# Intestinal decontamination with rifaximin attenuates LSEC dysfunction and liver fibrosis in mice

**Authors:** Tingting Su, Sanchuan Lai, Hongtan Chen

PMC · DOI: 10.1371/journal.pone.0340664 · PLOS One · 2026-01-23

## TL;DR

This study shows that using rifaximin to reduce harmful gut bacteria can improve liver health in mice by protecting liver cells and reducing fibrosis.

## Contribution

The study reveals that rifaximin improves liver sinusoidal endothelial cell function and reduces liver fibrosis by modulating gut microbiota and LPS levels.

## Key findings

- Rifaximin reduced liver fibrosis and improved LSEC function in cirrhotic mice.
- Gut microbiota changes in cirrhotic mice were partially reversed by rifaximin.
- LPS-induced LSEC dysfunction was mediated through TLR4 signaling.

## Abstract

The gut microbiome plays a pivotal role in the development and progression of liver disease. Liver sinusoidal endothelial cells (LSECs), as the first hepatic barrier exposed to blood from the portal circulation, may be influenced by gut-derived microbiota and their byproducts. This study aimed to investigate the interaction between gut microbiota and LSECs and to clarify how this interaction impacts the progression of liver cirrhosis.

Liver cirrhosis was induced by carbon tetrachloride (CCl4) injection and bile duct ligation (BDL). CCl4 and BDL mice were administered rifaximin. The primary LSECs were isolated from mice and treated with LPS. 16S rRNA sequencing was conducted to examine changes in the gut microbiota of cirrhotic mice following rifaximin treatment.

Rifaximin attenuated liver fibrosis and LSEC dysfunction in CCl4 and BDL mice. Liver cirrhosis induced remarkable changes in the gut microbiome while rifaximin treatment could partially reverse these alterations. Serum lipopolysaccharides (LPS) level was elevated in cirrhotic mice, while reduced following rifaximin treatment. Furthermore, LPS treatment could induce LSEC dysfunction by inhibiting eNOS mRNA expression, which was attenuated by TLR4 inhibitor, indicating that TLR4 signaling was involved in LPS-induced LSEC dysfunction.

Intestinal microbiota dysbiosis allows more LPS to enter the portal circulation, which may in turn exacerbate LSEC dysfunction and liver fibrosis. Intestinal decontamination with rifaximin improves LSEC function and alleviates liver fibrosis, a process linked to the reconstruction of the gut microbiome and a reduction in gut-derived LPS.

## Linked entities

- **Genes:** NOS3 (nitric oxide synthase 3) [NCBI Gene 4846], TLR4 (toll like receptor 4) [NCBI Gene 7099]
- **Chemicals:** rifaximin (PubChem CID 6436173), carbon tetrachloride (PubChem CID 5943)
- **Species:** Mus musculus (taxon 10090)

## Full-text entities

- **Genes:** Pecam1 (platelet/endothelial cell adhesion molecule 1) [NCBI Gene 18613] {aka Cd31, PECAM-1, Pecam}, Tlr4 (toll-like receptor 4) [NCBI Gene 21898] {aka Lps, Ly87, Ran/M1, Rasl2-8}, Cort (cortistatin) [NCBI Gene 12854] {aka CST, PCST}, Lyve1 (lymphatic vessel endothelial hyaluronan receptor 1) [NCBI Gene 114332] {aka 1200012G08Rik, Crsbp-1, Lyve-1, Xlkd1}, Pecam1 (platelet and endothelial cell adhesion molecule 1) [NCBI Gene 29583] {aka CD31, Pecam}, Rela (Rela proto-oncogene, NFKB subunit) [NCBI Gene 19697] {aka p65, p65 NF-kappa B, p65 NFkB}, Actb (actin, beta) [NCBI Gene 11461] {aka Actx, E430023M04Rik, beta-actin}, Stab1 (stabilin 1) [NCBI Gene 192187] {aka FEEL-1, FELE-1, MFEEL-1, MS-1, STAB-1, mKIAA0246}, Nfkb1 (nuclear factor of kappa light polypeptide gene enhancer in B cells 1, p105) [NCBI Gene 18033] {aka NF-KB1, NF-kappaB, NF-kappaB1, p105, p50, p50/p105}, Nos3 (nitric oxide synthase 3, endothelial cell) [NCBI Gene 18127] {aka 2310065A03Rik, Nos-3, eNOS, ecNOS}, Vwf (Von Willebrand factor) [NCBI Gene 22371] {aka 6820430P06Rik, B130011O06Rik, C630030D09, F8VWF, VWD}, Gapdh (glyceraldehyde-3-phosphate dehydrogenase) [NCBI Gene 14433] {aka Gapd}, Myd88 (myeloid differentiation primary response gene 88) [NCBI Gene 17874], Acta2 (actin alpha 2, smooth muscle, aorta) [NCBI Gene 11475] {aka 0610041G09Rik, Actvs, SMAalpha, SMalphaA, a-SMA, alphaSMA}, Lyve1 (lymphatic vessel endothelial hyaluronan receptor 1) [NCBI Gene 293186] {aka Xlkd1}
- **Diseases:** alcoholic liver disease (MESH:D008108), portal vein thrombosis (MESH:D012170), hepatic inflammation (MESH:D007249), chronic liver injury (MESH:D056487), hepatocyte damage (MESH:D020263), NAFLD (MESH:D065626), CLD (MESH:D008107), gut dysbiosis (MESH:D064806), hepatic fibrogenesis (MESH:D056486), cirrhotic (MESH:D000094724), cirrhosis (MESH:D005355), Liver cirrhosis (MESH:D008103), PSC (MESH:D015209), BDL (MESH:D001649), HE (MESH:D006501), Gut (MESH:C536735), portal hypertension (MESH:D006975), liver fibrogenesis (MESH:D017093)
- **Chemicals:** polyacrylamide (MESH:C016679), hematoxylin (MESH:D006416), sodium pentobarbital (MESH:D010424), bile acid (MESH:D001647), DAB (MESH:C000469), PBS (MESH:D007854), Paraffin (MESH:D010232), Sirius Red F3B (MESH:C009798), CO2 (MESH:D002245), isoflurane (MESH:D007530), LPS (MESH:D008070), water (MESH:D014867), H2O2 (MESH:D006861), sulfuric acid (MESH:C033158), ethanol (MESH:D000431), PFA (MESH:C003043), Triton X-100 (MESH:D017830), H&amp;E (MESH:D006371), PVDF (MESH:C024865), HYP (MESH:D006909), eosin (MESH:D004801), sphingolipid (MESH:D013107), NO (MESH:D009569), BDL (-), CCl4 (MESH:D002251), picric acid (MESH:C005858), xylene (MESH:D014992), SDS (MESH:D012967), Rifaximin (MESH:D000078262), TAK-242 (MESH:C507035), hydrochloric acid (MESH:D006851), olive oil (MESH:D000069463)
- **Species:** Homo sapiens (human, species) [taxon 9606], Bifidobacterium pseudolongum (species) [taxon 1694], Ligilactobacillus murinus (species) [taxon 1622], gut metagenome (species) [taxon 749906], Rattus norvegicus (brown rat, species) [taxon 10116], Mus musculus (house mouse, species) [taxon 10090], Romboutsia ilealis (species) [taxon 1115758], Anaerofustis (genus) [taxon 264995], Ligilactobacillus apodemi (species) [taxon 307126]
- **Cell lines:** /6J — Homo sapiens (Human), Cutaneous melanoma, Cancer cell line (CVCL_W797)

## Full text

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## Figures

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## References

59 references — full list in the complete paper: https://tomesphere.com/paper/PMC12829844/full.md

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Source: https://tomesphere.com/paper/PMC12829844