Open AccessVollständige AnalyseJun 16, 2026

Faecalibacterium prausnitzii attenuates sepsis-induced acute lung injury via gut-lung axis in murine models

F. prausnitzii administration reduced inflammatory and oxidative stress markers in two murine S-ALI models through the AA-LXA4-Nrf2-HO-1 pathway, with a favorable direction of effect; no evidence of efficacy in humans was generated.

The question (PICO)

PopulationMice with CLP- or LPS-induced S-ALI (human clinical data are observational only, 16S rRNA, no intervention)

InterventionOral/gavage administration of F. prausnitzii before or after S-ALI induction

VergleichUntreated S-ALI control group (no F. prausnitzii)

EndpunktPulmonary inflammation, oxidative stress, intestinal barrier integrity, SCFA (butyrate) production, metabolomic profile (AA, LXA4), Nrf2/HO-1 expression

DEvidenz

Studie

Study

Effekt

Günstig

Zusammenfassung der Ergebnisse nach Endpunkt

Endpunkt	Grad	Richtung	Effekt	Studien
Pulmonary inflammation (inflammatory markers)	D	▲ Günstig	redução relatada sem IC ou tamanho de efeito reportado	1
Oxidative stress (Nrf2/HO-1)	D	▲ Günstig	upregulação relatada sem IC ou tamanho de efeito reportado	1
Intestinal barrier integrity	D	▲ Günstig	restauração relatada sem IC ou tamanho de efeito reportado	1
Butyrate production (SCFAs)	D	▲ Günstig	aumento relatado sem IC ou tamanho de efeito reportado	1
LXA4 levels (arachidonic acid metabolism)	D	▲ Günstig	aumento relatado sem IC ou tamanho de efeito reportado	1
Gut dysbiosis (relative abundance of F. prausnitzii in humans)	C	▼ Ungünstig	redução observacional em pacientes S-ALI sem IC reportado	1
Mortality / primary clinical outcome in humans	D	— Unzureichend	não avaliado	—

Pulmonary inflammation (inflammatory markers)D

Richtung▲ Günstig

Effektredução relatada sem IC ou tamanho de efeito reportado

Studien1

Oxidative stress (Nrf2/HO-1)D

Richtung▲ Günstig

Effektupregulação relatada sem IC ou tamanho de efeito reportado

Studien1

Intestinal barrier integrityD

Richtung▲ Günstig

Effektrestauração relatada sem IC ou tamanho de efeito reportado

Studien1

Butyrate production (SCFAs)D

Richtung▲ Günstig

Effektaumento relatado sem IC ou tamanho de efeito reportado

Studien1

LXA4 levels (arachidonic acid metabolism)D

Richtung▲ Günstig

Effektaumento relatado sem IC ou tamanho de efeito reportado

Studien1

Gut dysbiosis (relative abundance of F. prausnitzii in humans)C

Richtung▼ Ungünstig

Effektredução observacional em pacientes S-ALI sem IC reportado

Studien1

Mortality / primary clinical outcome in humansD

Richtung— Unzureichend

Effektnão avaliado

Studien—

Kontext

Sepsis-induced acute lung injury carries high ICU mortality and lacks targeted pharmacological treatments. The gut-lung axis is an emerging therapeutic target, and F. prausnitzii is a butyrate-producer linked to anti-inflammatory effects in other settings. Reduced abundance of this organism in S-ALI patients prompted this preclinical mechanistic investigation.

Was die Studie zeigte

F. prausnitzii reduced pulmonary inflammation and oxidative stress in both CLP and LPS models, with increased LXA4 levels and upregulation of Nrf2 and HO-1. Butyrate production and intestinal barrier integrity were restored. Correlation analysis indicated interactions between microbiota, SCFAs, metabolomics, and inflammatory markers. Absolute numbers, 95% CIs, and effect sizes were not reported in the available text.

Wie es durchgeführt wurde

Mixed-design study: observational 16S rRNA analysis in S-ALI patients (sample size not specified) and two murine experimental models (CLP and LPS). Non-targeted metabolomics and microbiota analysis were used mechanistically. Duration of animal experiments not specified in the provided text.

Effektgröße

Quantitative effect sizes (SMD, 95% CI, absolute values) were not reported in the available extract; statistical significance claims are made without explicit magnitude metrics.

Einschränkungen

Efficacy evidence is restricted to murine models; translation to humans is not demonstrated. Human clinical data are purely observational (no risk-of-bias tool applied, e.g., ROBINS-I). Human and animal sample sizes not reported in the text. The mechanistic pathway (LXA4-Nrf2-HO-1) is associative, not causal — no inhibition or knock-out experiments were described.

In der klinischen Praxis

This study provides no basis for clinical use of F. prausnitzii in S-ALI. Clinicians should not modify therapeutic conduct based on these data. The mechanistic hypothesis generated may inform future study protocols.

Was noch fehlt

RCTs or at least controlled human studies in S-ALI patients are required for any clinical inference. Pharmacological or genetic inhibition experiments targeting the LXA4-Nrf2-HO-1 pathway are needed to establish mechanistic causality.

Quelle: DOI 10.3389/fmicb.2026.1820338 · 2026

Faecalibacterium prausnitzii attenuates sepsis-induced acute lung injury via gut-lung axis in murine models

Kontext

Was die Studie zeigte

Wie es durchgeführt wurde

Effektgröße

Einschränkungen

In der klinischen Praxis

Was noch fehlt

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