Table 1.
Selected studies targeting the gut-liver axis
| Type | Study subjects | Intervention details |
Key outcomes | Safety | Reference |
|---|---|---|---|---|---|
| FMT | n=20 cirrhotic patients (mainly due to chronic hepatitis C virus and/or alcohol use disorder) with MELD <17 and recurrent HE | Single FMT enema following antibiotic treatment vs. SOC | FMT well tolerated, significantly less patients receiving FMT developed HE. FMT increased microbial diversity and increased beneficial bacterial taxa | Less SAEs in the FMT group compared with SOC, no complications related to FMT | (Bajaj et al., 2019) |
| n=8 severe AH patients, n=18 historical controls with severe AH, both groups steroid-ineligible | Daily FMT via naso-jejunal tube for 7 days | 87.5% of patients who received FMT survived for 1 year, compared with 33.5% of matched controls | Excessive flatulence was a complaint of 50% of patients with FMT | (Philips et al., 2017) | |
| n=51 patients with severe AH | n=8 corticosteroids, n=17 nutritional support only, n=10 pentoxifylline, n=16 FMT (daily via naso-jejunal tube for 7 days) | Proportions of patients surviving at the end of 3 months in the steroids, nutrition, pentoxifylline, and FMT group were 38%, 29%, 30%, and 75%, respectively | Not reported | (Philips et al., 2018) | |
| n=38 patients with metabolic syndrome | Single allogenic FMT via naso-jejunal tube from lean donor vs. autologous FMT | No metabolic changes at 18 weeks after FMT, insulin sensitivity at 6 weeks after allogenic FMT was significantly improved | No SAEs in both groups | (Kootte et al., 2017) | |
| n=18 patients with metabolic syndrome | Single allogenic FMT via naso-jejunal tube from lean donor vs. autologous FMT | Significantly improved peripheral insulin sensitivity 6 weeks after FMT | No SAEs in both groups | (Vrieze et al., 2012) | |
| n=22 obese subjects without diabetes, NASH or metabolic syndrome | Randomized, double-blind study, FMT by capsules from a lean donor or placebo capsules | No significant changes in BMI at 12-week follow-up | No adverse events in both groups | (Allegretti et al., 2020) | |
| n=24 obese subjects with mild to moderate insulin resistance | Randomized, double-blind study, weekly FMT by capsules vs. placebo capsules for 6 weeks | No significant differences between groups for insulin sensitivity, body mass index and fat mass | No significant differences in adverse events, no FMT related SAEs | (Yu et al., 2020) | |
| Next-generation engineered bacteria | Mouse models of hyperammonemia | Oral gavage of engineered Escherichia coli Nissle strains (SYNB1020) | Significant lowering of blood ammonia levels | (Kurtz et al., 2019) | |
| n=23 patients with cirrhosis | Escherichia coli Nissle strains (SYNB1020) for 6 days vs. placebo | No evidence of blood ammonia lowering or changes in other exploratory endpoints relative to placebo | No adverse events reported | (Synlogic, 2019) | |
| Experimental alcoholic liver disease (mice) | Oral gavage of engineered Lactobacillus reuteri-producing IL-22 vs. non-engineered Lactobacillus reuteri | Reduced bacterial translocation to the liver by increasing the expression of REG3G in the intestine, reduced ethanol-induced liver damage | (Hendrikx et al., 2019) | ||
| Bacteriophages | Humanized mouse models of ethanol-induced liver damage | Oral gavage of bacteriophages targeting cytolysin-positive E. faecalis vs. control phages | Bacteriophage administration reduced the severity of ethanol-induced liver disease | (Duan et al., 2019) | |
| Targeting the bile acid pathway | Mouse models of ethanol-induced liver damage | Non-tumorigenic variant of FGF19 vs. vehicle | Improved gut barrier function and reduced liver damage | (Hartmann et al., 2018) | |
| n=19 AH patients | Obeticholic acid (OCA) vs. placebo | Decrease in MELD score from baseline to Day 42 of −3.4 in the OCA arm, and −2.2 in the placebo arm (P-Value of 0.62) | No AEs related to study drug but discontinued due to safety concerns in patients with advanced liver disease | Clinicaltrials.gov identifier: NCT02039219 | |
| n=82 biopsy-proven NASH | Randomized, double-blind, placebo-controlled, phase 2 study, NGM282 (engineered FGF19 analogue) vs. placebo | Significant reduction in histological features, such as the NAFLD activity score and liver fibrosis after 12 weeks of treatment | AEs included diarrhea, nausea, frequent bowel movements, and abdominal pain. No SAE related to study drug | (Harrison et al., 2018; Harrison et al., 2019) | |
| n= 931 biopsy-proven NASH | Interim analysis of a randomized, double-blind, placebo-controlled study, OCA vs. Placebo | OCA 25 mg significantly improved fibrosis and key components of NASH disease activity after 18 months of treatment | Most common adverse event were pruritus and increases in LDL cholesterol related to OCA | (Younossi et al., 2019) | |
| SCFAs | Mouse models of ethanol-induced liver damage | Administration of tributyrin (ester composed of butyrate and glycerol) | Gut barrier stabilization, reduced liver injury,however, no effect on liver injury from long-term ethanol administration | (Cresci et al., 2014). | |
| n=60 overweight subjects | Randomized, controlled study, inulin-propionate ester vs. inulin-control administration over 24 weeks | Significantly reduced weight gain, intra-abdominal adipose tissue distribution, hepatic lipid content in the Inulin-propionate ester group | No increased AEs in the inulin-propionate ester group | (Chambers et al., 2015) | |
| n=10 patients with metabolic syndrome, n=9 healthy | Oral administration of sodium butyrate daily for 4 weeks | No effect on plasma and fecal butyrate levels after treatment. Significantly improved insulin sensitivity only in healthy lean subjects | Not reported | (Bouter et al., 2018) |
Bold font in the second column highlights the studied organism or disease. AEs, adverse events, AH, alcoholic hepatitis; BMI, body mass index; FMT, fecal microbiota transfer; HE, hepatic encephalopathy; OCA, obeticholic acid; REG3G, antimicrobial molecule regenerating islet derived 3 gamma; SAEs, severe adverse events; SCFAs, short-chain fatty acids; SOC, standard of care