Buzzapp Master 
WASHINGTON — When a published case of auto-brewery syndrome (ABS) in China — caused by Klebsiella pneumoniae — received widespread publicity in 2019, patients reacted, sending emails to lead author Jing Yuan, in Beijing, China. Many of these inquiries were from patients in the United States who believed they might have ABS.
“Can you check to see if I have ABS?” patients asked Yuan.
For help, Yuan contacted Bernd Schnabl, MD, at the University of California, San Diego, whose research was addressing alcohol-associated liver disease and who was also interested in the gut-liver axis and the role of gut microbiome–derived ethanol in metabolic dysfunction–associated steatotic liver disease (MASLD).
“She asked me, ‘Are you interested in looking into ABS?” Schnabl recalled at the Gut Microbiota for Health (GMFH) World Summit 2025. He dug in and formed what may be the largest research cohort thus far of patients with ABS — a group of 22 patients with their diagnosis confirmed through observed glucose challenge.
His soon-to-be-published research on this cohort has confirmed excess ethanol production — and elevations of both proteobacteria and fermentation pathways — in patients whose ABS symptoms had flared.
ABS is considered a rare condition, but “I’d argue that it’s rarely diagnosed because many physicians don’t know of the diagnosis, and many are actually very skeptical about the disease,” Schnabl said at the meeting, convened by the American Gastroenterological Association and the European Society of Neurogastroenterology and Motility.
Patients experience symptoms of intoxication when ethanol produced by dysregulated gut microbiota exceeds the capacity of the liver to metabolize it and accumulates in the blood, he explained.
“Patients constantly talk about brain fog; they can’t concentrate, and it can be very severe,” he said. “They don’t get a firm diagnosis and go from one medical center to another, and they also suffer from complications of alcohol use disorder including serious family, social, and legal problems.”
Advancing Knowledge, Findings From the CohortThe phenomenon of ethanol production by gut microbiota has been known for over a century, Schnabl wrote with two co-authors in a 2024 review in Nature Reviews Gastroenterology & Hepatology of “endogenous ethanol production in health and disease.”
And in recent decades, he said at the meeting, research has linked endogenous ethanol production to MASLD, positioning it as a potential contributor to disease pathogenesis. In one of the most recently published studies, patients with MASLD had higher concentrations of ethanol in their systemic circulation after a mixed meal test than did healthy controls — and even higher ethanol concentrations in their portal vein blood, “suggesting that this ethanol is coming from the gut microbiome,” Schnabl said.
The paper from China that led Schnabl to establish his cohort was spurred on by a patient with both ABS and MASLD cirrhosis. The patient was found to have strains of high alcohol–producing K pneumoniae in the gut microbiome. When the researchers transplanted these strains into mice via fecal microbiota transplantation (FMT), the mice developed MASLD.
Schnabl’s study focused just on ABS, which is alternatively sometimes called gut fermentation syndrome. The 22 patients in his ABS cohort — each of whom provided stool samples corresponding to remission or flare of ABS symptoms — had a median age of 45 years and were predominantly men, slightly overweight and not obese, and without liver disease. (About 48 patients with suspected ABS were screened, and 20 were excluded after an observed glucose challenge failed to establish a diagnosis; 6 withdrew from the study.)
During remission (no symptoms), patients’ mean blood alcohol content (BAC) level was zero, but during a flare, the mean BAC level was 136 mg/dL. “To put it into perspective, the legal limit for driving in the US is 80 mg/dL,” Schnabl said. Within a mean of 4 hours after the oral glucose load used for diagnosis, patients’ mean BAC level was 73 mg/dL, he noted.
To assess ethanol production by the patients’ microbiota, Schnabl and his team cultured the stool samples — anaerobically adding glucose and measuring ethanol production — and compared the results with findings from stool samples collected from household partners who generally were of the opposite sex. Among their findings: cultures of stool from patients experiencing a flare produced significantly more ethanol than stool from household partners and samples from patients in remission.
To assess whether ethanol was produced by bacteria or fungi, the researchers measured ethanol production in cultures treated with either the antifungal amphotericin B or the antibiotic chloramphenicol. “Chloramphenicol clearly decreased the ethanol production,” Schnabl said. “So at least in this culture test, bacteria produced most of the alcohol in our patients.”
Taxonomic profiling, moreover, revealed “significantly elevated levels” of proteobacteria — with relative abundance of Escherichia coli and K pneumoniae — in patients who were flaring, he said. And functional profiling of the fecal microbiota showed much higher activity of fermentation pathways during patients’ flares than in household partners or healthy controls. (Healthy controls were incorporated into the taxonomic and functional profiling parts of the research.)
A Clinical Approach to ABSSchnabl said at the meeting that stool cultures of both household partners and patients in long-term remission “all produced some low amount of ethanol, which was initially puzzling to us” but became less surprising as he and his colleagues reviewed more of the literature.
Asked during a discussion period whether ABS could explain chronic fatigue, a commonly reported chronic symptom in populations, Schnabl said it’s possible. And in an interview after the meeting, he elaborated. “The literature clearly says ABS is a rare disease, but I argue that more patients may have ABS; they just don’t know it. And I suspect some may have mild symptoms, like brain fog, feeling tired,” he said. “But at this point, this is complete speculation.”
Physicians should “be aware that if a patient has unexplained symptoms that could be aligned with ABS, checking the blood alcohol level” may be warranted, he said in the interview. A PEth (phosphatidylethanol) test — a biomarker test used to check for longer-term alcohol consumption — is an option, but it is important to appreciate it will not discriminate between exogenous alcohol drinking and endogenous ethanol production.
There are no standardized diagnostic tests for ABS, but at the meeting, Schnabl outlined a clinical approach, starting with a standardized oral glucose tolerance challenge test to detect elevated ethanol concentrations.
A fecal yeast test is warranted for diagnosed patients on the basis of some case reports in which ABS symptoms have improved with antifungal treatments. When the fecal yeast test is negative, “ideally you want to identify the ethanol-producing intestinal bacteria in the patient,” he said, using cultures and fecal metagenomics sequencing.
Treatment could then be tailored to the identified microbial strain, with options being selective antibiotics, probiotics and/or prebiotics, and — likely in the future — phages or FMT, he said. (These options, all aimed at restoring gut homeostasis, are also discussed in his 2024 review.)
Schnabl and his team recently performed FMT in a patient with ABS in whom E coli was determined to be producing excessive ethanol. The FMT, performed after antibiotic pretreatment, resulted in decreases in the relative abundance of proteobacteria and E coli levels, lower blood alcohol levels and fermentation enrichment pathways, and normalized liver enzymes.
After 6 months, however, the patient relapsed, and the measurements reversed. “We decided to do FMT every month, and we treated the patient for 6 months,” Schnabl said, noting that ABS had rendered the patient dysfunctional and unable to work. “He has been out of treatment for over a year now and is not flaring any longer.”
Schnabl and Elizabeth Hohmann, MD, at Massachusetts General Hospital, Boston, are currently recruiting patients with confirmed ABS for a National Institutes of Health–funded phase 1 safety and tolerability study of FMT for ABS.
Schnabl disclosed serving as an external scientific advisor/consultant to Ambys Medicines, Boehringer Ingelheim, Gelesis, Mabwell Therapeutics, Surrozen, and Takeda; and as the founder/BOD/BEO of Nterica Bio.
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