Is fecal microbiota transplant effective? Is it really safe? And is it really all the same? Scientists at the University of Chicago have investigated the regional differences in gut environments to question these interventions to analyze the microbiome differences and their effects after transplantation form different intestine areas. The results show how host-microbe mismatches after these interventions could affect gut health.
Researchers have identified KpsM as a virulence factor in Escherichia coli that was responsible for liver damage in alcohol-associated hepatitis (AH). A small-molecule inhibitor of KpsM reduced liver damage in animal models of AH.
Top-line data from Maat Pharma SA’s phase III study of MaaT-013, an enema microbiome ecosystem therapy for acute graft-vs.-host disease, hit its primary endpoint. The milestone has prompted the company to think about filing an MAA submission for the treatment in Europe sometime in the middle of 2025, which is earlier than it had anticipated.
Microbiome specialist Enterobiotix Ltd. has reported positive results for the phase Ib trial of its EBX-102 fecal microbiota therapy in patients with stable liver cirrhosis. The placebo-controlled study involved first-in-human dosing with the company’s encapsulated oral formulation of microbiota derived from the stools of healthy donors. After initial dosing, patients were followed up for 12 weeks to assess changes in a range of clinical and blood biomarkers.
The gastrointestinal tract could be key to developing new drugs to combat resistant bacteria. Computational analysis of the human microbiome has revealed a new class of peptides with antimicrobial potential that, once synthesized, inhibited the growth of several microorganisms in vitro and in vivo.
The first patenting to emerge in the name of Copenhagen, Denmark-based 1Health Gut In Balance ApS (dba Gut In Balance) describes development of an apparatus and system that enables hospitals to produce fecal microbiota transplantation capsules on site, and much more efficiently and cheaply.
South Korea’s Genome & Co. Ltd. (KOSDAQ:314130) shares rose nearly 30% June 3 after it disclosed a potential ₩586.38 billion (US$426 million) licensing deal for its novel antibody-drug conjugate candidate with Switzerland’s Debiopharm International SA.
South Korea’s Genome & Co. Ltd. (KOSDAQ:314130) shares rose nearly 30% June 3 after it disclosed a potential ₩586.38 billion (US$426 million) licensing deal for its novel antibody-drug conjugate candidate with Switzerland’s Debiopharm International SA.
Researchers have identified enzymes in gut microorganisms that could cleave A and B antigens from red blood, transmuting them to O negative cells. This is “a decisive step forward” in the quest to develop a universal donor blood that can be administered to people of any blood group without eliciting a harmful immune response, according to Maher Abou Hachem of the Technical University of Denmark, who co-led the research.
