Description

The gut microbiome plays a significant role in modulating the immune re-constitution post allogeneic stem cell transplant (ASCT). Low gut microbial diversity has been consistently associated with poor outcomes of transplant including increased incidence of acute graft versus host disease (aGVHD), post-transplant bacterial sepsis and non-relapse mortality (NRM). However, the exact mechanism by which gut microbiome influences local as well as systemic immunity is not completely known, and is thought to be due to the impact of microbial metabolites on intestinal epithelial cells and host antigen-presenting cells. Understanding these mechanisms and modulating the microbiome may be crucial to improving transplant outcomes. Rifaximin is a locally acting antibiotic that has been approved for manipulating the gut microbiome in hepatic failure. It is unique because of its ability to clear pathogenic bacteria, while preserving the anaerobic commensals. It can potentially modify the gut microbiome to increase the alpha diversity and this may help reduce aGVHD, infectious complications, and mortality post-transplant. High incidence of multidrug resistant sepsis and frequent use of broad spectrum antibiotics in India, would result in higher rates of dysbiotic gut- making microbiome manipulation to improve transplant outcomes more relevant in our country. We are proposing a randomized controlled trial to understand the benefits of modulating the gut microbiome in patients of ASCT while investigating the local and global immune repertoire using single cell sequencing and multicolour flow cytometry.

Study design: Single center, open-labeled, phase II study, randomized controlled trial.

Primary Objective: To determine the impact of rifaximin on gut microbial alpha diversity and compare it with controls.

Secondary Objectives:

To determine impact of rifaximin on 1 year non relapse mortality post-transplant, incidence of grade III/IV aGVHD, incidence of MDR sepsis, patterns of immune cell reconstitution, and cytokine profile post-transplant.

Exploratory objective: To use single-cell transcriptomics (SCT) to identify immune cell profiles in gut biopsies post ASCT in order to get insights into the impact of the microbiome on local gut immunity.

Study population: Adult patients who undergo ASCT at the Tata Memorial Centre.

Study Methodology in brief: Patients would be randomized to receive either oral tablet rifaximin 200 mg twice daily along with standard posttransplant treatment or to receive standard of care treatment alone. Stool samples and blood samples will be collected at different time points for microbiome analysis and immune cell profiling respectively. We plan to perform 16s rRNA-based next-generation sequencing of all variable regions using a phased primer approach using stool DNA as a template. Gut microbiome diversity will be calculated using the inverse Simpson index. Immune cell profile would be analyzed using 16 color flow cytometry. In selected cases where patients undergo colonoscopic gut biopsy for aGVHD, we will also obtain samples for transcriptome sequencing. This will help us understand how immune cells interact with gut mucosa and microbiome in patients of aGVHD