Fecal microbiota transplantation from young donor mice rejuvenates hematopoietic stem cell in aged recipients by suppressing inflammatory signals while modulating gut microbiota and metabolites

Hematopoietic stem cell (HSC) aging is accompanied by hematopoietic reconstitution dysfunction, including loss of regenerative and engraftment ability, myeloid differentiation bias and elevated risks of hematopoietic malignancies. Gut microbiota, a key regulator of host health and immunity, has been recently reported to impact hematopoiesis. However, there is currently no empirical evidence elucidating the direct impact of gut microbiome on aging hematopoiesis. To assess these potential effects, we performed fecal microbiota transplantation (FMT) from young mice to aged mice and observed an increment in both the absolute number and the engraftment ability of HSCs. Single cell RNA sequencing depicted overall transcriptional changes of HSCs as well as the bone marrow microenvironment and indicated that gut microbiota from young mice enhanced cell cycle activity of HSCs, attenuated canonical inflammatory signals and mitigated inflammation-associated phenotypes in aging hematopoiesis. Integrated microbiome-metabolome analysis uncovered that FMT reshaped gut microbiota construction and metabolite landscape, while the administration of Lachnospiraceae and tryptophan-associated metabolites promoted the recovery of hematopoiesis and rejuvenated aged HSCs. Together, our results highlighted the paramount importance of the gut microbiota in HSC aging and provided a strong rationale to limit hematopoietic exhaustion and treat hematologic disorders. Two samples from murine bone marrow cells by Single cell RNA sequencing: FMT-young and FMT-aged.