Single-cell RNA sequencing identifies phenotypically, functionally, and anatomically distinct stromal niche populations in human bone marrow

Abstract: Hematopoiesis is regulated by the bone marrow (BM) stroma. However, cellular identities and functions of the different BM stromal elements in humans remain poorly defined. Based on single-cell RNA sequencing, we systematically characterized the BM stromal compartment which led to the identification of six transcriptionally and functionally distinct stromal cell populations. Stromal cell differentiation hierarchy was recapitulated based on RNA velocity analysis, in vitro proliferation capacities and differentia… Show more

“…Similarly, Buechler et al (2021) illustrated the compartmentalisation of the murine fibroblast lineage into universal, specialised and activated subtypes, whereby a universal/common ancestor fibroblast population gives rise to tissue-specific specialised subtypes (steady state) that may acquire an activated phenotype during disease/infection. Based on these studies, scRNA-seq of human bone marrow stroma (CD45 low/À CD235a À CD271 + ) identified six stromal cell types across nine clusters, which included pre-fibroblasts and multipotent stromal stem cells (Li et al, 2022).…”

Stromal bone marrow fibroblasts and mesenchymal stem cells support acute myeloid leukaemia cells and promote therapy resistance

“…Similarly, Buechler et al (2021) illustrated the compartmentalisation of the murine fibroblast lineage into universal, specialised and activated subtypes, whereby a universal/common ancestor fibroblast population gives rise to tissue-specific specialised subtypes (steady state) that may acquire an activated phenotype during disease/infection. Based on these studies, scRNA-seq of human bone marrow stroma (CD45 low/À CD235a À CD271 + ) identified six stromal cell types across nine clusters, which included pre-fibroblasts and multipotent stromal stem cells (Li et al, 2022).…”

Stromal bone marrow fibroblasts and mesenchymal stem cells support acute myeloid leukaemia cells and promote therapy resistance