Monitoring the differentiation of bone marrow cells

Monitoring the differentiation of bone marrow cells


Bone marrow contains biological factories, which pump out billions of new blood cells daily. The non-blood cells that maintain this production also have the potential to produce bone, fat and cartilage. This output all starts from stem cells that have the ability to differentiate into various types of cells.

Researchers, have now mapped distinct bone marrow niche populations and their differentiation paths for the bone marrow factory that starts from mesenchymal stromal cells and ends with three types of cells -- fat cells, bone-making cells and cartilage-making cells. Respectively, those cells are called adipocytes, osteoblasts and chondrocytes. This non-hematopoietic cell system is distinct from another production line in the bone marrow -- the hematopoietic system -- that makes red blood cells, blood-clotting cells and cells of the immune system.

Researchers have published their findings in Cell Reports using main research tool was single-cell RNA sequencing, which identified mRNA transcripts from genes in 2,847 individual bone marrow cells of the non-hematopoietic system. By sequencing these RNAs, researchers could tell which genes had been turned on or off at different steps on differentiation pathways.

"The single-cell RNA sequencing gene expression profiles generated permit a real-time depiction of dynamic processes associated with fate choices within the bone marrow microenvironment," said the senior author. "Our study provides a landscape for a better understanding of transcriptional networks regulating differentiation of bone marrow microenvironment cells."

A major finding was a detailed characterization of three distinct paths in a simple, branching hierarchy of differentiation, starting from mesenchymal stem cells, or MSCs, and ending with pre-adipocytes, pro-osteoblasts and pro-chondrocytes. In all, they identified seven distinct cell states in two branching pathways. One branch was MSCs to adipocyte progenitors to pre-adipocytes. The other was from MSCs to osteoblast/chondrocyte progenitors to pre-osteoblasts/chondrocytes, and finally a split to either pro-osteoblasts or pro-chondrocytes.

For each of these unique subpopulations, they identified gene signatures, and they demonstrated how several transcription factors -- gene control proteins that alter the rate of transcription from DNA to mRNA -- influence fate decisions to specific bone marrow lineages. The dataset the researchers created and the analysis tools they used are publicly available and will serve as a resource for future studies investigating stromal cell differentiation.

An important control in the research, the author says, and one that should be used in all single-cell RNA sequencing research, was validation studies. These included fate-marked reporters and knockdowns of transcription factors previously reported to govern bone and fat differentiation. The knockdowns allowed researchers to assay differentiation potential in cell culture for the lineages they identified through single-cell RNA sequencing. The validation studies supported the findings from their single-cell RNA sequencing.

https://www.uab.edu/news/research/item/10649-uncovering-secrets-of-bone-marrow-cells-and-how-they-differentiate

https://www.cell.com/cell-reports/fulltext/S2211-1247(19)30797-1

http://sciencemission.com/site/index.php?page=news&type=view&id=publications%2Fmapping-distinct-bone&filter=22

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