Hindbrain boundaries as niches of neural progenitor/stem cells regulated by the extracellular matrix proteoglycan chondroitin sulphate

Abstract

ABSTRACTThe interplay between neural progenitor/stem cells (NPSC) and their extracellular matrix (ECM), is a crucial regulatory mechanism that determines their behavior. Nonetheless, how the ECM dictates internal processes remains elusive. The hindbrain is valuable to examine this relationship, as cells in the hindbrain boundaries (HB), which arise between any two neighboring rhombomeres, express the NPSC-marker Sox2 while being surrounded with the ECM molecule chondroitin sulphate proteoglycan (CSPG), in chick and mouse embryos. CSPG expression was used to isolate HB/Sox2+ cells for RNA-sequencing, revealing their distinguished molecular properties as typical NPSCs, which express known and newly-identified genes relating to stem cells, cancer, matrisome and cell-cycle. In contrast, the CSPG-/non-HB cells, displayed clear neural-differentiation transcriptome. To address whether CSPG is significant for hindbrain development, its expression was manipulated in vivo and in vitro. CSPG-manipulations shifted the stem versus differentiation state of HB cells, evident by their behavior and altered gene expression. These results provide novel understanding on the uniqueness of hindbrain boundaries as repetitive pools of NPSCs in-between the rapidly-growing rhombomeres, which rely on their microenvironment to maintain undifferentiated during development.SUMMARY:Transcriptomic analysis of hindbrain boundaries revels them to harbor cells with neural progenitor\stem cell properties that rely on local extracellular matrix to maintain their undifferentiated state.