Abstract
Hematopoietic stem cells (HSCs) are maintained in stem cell niches, which regulate stem cell fate. Extracellular matrix (ECM) molecules, which are an essential part of these niches, can actively modulate cell functions. However, only little is known on the impact of ECM ligands on HSCs in a biomimetic environment defined on the nanometer-scale level. Here, we show that human hematopoietic stem and progenitor cell (HSPC) adhesion depends on the type of ligand, i.e., the type of ECM molecule, and the lateral, nanometer-scaled distance between the ligands (while the ligand type influenced the dependency on the latter). For small fibronectin (FN)–derived peptide ligands such as RGD and LDV the critical adhesive interligand distance for HSPCs was below 45 nm. FN-derived (FN type III 7–10) and osteopontin-derived protein domains also supported cell adhesion at greater distances. We found that the expression of the ECM protein thrombospondin-2 (THBS2) in HSPCs depends on the presence of the ligand type and its nanostructured presentation. Functionally, THBS2 proved to mediate adhesion of HSPCs. In conclusion, the present study shows that HSPCs are sensitive to the nanostructure of their microenvironment and that they are able to actively modulate their environment by secreting ECM factors.
Highlights
Hematopoietic stem cells (HSCs) are located in specific environments in the bone marrow, i.e. the stem cell niches
In order to unravel the significance of matrix nanostructure for the HSC niche function, we investigated the influence of different extracellular matrix (ECM) ligands and nanopatterns on hematopoietic stem and progenitor cell (HSPC) adhesion, proliferation, differentiation and gene expression
Gold nanopatterned polyethylene glycol (PEG) hydrogels were produced and biofunctionalized with ligands that are present in the bone marrow ECM to mimic properties of the ECM environment
Summary
Hematopoietic stem cells (HSCs) are located in specific environments in the bone marrow, i.e. the stem cell niches. Specialized niche cells, extracellular matrix (ECM) and soluble factors play essential roles in regulating HSC function and maintenance. To which extent those factors contribute to the functionality of the bone marrow stem cell niches and how they are regulated remains uncertain [1]. Evidence has been found that in addition to the niche regulating stem cell behavior, stem cells and their progeny actively modulate their niche [2,3]. In all niches mesenchymal stem cells play an important role [11]. The relevance of each of these niches for individual HSC functions is under debate
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