Immuno-localization of definitive hematopoietic stem cells in the vascular niche of mouse fetal liver.

Understanding the murine fetal liver (FL) hematopoietic microenvironment, which promotes HSC proliferation, warrants identifying innate relationships between stem cells and the niche. An inclusive study of these cell associations remains elusive. Here, we optimized a protocol to immunolabel HSCs alongside the FL vasculature, a promising niche component. We provide a comprehensive plan from tissue processing, immunohistochemistry, and confocal microscopy, to three-dimensional distance analyses between HSCs and vasculature. This technique can be adapted for achieving congruous outcomes for other cell types. For complete details on the use and execution of this protocol, please refer to Biswas et al. (2020).

Niche-Mediated Integrin Signaling Supports Steady-State Hematopoiesis in the Spleen.

Outside-in integrin signaling regulates cell fate decisions in a variety of cell types, including hematopoietic stem cells (HSCs). Our earlier published studies showed that interruption of periostin (POSTN) and integrin-αv (ITGAV) interaction induces faster proliferation in HSCs with developmental stage-dependent functional effects. In this study, we examined the role of POSTN-ITGAV axis in lymphohematopoietic activity in spleen that hosts a rare population of HSCs, the functional regulation of which is not clearly known. Vav-iCre-mediated deletion of Itgav in the hematopoietic system led to higher proliferation rates, resulting in increased frequency of primitive HSCs in the adult spleen. However, in vitro CFU-C assays demonstrated a poorer differentiation potential following Itgav deletion. This also led to a decrease in the white pulp area with a significant decline in the B cell numbers. Systemic deletion of its ligand, POSTN, phenocopied the effects noted in Vav-Itgav-/- mice. Histological examination of Postn-deficient spleen also showed an increase in the spleen trabecular areas. Importantly, these are the myofibroblasts of the trabecular and capsular areas that expressed high levels of POSTN within the spleen tissue. In addition, vascular smooth muscle cells also expressed POSTN. Through CFU-S12 assays, we showed that hematopoietic support potential of stroma in Postn-deficient splenic hematopoietic niche was defective. Overall, we demonstrate that POSTN-ITGAV interaction plays an important role in spleen lymphohematopoiesis.

The Periostin/Integrin-αv Axis Regulates the Size of Hematopoietic Stem Cell Pool in the Fetal Liver.

We earlier showed that outside-in integrin signaling through POSTN-ITGAV interaction plays an important role in regulating adult hematopoietic stem cell (HSC) quiescence. Here, we show that Itgav deletion results in increased frequency of phenotypic HSCs in fetal liver (FL) due to faster proliferation. Systemic deletion of Postn led to increased proliferation of FL HSCs, albeit without any loss of stemness, unlike Vav-Itgav-/- HSCs. Based on RNA sequencing analysis of FL and bone marrow HSCs, we predicted the involvement of DNA damage response pathways in this dichotomy. Indeed, proliferative HSCs from Postn-deficient FL tissues showed increased levels of DNA repair, resulting in lesser double-strand breaks. Thus POSTN, with its expression majorly localized in the vascular endothelium of FL tissue, acts as a regulator of stem cell pool size during development. Overall, we demonstrate that the duality of response to proliferation in HSCs is developmental stage dependent and can be correlated with DNA damage responses.

Periostin and Integrin Signaling in Stem Cell Regulation.

Stem cell function is regulated by a huge repertoire of external cues along with stem cell intrinsic genetic and epigenetic factors. These interactions come through a variety of cell adhesion receptors, of which integrins are one of the most important classes. They interact with extracellular matrix (ECM) components and various bound proteins. Apart from inside-out signaling through which integrins ensure that the cells are stably bound to the ECM, outside-in integrin signaling, through binding to a variety of ligands, play important roles in cell fate decisions. Periostin is one such ligand whose role in functional regulation of stem cells is emerging due to its wide expression profile. In this review, we discuss the recent advancements made in the field.

Energy Producing Metabolic Pathways in Functional Regulation of the Hematopoietic Stem Cells.

The hematopoietic system has a very well-studied hierarchy with the long-term (LT) hematopoietic stem cells (HSCs) taking the top position. The pool of quiescent adult LT-HSCs generated during the fetal and early postnatal life acts as a reservoir to supply all the blood cells. Therefore, the maintenance of this stem cell pool is pivotal to maintaining homeostasis in hematopoietic system. It has long been known that external cues, along with the internal genetic factors influence the status of HSCs in the bone marrow (BM). Hypoxia is one such factor that regulates the vascular as well as hematopoietic ontogeny from a very early time point in development. The metabolic outcomes of a hypoxic microenvironment play important roles in functional regulation of HSCs, especially in case of adult BM HSCs. Anaerobic metabolic pathways therefore perform prominent role in meeting energy demands. Increased oxidative pathways on the other hand result in loss of stemness. Recent studies have attributed the functional differences in HSCs across different life stages to their metabolic phenotypes regulated by respective niches. Indicating thus, that various energy production pathways could play distinct role in regulating HSC function at different developmental/physiological states. Here, we review the current status of our understanding over the role that energy production pathways play in regulating HSC stemness. © 2018 IUBMB Life, 70(7):612-624, 2018.