Abstract
Highly conserved, complex and interacting morphogen signalling pathways regulate adult stem cells and control cell fate determination across numerous different organs. In homeostasis, the bone morphogenetic protein (BMP) pathway predominantly promotes cell differentiation. Localised expression of ligand sequestering BMP antagonists, such as Gremlin 1 (Grem1), necessarily restricts BMP activity within the stem cell niche and facilitate stemness and self‐renewal. In a new paper, Rowan, Jahns et al show that acute deletion of Grem1 in adult mice, using a ubiquitous ROSA26‐Cre recombinase, induced not only severe intestinal enteropathy but also hypocellular bone marrow failure suggestive of stem cell niche collapse in both tissues. Grem1 has an increasingly recognised pleiotrophic role in a number of organ systems and is implicated across a wide range of disease states. Although the importance of Grem1 in intestinal stem cell regulation has been well described, a putative function in haematopoietic niche maintenance is novel and requires further exploration. Moreover, the complex and context‐specific regulation of Grem1, among a host of functionally convergent but structurally disparate BMP antagonists, warrants further research as we learn more about the pathogenic consequences of deranged expression of this small, but important, protein. © 2020 The Authors. The Journal of Pathology published by John Wiley & Sons Ltd on behalf of Pathological Society of Great Britain and Ireland.
Highlights
Adult stem cells are critical to support tissue homeostasis, turnover, repair and regeneration, but cell fate determination in organ systems must be strictly regulated to prevent the unwanted development of neoplasia
bone morphogenetic protein (BMP) activity must be restricted within the stem cell niche for maintenance of stemness, and this is achieved by the localised expression of a number of secreted ligandsequestering BMP antagonists
As haematopoietic stem cells (HSCs) and their mesenchymal niche components both depend upon tightly regulated BMP pathway activity to differentiate appropriately, BMP2/4 activity, the deleterious effect of ubiquitous knockout of Gremlin 1 (Grem1), a key antagonist of BMP2/4 and 7 is of great interest
Summary
Adult stem cells are critical to support tissue homeostasis, turnover, repair and regeneration, but cell fate determination in organ systems must be strictly regulated to prevent the unwanted development of neoplasia. Many of these pathways generate concentration gradients through intercompartmental crosstalk, with differential expression of ligands, receptors and antagonists between different cellular components of the stem cell niche.
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