Abstract
Haematopoietic stem cells (HSCs) reside in specialized microenvironments, referred to as niches, and the classical model suggests that HSC numbers are predominantly determined by the niche size1-5. However, the vast excess of niche cells relative to HSCs challenges this perspective. To rigorously define the role of niche size in regulating HSC numbers, we developed a femur-transplantation system, enabling us to increase available HSC niches. Notably, the addition of niches did not alter the total HSC numbers in the body, suggesting the presence of a systemic mechanism that limits HSC numbers. Additionally, HSC numbers in transplanted wild-type femurs did not exceed physiological levels when HSCs were mobilized from defective endogenous niches to the periphery, indicating that HSC numbers are constrained at the local level as well. The notion of dual restrictions at systemic and local levels was further supported by other experimental approaches, including parabiosis and non-conditioned transfer of HSCs after bone transplantation. Moreover, we found that thrombopoietin has a pivotal role in determining the total number of HSCs in the body, even in the context of increased niche availability. Our study redefines key principles underlying HSC number regulation, providing insights into this critical biological process.