Aging of the hematopoietic system has profound consequences for organismal health and longevity, attributed to the well-characterized functional aging of hematopoietic stem cells (HSCs). Here, we tested whether progenitor cells may demonstrate age resistance to enable hematopoietic homeostasis throughout life despite the functional decline of upstream HSCs. Strikingly, our results revealed unwavering reconstitution capacity by young and old progenitors, demonstrating that intermediate progenitors are functionally unaffected by aging and placing Flk2+ multipotent progenitors (MPP F s) as a potential source of age resilience. This unique finding was emphasized by unchanged transcriptomic, proliferation, and mitochondrial capacity of young and old MPP F s, revealing remarkable similarities upon aging. Considering that HSCs functionally decline with age, yet intermediate progenitors remain unperturbed and "age resilient", we posit that MPP F s may play an essential role in protecting downstream progenitors from inheriting age-related properties from HSCs. We propose three potential mechanisms for how MPP F s maintain hematopoietic integrity and homeostasis with age.
Myers et al. (Mon,) studied this question.