Aging results in the progressive decline of organ function and integrity across species. In the hematopoietic system aging is associated with diminished stem cell regenerative capacity and contributes to compromised tissue homeostasis and heightened vulnerability to age-related diseases including anemia, myelodysplastic syndromes, and hematological malignancies. Macrophages, integral components of the innate immune system, demonstrate remarkable functional plasticity and play diverse roles in tissue homeostasis, inflammation, and immunity. The balance between pro-inflammatory M1 and anti-inflammatory M2 macrophages significantly influences immune and inflammatory responses, and thus the progression of hematopoietic aging. We have previously demonstrated that the prostaglandin degrading enzyme 15-hydroxyprostaglandin dehydrogenase (15-PGDH) regulates hematopoietic stem cell (HSC) activity, that 15-PGDH inhibition (PGDHi) following transplantation results in a markedly accelerated recovery of neutrophils, platelets, and HSCs, and that 15-PGDH knockout animals display enhanced HSC function with age. Here we expand on our previous work and demonstrate in aged mice that (1) 15-PGDH expression and activity remains conserved (2) that PGDHi induces a gene expression signature consistent with alternatively activated M2 macrophages, (3) that prolonged PGDHi results in a significant increase in phenotypic HSCs in both the bone marrow and spleen and induces a gene signature consistent with enhanced HSC function, and (4) that PGDHi treated bone marrow (BM) displays a advantage during primary competitive repopulation studies and prevents age-associated myeloid bias during secondary transplants. Taken together we propose PGDHi represents an in vivo switch to alternatively activate macrophages, which has significant implications to not only prevent age-associated hematopoietic decline, but also as a novel strategy to treat age-associated hematologic disease.
Disclosures
No relevant conflicts of interest to declare.
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