Abstract

Macrophages (MΦ) are professional phagocytes in the innate immune system. They are not only involved in regulation of various immune functions and inflammation, but also exhibit plasticity in modulation of tissue regeneration and repair after being polarized into M1 and M2 MΦ by different inflammatory cytokines. In addition, several recent studies show that MΦ are a new constituent of the hematopoietic stem cells (HSCs) niche and play a role in regulation of HSCs maintenance and mobilization in bone marrow (BM). However, it is not known whether MΦ can regulate HSCs self-renewal and whether the effects of MΦ on HSCs can be influenced by differential MΦ polarization. This was investigated using an ex vivo HSCs expansion model consisting of mouse bone marrow LSK (Lin-sca-1+c-Kit+) cells cultured with or without MΦ in a mouse HSCs expansion medium (StemSpanTM serum-free medium supplemented with 20ng/ml of stem cell factor [SCF] and thrombopoietin [TPO]). We found that LSK cells were expanded about 20-, 15-, and 30-fold after 6 days of co-culture with MΦ harvested from mouse BM, spleen, and peritoneal cavity, respectively, whereas there was no significant expansion after culture without MΦ or with BM Gr-1high or Gr-1low monocytes. In addition, we found that M1-MΦ polarized by INFγ were more effective than IL4-polarized M2-MΦ in promoting LSK cells expansion ex vivo (45-fold vs. 15-fold). However, the promotion of LSK cells expansion by M1-MΦ resulted in about 88% reduction in HSCs as judged by 5-week cobblestone area forming cell (CAFC) assay. In contrast, M2-MΦ significantly promoted HSCs expansion. A greater expansion of HSCs was achieved after LSK cells were co-cultured with M2-MΦ for 9 days than for 6 days (20-fold vs. 6-fold). These findings suggest that M1-MΦ are more effective than M2-MΦ in promoting LSK cells or hematopoietic progenitor cells (HPCs) expansion, at the expense of HSCs self-renewal, whereas M2-MΦ can promote HPCs expansion as well as HSCs self-renewal. This suggestion is supported by results of serial transplantation and competitive repopulation unit (CRU) assays. CRU assay showed that LT-HSCs (e.g. 4-month CRU) were increased about 13 folds relative to the starting numbers of CRU in the input after LSK cells were co-cultured with M2-MΦ for 9 days, but were barely detectable after the cells were cultured without MΦ or with M1-MΦ. The inhibitory effect of M1-MΦ on HSCs self-renewal and expansion was attenuated by inhibition of inducible nitric oxide synthase (iNOS) activity with an inhibitor or knockout iNOS. Inhibition of arginase and/or cyclooxygenase activities with an inhibitor attenuated the promotion of HSCs self-renewal and expansion by M2-MΦ. More importantly, we found that human CD34+ cells, 8-week CAFC, and SCID mice repopulating cells (SRCs) were increased 42±14, 8±2.1, and 4 folds over the input values, respectively, after human cord blood CD34+ cells were co-cultured with M2-MΦ generated from human cord blood CD34- cells for 7 days in a human HSCs expansion medium (StemSpanTM serum-free medium supplemented with 50 ng/ml of SCF, TPO, and FLT-3 ligand). These findings demonstrate that M1-MΦ and M2-MΦ have opposite effects on HSCs self-renewal, which may be important for regulation of hematopoiesis under various pathological conditions in which MΦ are differentially polarized to M1 or M2 by diverse inflammatory cytokines. In addition, M2-MΦ may be used to promote human cord blood HSCs ex vivo expansion to make human cord blood transplantation available to more patients. DisclosuresNo relevant conflicts of interest to declare.

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