Division of Hematology, Department of Medicine, Kobe University Graduate School of Medicine, Kobe, Japan.
Cell Engineering Division, RIKEN BioResource Research Center, Ibaraki, Japan.
Blood. 2021 Mar 18;137(11):1457-1467. doi: 10.1182/blood.2020007172.
Fibroblast growth factor 23 (FGF-23) hormone is produced by bone-embedded osteocytes and regulates phosphate homeostasis in kidneys. We found that administration of granulocyte colony-stimulating factor (G-CSF) to mice induced a rapid, substantial increase in FGF-23 messenger RNA in bone marrow (BM) cells. This increase originated mainly from CD45-Ter119+CD71+ erythroblasts. FGF-23 protein in BM extracellular fluid was markedly increased during G-CSF-induced hematopoietic progenitor cell (HPC) mobilization, but remained stable in the blood, with no change in the phosphate level. Consistent with the BM hypoxia induced by G-CSF, low oxygen concentration induced FGF-23 release from human erythroblast HUDEP-2 cells in vitro. The efficient mobilization induced by G-CSF decreased drastically in both FGF-23-/- and chimeric mice with FGF-23 deficiency, only in hematopoietic cells, but increased in osteocyte-specific FGF-23-/- mice. This finding suggests that erythroblast-derived, but not bone-derived, FGF-23 is needed to release HPCs from BM into the circulation. Mechanistically, FGF-23 did not influence CXCL-12 binding to CXCR-4 on progenitors but interfered with their transwell migration toward CXCL-12, which was canceled by FGF receptor inhibitors. These results suggest that BM erythroblasts facilitate G-CSF-induced HPC mobilization via FGF-23 production as an intrinsic suppressor of chemoattraction.
成纤维细胞生长因子 23(FGF-23)激素由嵌入骨骼的成骨细胞产生,并调节肾脏中的磷酸盐稳态。我们发现,粒细胞集落刺激因子(G-CSF)给药可迅速、显著增加骨髓(BM)细胞中的 FGF-23 信使 RNA。这种增加主要来自 CD45-Ter119+CD71+红细胞。在 G-CSF 诱导的造血祖细胞(HPC)动员期间,BM 细胞外液中的 FGF-23 蛋白明显增加,但在血液中保持稳定,磷酸盐水平没有变化。与 G-CSF 诱导的 BM 缺氧一致,体外低氧浓度诱导人红细胞 HUDEP-2 细胞释放 FGF-23。G-CSF 诱导的有效动员在 FGF-23-/-和 FGF-23 缺乏嵌合小鼠中急剧减少,仅在造血细胞中减少,但在成骨细胞特异性 FGF-23-/-小鼠中增加。这一发现表明,需要红细胞衍生的、而非骨衍生的 FGF-23 将 HPC 从 BM 释放到循环中。从机制上讲,FGF-23 不影响 CXCL-12 与祖细胞上的 CXCR-4 结合,但干扰它们向 CXCL-12 的横孔迁移,而 FGF 受体抑制剂可取消这种迁移。这些结果表明,BM 红细胞通过产生 FGF-23 作为化学吸引的内在抑制剂来促进 G-CSF 诱导的 HPC 动员。
