Institute of Medical Sciences, University of Toronto, Toronto, Canada.
Research Center Borstel, Leibniz-Center for Medicine and Biosciences, Borstel, Germany.
Int Immunopharmacol. 2018 Apr;57:112-120. doi: 10.1016/j.intimp.2018.02.010. Epub 2018 Feb 23.
We have shown that an altered tissue redox environment in mice lacking either murine beta Hemoglobin major (HgbβKO) or minor (HgbβKO) regulates inflammation. The REDOX environment in marrow stem cell niches also control differentiation pathways. We investigated osteoclastogenesis (OC)/osteoblastogenesis (OB), in bone cultures derived from untreated or FSLE-treated WT, HgbβKO or HgbβKO mice. Marrow mesenchymal cells from 10d pre-cultures were incubated on an osteogenic matrix for 21d prior to analysis of inflammatory cytokine release into culture supernatants, and relative OC:OB using (TRAP:BSP, RANKL:OPG) mRNA expression ratios and TRAP or Von Kossa staining. Cells from WT and HgbβKO mice show decreased IL-1β,TNFα and IL-6 production and enhanced osteoblastogenesis with altered mRNA expression ratios and increased bone nodules (Von Kossa staining) in vitro after in vivo stimulation of mRNA expression of fetal Hgb genes (Hgbε and Hgbβ) by a fetal liver extract (FSLE). Marrow from HgbβKO showed enhanced cytokine release and preferential enhanced osteoclastogenesis relative to similar cells from WT or HgbβKO mice, with no increased osteoblastogenesis after mouse treatment with FSLE. Pre-treatment of WT or HgbβKO, but not HgbβKO mice, with other molecules (rapamycin; hydroxyurea) which increase expression of fetal Hgb genes also augmented osteoblastogenesis and decreased cytokine production in cells differentiating in vitro. Infusion of rabbit anti- Hgbε or anti- Hgbβ, but not anti-Hgbα or anti- Hgbβ into WT mice from day 13 gestation for 3 weeks led to attenuated osteoblastogenesis in cultured cells. We conclude that increased fetal hemoglobin expression, or use of agents which improve fetal hemoglobin expression, increases osteoblast bone differentiation in association with decreased inflammatory cytokine release.
我们已经表明,在缺乏小鼠β珠蛋白主要(HgbβKO)或次要(HgbβKO)的小鼠中,组织氧化还原环境的改变调节炎症。骨髓干细胞龛中的氧化还原环境也控制分化途径。我们研究了来自未经处理或 FSLE 处理的 WT、HgbβKO 或 HgbβKO 小鼠的骨培养物中的破骨细胞生成(OC)/成骨细胞生成(OB)。在分析炎症细胞因子释放到培养上清液中以及相对 OC:OB 之前,将 10d 预培养的骨髓间充质细胞在成骨基质上孵育 21d,使用(TRAP:BSP、RANKL:OPG)mRNA 表达比值和 TRAP 或 Von Kossa 染色分析。WT 和 HgbβKO 小鼠的细胞显示出减少的 IL-1β、TNFα 和 IL-6 产生,并且成骨细胞生成增强,mRNA 表达比值改变,并且在体内刺激胎儿 Hgb 基因(Hgbε和 Hgbβ)的 mRNA 表达后,体外骨结节(Von Kossa 染色)增加(来自胎儿肝脏提取物(FSLE))。与 WT 或 HgbβKO 小鼠的类似细胞相比,HgbβKO 中的骨髓显示出增强的细胞因子释放和优先增强的破骨细胞生成,在用 FSLE 处理后,成骨细胞生成没有增加。WT 或 HgbβKO 但不是 HgbβKO 小鼠的预处理用其他分子(雷帕霉素;羟基脲)增加胎儿 Hgb 基因的表达也增加了体外分化细胞中的成骨细胞生成并减少了细胞因子的产生。从妊娠第 13 天开始,将兔抗 Hgbε或抗 Hgbβ注入 WT 小鼠中,持续 3 周,导致培养细胞中的成骨细胞生成减弱。我们得出结论,增加胎儿血红蛋白表达或使用改善胎儿血红蛋白表达的药物可增加成骨细胞骨分化,同时减少炎症细胞因子的释放。
