Institute of Environmental Medicine, Karolinska Institutet, Stockholm, Sweden.
Centre for Allergy Research, Karolinska Institutet, Stockholm, Sweden.
Clin Exp Allergy. 2021 Apr;51(4):594-603. doi: 10.1111/cea.13831. Epub 2021 Feb 12.
The major mast cell prostanoid PGD is targeted for therapy of asthma and other diseases, because the biological actions include bronchoconstriction, vasodilation and regulation of immune cells mediated by three different receptors. It is not known if the alternative to selectively inhibit the biosynthesis of PGD affects release of other prostanoids in human mast cells.
To determine the biochemical consequences of inhibition of the hematopoietic prostaglandin D synthase (hPGDS) PGD in human mast cells.
Four human mast cell models, LAD2, cord blood derived mast cells (CBMC), peripheral blood derived mast cells (PBMC) and human lung mast cells (HLMC), were activated by anti-IgE or ionophore A23187. Prostanoids were measured by UPLC-MS/MS.
All mast cells almost exclusively released PGD when activated by anti-IgE or A23187. The biosynthesis was in all four cell types entirely initiated by COX-1. When pharmacologic inhibition of hPGDS abolished formation of PGD , PGE was detected and release of TXA increased. Conversely, when the thromboxane synthase was inhibited, levels of PGD increased. Adding exogenous PGH confirmed predominant conversion to PGD under control conditions, and increased levels of TXB and PGE when hPGDS was inhibited. However, PGE was formed by non-enzymatic degradation.
Inhibition of hPGDS effectively blocks mast cell dependent PGD formation. The inhibition was associated with redirected use of the intermediate PGH and shunting into biosynthesis of TXA . However, the levels of TXA did not reach those of PGD in naïve cells. It remains to determine if this diversion occurs in vivo and has clinical relevance.
主要的肥大细胞前列腺素 PGD 是治疗哮喘和其他疾病的靶点,因为其生物学作用包括支气管收缩、血管扩张和由三种不同受体介导的免疫细胞调节。目前尚不清楚选择性抑制 PGD 生物合成是否会影响人肥大细胞中其他前列腺素的释放。
确定抑制人肥大细胞中造血前列腺素 D 合酶 (hPGDS) PGD 的生化后果。
使用抗 IgE 或离子载体 A23187 激活四种人肥大细胞模型(LAD2、脐带血衍生的肥大细胞 (CBMC)、外周血衍生的肥大细胞 (PBMC) 和人肺肥大细胞 (HLMC))。通过 UPLC-MS/MS 测量前列腺素。
当用抗 IgE 或 A23187 激活时,所有肥大细胞几乎都只释放 PGD。四种细胞类型中的生物合成均完全由 COX-1 起始。当 hPGDS 的药理学抑制消除 PGD 的形成时,检测到 PGE 并增加 TXA 的释放。相反,当血栓素合酶被抑制时,PGD 的水平增加。添加外源性 PGH 证实了在对照条件下主要转化为 PGD,并在抑制 hPGDS 时增加 TXB 和 PGE 的水平。然而,PGE 是通过非酶降解形成的。
抑制 hPGDS 可有效阻断肥大细胞依赖性 PGD 的形成。这种抑制与中间 PGH 的重定向利用和向 TXA 生物合成的分流有关。然而,TXA 的水平在未受刺激的细胞中并未达到 PGD 的水平。尚需确定这种分流是否在体内发生以及是否具有临床相关性。
