Torrent Research Centre, Torrent Pharmaceuticals Ltd., Gandhinagar, India.
Am J Nephrol. 2012;36(3):208-18. doi: 10.1159/000341870. Epub 2012 Aug 28.
Hypoxia-inducible factor (HIF) transcriptional system plays a central role in cellular adaptation to low oxygen levels. Preconditional activation of HIF and/or expression of its individual target gene products leading to cytoprotection have been well established in hypoxic/ischemic renal injury. Increasing evidence indicate HIF activation is involved in hypoxic/ischemic postconditioning of heart, brain and kidney. Very few studies evaluated the potential benefits of postischemia HIF activation in renal injury employing a pharmacological agent. We hypothesized that postischemia augmentation of HIF activation with a pharmacological agent would protect renal ischemia/reperfusion injury. For this, TRC160334, a novel HIF hydroxylase inhibitor, was used.
TRC160334, a novel HIF hydroxylase inhibitor, was synthesized. Ability of TRC160334 for stabilization of HIF-α and consequent HIF activation was evaluated in Hep3B cells. Efficacy of TRC160334 was evaluated in a rat model of ischemia/reperfusion-induced AKI. Two different treatment protocols were employed, one involved treatment with TRC160334 before onset of ischemia, the other involved treatment after the reperfusion of kidneys.
TRC160334 treatment results in stabilization of HIF-α leading to HIF activation in Hep3B cells. Significant reduction in renal injury was observed by both treatment protocols and remarkable reduction in serum creatinine (23 and 71% at 24 and 48 h, respectively, p < 0.01) was observed with TRC160334 treatment applied after reperfusion. Urine output was significantly improved up to 24 h by both treatment protocols.
The data presented here provide pharmacologic evidence for postischemia augmentation of HIF activation by TRC160334 as a promising and clinically feasible strategy for the treatment of renal ischemia/reperfusion injury.
缺氧诱导因子(HIF)转录系统在细胞适应低氧水平中起着核心作用。在缺氧/缺血性肾损伤中,已经充分证实了 HIF 的预先激活和/或其个别靶基因产物的表达导致细胞保护。越来越多的证据表明,HIF 的激活参与了心脏、大脑和肾脏的缺氧/缺血后处理。很少有研究使用药理学方法评估肾损伤后处理中 HIF 激活的潜在益处。我们假设使用药理学方法增强缺血后 HIF 的激活将保护肾缺血/再灌注损伤。为此,我们使用了一种新型的 HIF 羟化酶抑制剂 TRC160334。
合成了一种新型的 HIF 羟化酶抑制剂 TRC160334。在 Hep3B 细胞中评估了 TRC160334 稳定 HIF-α并随后激活 HIF 的能力。在大鼠缺血/再灌注诱导的 AKI 模型中评估了 TRC160334 的疗效。采用了两种不同的治疗方案,一种是在缺血开始前用 TRC160334 治疗,另一种是在肾脏再灌注后用 TRC160334 治疗。
TRC160334 治疗导致 Hep3B 细胞中 HIF-α的稳定,从而导致 HIF 的激活。两种治疗方案均观察到肾损伤显著减少,TRC160334 治疗后再灌注后血清肌酐明显降低(24 小时和 48 小时分别降低 23%和 71%,p < 0.01)。两种治疗方案均可使尿量在 24 小时内显著增加。
本研究提供了药理学证据,证明 TRC160334 可增强缺血后的 HIF 激活,这是治疗肾缺血/再灌注损伤的一种有前途且可行的策略。
