Dexter D T, Ward R J, Florence A, Jenner P, Crichton R R
Department of Neurodegenerative Disorders, Imperial College School of Medicine, London, UK.
Biochem Pharmacol. 1999 Jul 1;58(1):151-5. doi: 10.1016/s0006-2952(99)00079-9.
Iron overload disorders, such as beta-thalassaemia, are currently treated with the iron chelator desferrioxamine (DFO) or 1,2-dimethyl-3-hydroxypyridin-4-one (L1), which is currently under clinical evaluation. However, DFO is inactive orally and needs to be administered by intramuscular infusion, whilst there are concerns over the long-term effectiveness and toxicity of L1. In addition, both DFO and L1 affect brain dopamine (DA) and 5-hydroxytryptamine (5-HT) metabolism. In this study, the 3,5,5-trimethylhexanoyl ferrocene rat model of iron overload was used to compare the iron-chelating capabilities of a novel orally active siderophore, desferrithiocin (DFT) and its desmethyl derivatives DFT-D and DFT-L, to that of DFO, along with their ability to affect brain DA and 5-HT metabolism. Chronic administration of ferrocene produced a 12-fold increase in liver iron levels, as assessed by electrothermal atomic absorption. Subsequent treatment with DFT over a two-week period produced a 37% reduction in liver iron levels, whereas similar treatment with DFT-D and DFT-L produced a more marked reduction in these levels (65% and 59%, respectively) in the ferrocene-treated animals. In contrast, using the same dosing regimen, DFO and L1 only produced a 16% and 18% reduction, respectively, in liver iron levels. Both DFT and its derivatives failed to affect either striatal DA or 5-HT metabolism when assessed by HPLC. In view of the previously described oral bioavailability of DFT, the marked ability of DFT and its derivatives to chelate hepatic iron, and their inability to affect brain DA or 5-HT metabolism, such siderophores appear potentially useful clinical iron chelators.
铁过载疾病,如β地中海贫血,目前使用铁螯合剂去铁胺(DFO)或1,2 - 二甲基 - 3 - 羟基吡啶 - 4 - 酮(L1,目前正在临床评估中)进行治疗。然而,DFO口服无活性,需要通过肌肉注射给药,而人们对L1的长期有效性和毒性存在担忧。此外,DFO和L1都会影响脑内多巴胺(DA)和5 - 羟色胺(5 - HT)的代谢。在本研究中,使用3,5,5 - 三甲基己酰基二茂铁大鼠铁过载模型,比较一种新型口服活性铁载体去铁硫菌素(DFT)及其去甲基衍生物DFT - D和DFT - L与DFO的铁螯合能力,以及它们影响脑内DA和5 - HT代谢的能力。通过电热原子吸收法评估,长期给予二茂铁使肝脏铁水平增加了12倍。随后在两周内用DFT治疗使肝脏铁水平降低了37%,而在接受二茂铁治疗的动物中,用DFT - D和DFT - L进行类似治疗使这些水平有更显著的降低(分别为65%和59%)。相比之下,使用相同的给药方案,DFO和L1仅分别使肝脏铁水平降低了16%和18%。通过高效液相色谱法评估时,DFT及其衍生物均未影响纹状体DA或5 - HT的代谢。鉴于先前所述的DFT的口服生物利用度、DFT及其衍生物显著的螯合肝脏铁的能力以及它们不影响脑内DA或5 - HT代谢的特性,这类铁载体似乎有可能成为有用临床铁螯合剂。
