2014
DOI: 10.4081/thal.2014.2261
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Recent Developments Centered on Orally Active Iron Chelators

Abstract: Over the past twenty years there has been a growing interest in the orally active iron chelators, deferiprone and deferasirox, both have been extensively studied. The ability of these compounds to mobilize iron from the heart and endocrine tissue has presented the clinician with some advantages over desferrioxamine, the first therapeutic iron chelator. Other orally active iron chelators are currently under development. The critical features necessary for the design of therapeutically useful orally active iron … Show more

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Cited by 15 publications
(12 citation statements)
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“…A number of iron chelators are approved clinical drugs for both topical and systemic use (Hatcher et al , 2009; Hider, 2014). Pathogenic bacteria require iron for normal growth and employ an arsenal of means, including siderophores and toxins such as PCN, to acquire Fe from the surroundings (Tyrrell and Callaghan, 2016).…”
Section: Discussionmentioning
confidence: 99%
“…A number of iron chelators are approved clinical drugs for both topical and systemic use (Hatcher et al , 2009; Hider, 2014). Pathogenic bacteria require iron for normal growth and employ an arsenal of means, including siderophores and toxins such as PCN, to acquire Fe from the surroundings (Tyrrell and Callaghan, 2016).…”
Section: Discussionmentioning
confidence: 99%
“…36 The high spin Fe 3+ coordinates with six donor atoms of the ligands to form a complex in an octahedral manner, 37 and the chelator can be classified as hexadentate, tridentate, and bidentate ligand according to the number of donor atoms (Figure 2). 36,38 The pFe 3+ value is a useful parameter for assessing the affinity of ligands to Fe 3+ under biological conditions (pFe 3+ = −log[Fe 3+ ] when [Fe 3+ ] total = 10 −6 M and [ligand] total = 10 −5 M at pH 7.4). The higher the pFe 3+ value, the greater the affinity for Fe 3+ .…”
Section: Influence Of Elevated Levels Of Iron a Redox Cycle Between Fementioning
confidence: 99%
“…Bu yüzden oral olarak aktif, toksik olmayan, seçici bir demir bağlayıcı ligand ait başarılı tasarım, çok aranan bir hedef haline gelmiştir. Yeni geliştirilmiş demir bağlayıcı ligand tasarımı yapılırken yıllar içinde daha iyi tanımlanmış belirli kimyasal özellikler şu şekilde özetlenebilir: − Şelatlama maddesinin ve komplekslerinin uygun toksisite profili; − Komplekslerinin kararlığı; − Demire karşı seçicilik; − Komplekslerin uygun redoks potansiyeli; − Enzim inhibisyonu, kompleks yapısı, lipofilik ve moleküler ağırlığı; − Vücutta aktif olmayan metabolitlere dönüştürülmemelidir; − İyi bağırsak absorpsiyonu ve hedef hücrelere iyi biyoyararlanımı; − Şelatlayıcı ve endojen ligandlar arasında demirin hızlı kinetik değişimi; − Oluşan komplekslerin atılımını kolaylaştıran faktörler; − Vücut sıvıları metabolik metal dengesini bozmamalı 8,9,10 .…”
Section: Demir Bağlayıcı Ligandların Tasarım öZellikleriunclassified