经设计用于提高人血红蛋白的氧亲和力并抑制镰状红细胞镰变的取代苯甲醛。
Substituted benzaldehydes designed to increase the oxygen affinity of human haemoglobin and inhibit the sickling of sickle erythrocytes.
作者信息
Beddell C R, Goodford P J, Kneen G, White R D, Wilkinson S, Wootton R
出版信息
Br J Pharmacol. 1984 Jun;82(2):397-407. doi: 10.1111/j.1476-5381.1984.tb10775.x.
Abstract
Substituted benzaldehydes have been designed to bind preferentially to the oxy conformation of human haemoglobin at a site between the amino terminal residues of the alpha-subunits. Such compounds should stabilize the oxygenated form of haemoglobin and thereby increase its oxygen affinity. The compounds produce the expected effect, left-shifting the oxygen saturation curve of dilute haemoglobin solutions and of whole blood, although the binding pattern to haemoglobin is more complex than envisaged by the design hypothesis. The predicted best compound is also a potent inhibitor, at low oxygen pressure, of the sickling of erythrocytes from patients homozygous for sickle cell disease, and may prove to be a clinically useful anti-sickling agent.
摘要
已设计出取代苯甲醛,使其优先结合于人类血红蛋白的氧合构象,结合位点在α亚基的氨基末端残基之间。这类化合物应能稳定血红蛋白的氧合形式,从而增加其对氧的亲和力。这些化合物产生了预期效果,使稀释血红蛋白溶液和全血的氧饱和度曲线左移,尽管其与血红蛋白的结合模式比设计假设所设想的更为复杂。预测的最佳化合物在低氧压力下也是镰状细胞病纯合子患者红细胞镰变的有效抑制剂,可能被证明是一种临床上有用的抗镰变剂。
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