从人造红细胞、氧载体、氧疗法到人造细胞、纳米医学等。

Thomas M S Chang
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引用次数: 49

摘要

第一个实验性的人造红细胞具有红细胞的全部三大功能。然而,第一个实用的是一种简单的多血红蛋白(PolyHb),它只具有携氧功能。这种药物目前在南非和俄罗斯进行常规临床应用。具有抗氧化功能的氧载体PolyHb过氧化氢酶超氧化物歧化酶可以实现红细胞三种功能中的两种。更完整的是以PolyHb过氧化氢酶超氧化物歧化酶碳酸酐酶的形式具有红细胞的所有三种功能。最先进的是采用PEG脂质膜或PEG-PLA聚合物膜的纳米人工红细胞。氧气疗法的扩展包括在小鼠模型中抑制黑色素瘤生长的PolyHb酪氨酸酶。另一种是PolyHb纤维蛋白原,它是一种具有血小板样功能的氧载体。现在,研究已经远远超出了最初对人造红细胞的研究,进入了人造细胞的许多领域。这些包括纳米颗粒、纳米管、脂质囊泡、脂质体、聚合物束缚的脂质囊泡,多聚体、微胶囊、生物胶囊、纳米囊泡、大胶囊、合成细胞等。它们被用于纳米技术、纳米医学、再生医学、酶/基因治疗、细胞/干细胞治疗、生物技术、药物递送、血液灌流、纳米传感器,甚至被农业、工业、水产养殖、纳米计算机和纳米机器人的一些团体所用。
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From artificial red blood cells, oxygen carriers, and oxygen therapeutics to artificial cells, nanomedicine, and beyond.

The first experimental artificial red blood cells have all three major functions of red blood cells (rbc). However, the first practical one is a simple polyhemoglobin (PolyHb) that only has an oxygen-carrying function. This is now in routine clinical use in South Africa and Russia. An oxygen carrier with antioxidant functions, PolyHb-catalase-superoxide dismutase, can fulfill two of the three functions of rbc. Even more complete is one with all three functions of rbc in the form of PolyHb-catalase-superoxide dismutase-carbonic anhydrase. The most advanced ones are nanodimension artificial rbc with either PEG-lipid membrane or PEG-PLA polymer membrane. Extensions into oxygen therapeutics include a PolyHb-tyrosinase that suppresses the growth of melanoma in a mice model. Another is a PolyHb-fibrinogen that is an oxygen carrier with platelet-like function. Research has now extended well beyond the original research on artificial rbc into many areas of artificial cells. These include nanoparticles, nanotubules, lipid vesicles, liposomes, polymer-tethered lipid vesicles, polymersomes, microcapsules, bioencapsulation, nanocapules, macroencapsulation, synthetic cells, and others. These are being used in nanotechnology, nanomedicine, regenerative medicine, enzyme/gene therapy, cell/stem cell therapy, biotechnology, drug delivery, hemoperfusion, nanosensers, and even by some groups in agriculture, industry, aquatic culture, nanocomputers, and nanorobotics.

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