用于基因递送的生物可还原聚(二硫代胺)家族。
A family of bioreducible poly(disulfide amine)s for gene delivery.
作者信息
Ou Mei, Xu Rongzuo, Kim Sun Hwa, Bull David A, Kim Sung Wan
机构信息
Department of Pharmaceutics and Pharmaceutical Chemistry, University of Utah, Salt Lake City, UT 84112, USA.
出版信息
Biomaterials. 2009 Oct;30(29):5804-14. doi: 10.1016/j.biomaterials.2009.06.050. Epub 2009 Jul 16.
A family of bioreducible poly(disulfide amine)s, which differ in the length of polymethylene spacer [-(CH(2))(n)-] in the main chain and the side chain, has been synthesized. These bioreducible poly(disulfide amine)s exhibit local environment specific degradability and are associated with lower cytotoxicity than branched poly(ethylenimine) (bPEI, 25 kDa). These cationic polymers also show higher buffering capacity and protonation degree than bPEI, facilitating the endosomal escape of carried genetic materials. The transfection efficiency of these agents is oligomethylene length dependent. Poly(cystaminebisacrylamide-spermine) [poly(CBA-SP)], poly(cystaminebisacrylamide-bis(3-aminopropyl)-1,3-propanediamine) [poly(CBA-APPD)], and poly(cyxtaminebisacrylamide-bis(3-aminopropyl)-ethylenediamine) [ploy(CBA-APED)] with longer propylene [-(CH(2))(3)-] side spacer, demonstrate higher transfection efficacy than the counterpart poly(cystaminebisacrylamide-bis(2-aminoethyl)-1,3-propanediamine) [poly(CBA-AEPD)] and poly(cystaminebisacrylamide-triethylenetetramine) [poly(CBA-TETA)], which have shorter ethylene [-(CH(2))(2)-] side spacer. The poly(CBA-SP), poly(CBA-APPD), poly(CBA-APED) with the main chain spacer of -(CH(2))(4)-, -(CH(2))(3)-, -(CH(2))(2)- demonstrate similar transfection efficiency, indicating the length of polymer main chain spacer has less influence on transfection efficiency. However, with the same short ethylene [-(CH(2))(2)-] side spacer, poly(CBA-AEPD), with the longer main chain oligomethylene units [-(CH(2))(3)-], showed relatively higher transfection efficiency than poly(CBA-TETA), having shorter main chain oligomethylene units [-(CH(2))(2)-]. Of these polymeric carriers, poly(CBA-SP) demonstrated the highest transfection in the C2C12 cell line, while poly(CBA-APED) showed the highest transfection in the HeLa cell line. All of these agents showed greater transfection activity than commercialized bPEI 25 kDa. The poly(disulfide amine)s are promising safe and efficient non-viral vectors for gene delivery.
已合成了一类生物可还原的聚(二硫代胺),它们在主链和侧链中聚亚甲基间隔基[-(CH₂)ₙ-]的长度上有所不同。这些生物可还原的聚(二硫代胺)表现出局部环境特异性降解性,并且与分支聚乙二胺(bPEI,25 kDa)相比具有更低的细胞毒性。这些阳离子聚合物还显示出比bPEI更高的缓冲能力和质子化程度,有利于携带的遗传物质从内体逃逸。这些试剂的转染效率取决于低聚亚甲基的长度。具有较长丙烯[-(CH₂)₃-]侧间隔基的聚(胱胺双丙烯酰胺-精胺)[聚(CBA-SP)]、聚(胱胺双丙烯酰胺-双(3-氨基丙基)-1,3-丙二胺)[聚(CBA-APPD)]和聚(胱胺双丙烯酰胺-双(3-氨基丙基)-乙二胺)[聚(CBA-APED)],比具有较短乙烯[-(CH₂)₂-]侧间隔基的对应物聚(胱胺双丙烯酰胺-双(2-氨基乙基)-1,3-丙二胺)[聚(CBA-AEPD)]和聚(胱胺双丙烯酰胺-三亚乙基四胺)[聚(CBA-TETA)]表现出更高的转染效率。主链间隔基为-(CH₂)₄-、-(CH₂)₃-、-(CH₂)₂-的聚(CBA-SP)、聚(CBA-APPD)、聚(CBA-APED)表现出相似的转染效率,表明聚合物主链间隔基的长度对转染效率的影响较小。然而,在具有相同短乙烯[-(CH₂)₂-]侧间隔基的情况下,具有较长主链低聚亚甲基单元[-(CH₂)₃-]的聚(CBA-AEPD)比具有较短主链低聚亚甲基单元[-(CH₂)₂-]的聚(CBA-TETA)表现出相对较高的转染效率。在这些聚合物载体中,聚(CBA-SP)在C2C12细胞系中表现出最高的转染效率,而聚(CBA-APED)在HeLa细胞系中表现出最高的转染效率。所有这些试剂都比商业化的25 kDa bPEI表现出更高的转染活性。聚(二硫代胺)是用于基因递送的有前景的安全高效非病毒载体。
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