Shen Zheyu, Wei Wei, Zhao Yongjiang, Ma Guanghui, Dobashi Toshiaki, Maki Yasuyuki, Su Zhiguo, Wan Jinpei
State Key Laboratory of Biochemical Engineering, Institute of Process Engineering, Chinese Academy of Sciences, Beijing, China.
Eur J Pharm Sci. 2008 Nov 15;35(4):271-82. doi: 10.1016/j.ejps.2008.07.006. Epub 2008 Jul 31.
Thermosensitive Poly(N-isopropylacrylamide-co-acrylamide-co-allylamine) (PNIPAM-AAm-AA)-conjugated albumin nanospheres (PAN) was developed as a new thermal targeting anti-cancer drug carrier by conjugating PNIPAM-AAm-AA on the surface of albumin nanospheres (AN). AN with diameter below 200nm and narrow size distribution was successfully prepared in the first step with desolvation technique. PNIPAM-AAm-AA with different molecular weight (M(w)) was synthesized in the second step by radical polymerization and conjugated onto the surface of AN. Anti-cancer drug adriamycin (ADR) was then entrapped into the AN and PAN during the particle preparation. Compared with AN, the release rate of ADR from PAN in trypsin solution was slower, and decreased with increasing the conjugation amounts (hairy density) or M(w) of PNIPAM-AAm-AA (hairy length). Moreover, the release of ADR from PAN above the cloud-point temperature (T(cp)) of PNIPAM-AAm-AA became faster due to shrinkage of hairy thermosensitive polymer. To testify the thermal targetability in vivo, PAN was incubated with HepG2 cells. As expected, PAN can target cancer cells above the T(cp) of PNIPAM-AAm-AA, whereas it cannot below the T(cp). These results might reflect that PAN may selectively accumulate onto solid tumors that are maintained above physiological temperature due to local hyperthermia.
通过将温敏性聚(N-异丙基丙烯酰胺-共-丙烯酰胺-共-烯丙胺)(PNIPAM-AAm-AA)共轭到白蛋白纳米球(AN)表面,制备了温敏性聚(N-异丙基丙烯酰胺-共-丙烯酰胺-共-烯丙胺)共轭白蛋白纳米球(PAN),作为一种新型的热靶向抗癌药物载体。第一步采用去溶剂化技术成功制备了直径小于200nm且尺寸分布窄的AN。第二步通过自由基聚合合成了不同分子量(M(w))的PNIPAM-AAm-AA,并将其共轭到AN表面。然后在颗粒制备过程中将抗癌药物阿霉素(ADR)包封到AN和PAN中。与AN相比,ADR在胰蛋白酶溶液中从PAN的释放速率较慢,且随着PNIPAM-AAm-AA的共轭量(毛密度)或M(w)(毛长度)的增加而降低。此外,由于毛状温敏聚合物的收缩,在PNIPAM-AAm-AA的浊点温度(T(cp))以上,ADR从PAN的释放变得更快。为了验证体内的热靶向性,将PAN与HepG2细胞孵育。正如预期的那样,PAN可以在PNIPAM-AAm-AA的T(cp)以上靶向癌细胞,而在T(cp)以下则不能。这些结果可能反映出PAN可能选择性地积聚在由于局部热疗而维持在生理温度以上的实体瘤上。
