Departamento de Ciencia y Tecnología, Laboratorio de Bio-Nanotecnología, Universidad Nacional de Quilmes, Roque Saenz Peña 352, (B1876BXD), Bernal, Buenos Aires, Argentina.
Grupo de Biología Estructural y Biotecnología, Instituto Multidisciplinario de Biología Celular, Consejo Nacional de Investigaciones Científicas y Técnicas, CIPBA, UNLP, La Plata, Buenos Aires, Argentina.
AAPS PharmSciTech. 2020 Mar 25;21(3):110. doi: 10.1208/s12249-020-01652-w.
Alzheimer's disease has become a public health priority, so an investigation of new therapies is required. Tacrine (TAC) was licensed for treatments; however, its oral administration caused hepatotoxicity, so it is essential to reduce the side effects. PAMAM dendrimer generation 4.0 and 4.5 (DG4.0 and DG4.5) can be used as drug delivery systems and as nanodrugs per se. Our work aims to propose a combined therapy based on TAC and PAMAM dendrimer co-administration. TAC and dendrimer interactions were studied by in vitro drug release, drug stability, and FTIR. The toxicity profile of co-administration was evaluated in human red blood cells, in Neuro-2a cell culture, and in zebrafish larvae. Also, the anti-acetylcholinesterase activity was studied in cell culture. It was possible to obtain DG4.0-TAC and DG4.5-TAC suspensions, without reducing the drug solubility and stability. FTIR and in vitro release studies confirmed that interaction between TAC and DG4.5 was of the electrostatic type. No toxicity effects on human red blood cells were observed, whereas the co-administration with DG4.5 reduced cytotoxicity of TAC on the Neuro-2a cell line. Moreover, in vivo co-administration of both DG4.0-TAC and DG4.5-TAC reduced the morphological and hepatotoxic effects of TAC in zebrafish larvae. The reduction of TAC toxicity was not accompanied by a reduction in its activity since the anti-acetylcholinesterase activity remains when it is co-administrated with dendrimers. In conclusion, the co-administration of TAC with both DG4.0 and DG4.5 is a novel therapy since it was less-toxic, was more biocompatible, and has the same effectiveness than the free drug. Graphical abstract.
阿尔茨海默病已成为公共卫生重点,因此需要研究新的治疗方法。他克林(TAC)已获得许可用于治疗,但口服会引起肝毒性,因此减少副作用至关重要。PAMAM 树枝状大分子 4.0 和 4.5(DG4.0 和 DG4.5)可用作药物传递系统和纳米药物本身。我们的工作旨在提出一种基于 TAC 和 PAMAM 树枝状大分子联合给药的联合治疗方法。通过体外药物释放、药物稳定性和傅里叶变换红外光谱(FTIR)研究了 TAC 和树枝状大分子的相互作用。在人红细胞、Neuro-2a 细胞培养物和斑马鱼幼虫中评估了联合给药的毒性概况。还研究了细胞培养物中的抗乙酰胆碱酯酶活性。可以获得 DG4.0-TAC 和 DG4.5-TAC 混悬液,而不会降低药物的溶解度和稳定性。FTIR 和体外释放研究证实,TAC 与 DG4.5 之间的相互作用为静电类型。未观察到人红细胞的毒性作用,而与 DG4.5 联合给药可降低 TAC 对 Neuro-2a 细胞系的细胞毒性。此外,体内联合给予 DG4.0-TAC 和 DG4.5-TAC 可减轻 TAC 在斑马鱼幼虫中的形态和肝毒性作用。TAC 毒性的降低并未伴随其活性的降低,因为当与树枝状大分子联合给药时,其抗乙酰胆碱酯酶活性仍然存在。总之,TAC 与 DG4.0 和 DG4.5 的联合给药是一种新的治疗方法,因为它的毒性更小、生物相容性更好,并且与游离药物一样有效。
