Multifunctional Dendrimer-Entrapped Gold Nanoparticles
Conjugated with Doxorubicin for pH-Responsive Drug Delivery and Targeted
Computed Tomography Imaging
posted on 2018-09-25, 00:00authored byJingyi Zhu, Guoying Wang, Carla S. Alves, Helena Tomás, Zhijuan Xiong, Mingwu Shen, João Rodrigues, Xiangyang Shi
Novel theranostic nanocarriers exhibit
a desirable potential to
treat diseases based on their ability to achieve targeted therapy
while allowing for real-time imaging of the disease site. Development
of such theranostic platforms is still quite challenging. Herein,
we present the construction of multifunctional dendrimer-based theranostic
nanosystem to achieve cancer cell chemotherapy and computed tomography
(CT) imaging with targeting specificity. Doxorubicin (DOX), a model
anticancer drug, was first covalently linked onto the partially acetylated
poly(amidoamine) dendrimers of generation 5 (G5) prefunctionalized
with folic acid (FA) through acid-sensitive cis-aconityl linkage to
form G5·NHAc-FA-DOX conjugates, which were then entrapped with
gold (Au) nanoparticles (NPs) to create dendrimer-entrapped Au NPs
(Au DENPs). We demonstrate that the prepared DOX-Au DENPs possess
an Au core size of 2.8 nm, have 9.0 DOX moieties conjugated onto each
dendrimer, and are colloid stable under different conditions. The
formed DOX-Au DENPs exhibit a pH-responsive release profile of DOX
because of the cis-aconityl linkage, having a faster DOX release rate
under a slightly acidic pH condition than under a physiological pH.
Importantly, because of the coexistence of targeting ligand FA and
Au core NPs as a CT imaging agent, the multifunctional DOX-loaded
Au DENPs afford specific chemotherapy and CT imaging of FA receptor-overexpressing
cancer cells. The constructed DOX-conjugated Au DENPs hold a promising
potential to be utilized for simultaneous chemotherapy and CT imaging
of various types of cancer cells.