Publication date: Available online 5 July 2017
Source:Acta Biomaterialia
Author(s): Huacheng He, Eleni Markoutsa, Yihong Zhan, Jiajia Zhang, Peisheng Xu
Most photothermal converting systems are not biodegradable, which bring the uneasiness when they are administered into human body due to the uncertainty of their fate. Hereby, we developed a mussel-inspired PLGA/polydopamine core-shell nanoparticle for cancer photothermal and chemotherapy. With the help of an anti-EGFR antibody, the nanoparticle could effectively enter head and neck cancer cells and convert near-infrared light to heat to trigger drug release from PLGA core for chemotherapy as well as ablate tumors by the elevated temperature. Due to the unique nanoparticle concentration dependent peak working-temperature nature, an overheating or overburn situation can be easily prevented. Since the nanoparticle was retained in the tumor tissue and subsequently released its payload inside the cancer cells, no any doxorubicin-associated side effects were detected. Thus, the developed mussel-inspired PLGA/polydopamine core-shell nanoparticle could be a safe and effective tool for the treatment of head and neck cancer.Statement of significanceThe described EGFR targeted PLGA/polydopamine Core-shell Nanoparticle (PLGA/PD NP) is novel in the following aspectsDifferent from most photothermal converting nanomaterials, PLGA/PD NP is biodegradable, which eliminates the long-term safety concerns thwarting the clinical application of photothermal therapy.Different from most photothermal nanomaterials, upon NIR irradiation, PLGA/PD NP quickly heats its surrounding environment to a NP concentration dependent peak working temperature and uniquely keeps that temperature constant through the duration of light irradiation. Due to this unique property an overheating or overburn situation for the adjacent healthy tissue can be easily avoided.The PLGA/PD NP releases its payload through detaching PD shell under NIR laser irradiation.The EGFR-targeted doxorubicin-loaded PLGA/PD NP effectively eradicate head and neck tumorin vivo through the synergism of photothermal therapy and chemotherapy while not introducing doxorubicin associated cardiotoxicity.
Graphical abstract
http://ift.tt/2tj1lb4
Δεν υπάρχουν σχόλια:
Δημοσίευση σχολίου