TY - JOUR
T1 - Active targeting nano-scale bubbles enhanced ultrasound cavitation chemotherapy in Y1receptor-overexpressed breast cancer
AU - Qian, Xuechen
AU - Wang, Yinjie
AU - Xu, Youfeng
AU - Ma, Ling
AU - Xue, Nianyu
AU - Jiang, Zhenqi
AU - Cao, Yi
AU - Akakuru, Ozioma Udochukwu
AU - Li, Juan
AU - Zhang, Shengmin
AU - Wu, Aiguo
N1 - Publisher Copyright:
© The Royal Society of Chemistry.
PY - 2020/8/21
Y1 - 2020/8/21
N2 - Ultrasound cavitation therapy has attracted much attention in recent years because the cavitation of microbubbles can be leveraged to boost the infiltration of chemotherapeutic drugs into cancer tissues. For breast cancer therapy, most of the previously reported microbubbles lack specific targeting capacity and permeability. In this study, we have successfully fabricated Y1 receptor ligand (NPY)-modified bubbles, and examined their therapeutic efficacies as size-dependent functions with or without NPY targeting. To achieve this, four types of micro-scale bubbles (MBs or MBs-NPY) and nano-scale bubbles (NBs or NBs-NPY) were comprehensively evaluated. In vivo results indicated that the NBs-NPY group with doxorubicin (DOX) under ultrasound irradiation showed a high tumor suppression effect and a prolonged survival time. Furthermore, the NBs-NPY with DOX group exhibited minimal damage to mouse vital organs, which points to the considerable tolerance of the proposed nanosystem for efficacious breast cancer therapy. In summary, these findings suggest that the developed NPY-targeted NBs could have a broad application prospect in ultrasound cavitation chemotherapy of Y1 receptor-overexpressed breast cancer.
AB - Ultrasound cavitation therapy has attracted much attention in recent years because the cavitation of microbubbles can be leveraged to boost the infiltration of chemotherapeutic drugs into cancer tissues. For breast cancer therapy, most of the previously reported microbubbles lack specific targeting capacity and permeability. In this study, we have successfully fabricated Y1 receptor ligand (NPY)-modified bubbles, and examined their therapeutic efficacies as size-dependent functions with or without NPY targeting. To achieve this, four types of micro-scale bubbles (MBs or MBs-NPY) and nano-scale bubbles (NBs or NBs-NPY) were comprehensively evaluated. In vivo results indicated that the NBs-NPY group with doxorubicin (DOX) under ultrasound irradiation showed a high tumor suppression effect and a prolonged survival time. Furthermore, the NBs-NPY with DOX group exhibited minimal damage to mouse vital organs, which points to the considerable tolerance of the proposed nanosystem for efficacious breast cancer therapy. In summary, these findings suggest that the developed NPY-targeted NBs could have a broad application prospect in ultrasound cavitation chemotherapy of Y1 receptor-overexpressed breast cancer.
UR - http://www.scopus.com/inward/record.url?scp=85089420876&partnerID=8YFLogxK
U2 - 10.1039/d0tb00556h
DO - 10.1039/d0tb00556h
M3 - Article
C2 - 32510101
AN - SCOPUS:85089420876
SN - 2050-7518
VL - 8
SP - 6837
EP - 6844
JO - Journal of Materials Chemistry B
JF - Journal of Materials Chemistry B
IS - 31
ER -
