TY - JOUR
T1 - Cell type-specific pharmacological kinase inhibition for cancer chemoprevention
AU - on behalf of
AU - Precision Liver Cancer Prevention Consortium
AU - Deshmukh, Manjeet
AU - Nakagawa, Shigeki
AU - Higashi, Takaaki
AU - Vincek, Adam
AU - Venkatesh, Anu
AU - Ruiz de Galarreta, Marina
AU - Koh, Anna P.
AU - Goossens, Nicolas
AU - Hirschfield, Hadassa
AU - Bian, C. Billie
AU - Fujiwara, Naoto
AU - Ono, Atsushi
AU - Hoshida, Hiroki
AU - El-Abtah, Mohamed
AU - Ahmad, Noor B.
AU - Lujambio, Amaia
AU - Sanchez, Roberto
AU - Fuchs, Bryan C.
AU - Poelstra, Klaas
AU - Prakash, Jai
AU - Hoshida, Yujin
N1 - Publisher Copyright:
© 2017 Elsevier Inc.
PY - 2018/2
Y1 - 2018/2
N2 - Safety is prerequisite for preventive medicine, but non-toxic agents are generally ineffective as clinical chemoprevention. Here we propose a strategy overcoming this challenge by delivering molecular-targeted agent specifically to the effector cell type to achieve sufficient potency, while circumventing toxicity in the context of cancer chemoprevention. Hepatic myofibroblasts drive progressive fibrosis that results in cirrhosis and liver cancer. In a rat model of cirrhosis-driven liver cancer, a small molecule epidermal growth factor receptor inhibitor, erlotinib, was delivered specifically to myofibroblasts by a versatile nanoparticle-based system, targeting platelet-derived growth factor receptor-beta uniquely expressed on their surface in the liver. With systemic administration of erlotinib, tumor burden was reduced to 31%, which was further improved to 21% by myofibroblast-targeted delivery even with reduced erlotinib dose (7.3-fold reduction with equivalent erlotinib dose) and less hepatocyte damage. These findings demonstrate a strategy, cell type-specific kinase inhibition, for more effective and safer precision cancer chemoprevention.
AB - Safety is prerequisite for preventive medicine, but non-toxic agents are generally ineffective as clinical chemoprevention. Here we propose a strategy overcoming this challenge by delivering molecular-targeted agent specifically to the effector cell type to achieve sufficient potency, while circumventing toxicity in the context of cancer chemoprevention. Hepatic myofibroblasts drive progressive fibrosis that results in cirrhosis and liver cancer. In a rat model of cirrhosis-driven liver cancer, a small molecule epidermal growth factor receptor inhibitor, erlotinib, was delivered specifically to myofibroblasts by a versatile nanoparticle-based system, targeting platelet-derived growth factor receptor-beta uniquely expressed on their surface in the liver. With systemic administration of erlotinib, tumor burden was reduced to 31%, which was further improved to 21% by myofibroblast-targeted delivery even with reduced erlotinib dose (7.3-fold reduction with equivalent erlotinib dose) and less hepatocyte damage. These findings demonstrate a strategy, cell type-specific kinase inhibition, for more effective and safer precision cancer chemoprevention.
KW - Cancer chemoprevention
KW - Epidermal growth factor
KW - Kinase inhibitor
KW - Liver cancer
KW - Nanoparticle
UR - http://www.scopus.com/inward/record.url?scp=85037542266&partnerID=8YFLogxK
U2 - 10.1016/j.nano.2017.11.004
DO - 10.1016/j.nano.2017.11.004
M3 - Article
C2 - 29157977
AN - SCOPUS:85037542266
SN - 1549-9634
VL - 14
SP - 317
EP - 325
JO - Nanomedicine: Nanotechnology, Biology, and Medicine
JF - Nanomedicine: Nanotechnology, Biology, and Medicine
IS - 2
ER -