RATIONALE AND OBJECTIVE: Targeted delivery is a highly desirable strategy for diagnostic imaging because of enhanced efficacy and reduced dosage/toxicity. Receptor-targeting was used to deliver contrast-producing superparamagnetic iron oxide (IO) nanoparticle to receptor-expressing tumors for in vivo magnetic resonance (MR) imaging. MATERIALS AND METHODS: Nanometer-sized, dextran-coated (maghemite) IO particles were prepared by a precipitation method. They were tethered with N-hydroxysuccinimide-folate and fluorescence isothiocyanate (FITC). For in vitro study of delivery specificity and efficiency, KB cells, a human nasopharyngeal epidermal carcinoma cell line expressing surface receptors for folic acid, were used as positive targets, and A549 cells, a human lung carcinoma cell line which lacks folate receptors, were used as negative control targets. In vivo MR images were obtained using mouse models with subcutaneous tumor xenografts grown from implanted KB cells. RESULTS: Internalization of nanoparticles into targeted cells only occurred when IO was conjugated to folate and when the folate receptors are available and accessible on the cells. The endocytosis was efficient and rapid, as 97.5% KB cells cultured with folate-FITC-IO showed FITC uptake after 1 hour of incubation. In in vivo MR imaging, an average intensity decrease of 38% was observed from precontrast to postcontrast images of the tumor, which was about three times the intensity decrease observed at a non-tumor-bearing muscle. CONCLUSION: Successful in vivo MR imaging of folate receptor-expressing tumors targeted by IO nanoparticles was demonstrated for the first time.
RATIONALE AND OBJECTIVE: Targeted delivery is a highly desirable strategy for diagnostic imaging because of enhanced efficacy and reduced dosage/toxicity. Receptor-targeting was used to deliver contrast-producing superparamagnetic iron oxide (IO) nanoparticle to receptor-expressing tumors for in vivo magnetic resonance (MR) imaging. MATERIALS AND METHODS: Nanometer-sized, dextran-coated (maghemite) IO particles were prepared by a precipitation method. They were tethered with N-hydroxysuccinimide-folate and fluorescence isothiocyanate (FITC). For in vitro study of delivery specificity and efficiency, KB cells, a human nasopharyngeal epidermal carcinoma cell line expressing surface receptors for folic acid, were used as positive targets, and A549 cells, a humanlung carcinoma cell line which lacks folate receptors, were used as negative control targets. In vivo MR images were obtained using mouse models with subcutaneous tumor xenografts grown from implanted KB cells. RESULTS: Internalization of nanoparticles into targeted cells only occurred when IO was conjugated to folate and when the folate receptors are available and accessible on the cells. The endocytosis was efficient and rapid, as 97.5% KB cells cultured with folate-FITC-IO showed FITC uptake after 1 hour of incubation. In in vivo MR imaging, an average intensity decrease of 38% was observed from precontrast to postcontrast images of the tumor, which was about three times the intensity decrease observed at a non-tumor-bearing muscle. CONCLUSION: Successful in vivo MR imaging of folate receptor-expressing tumors targeted by IO nanoparticles was demonstrated for the first time.
Authors: Lily Yang; Zehong Cao; Hari Krishna Sajja; Hui Mao; Liya Wang; Huaying Geng; Hengyi Xu; Tieshan Jiang; William C Wood; Shuming Nie; Y Andrew Wang Journal: J Biomed Nanotechnol Date: 2008-12-01 Impact factor: 4.099
Authors: Yuanyuan Xie; Pengyun Zeng; Ronald A Siegel; Timothy Scott Wiedmann; Bruce E Hammer; P Worth Longest Journal: Pharm Res Date: 2010-03-03 Impact factor: 4.200
Authors: Lily Yang; Hui Mao; Zehong Cao; Y Andrew Wang; Xianghong Peng; Xiaoxia Wang; Hari K Sajja; Liya Wang; Hongwei Duan; Chunchun Ni; Charles A Staley; William C Wood; Xiaohu Gao; Shuming Nie Journal: Gastroenterology Date: 2009-01-14 Impact factor: 22.682