Abstract A50: Nanobiocojugates of differential imaging and treatment of brain metastatic tumors

Abstract

Abstract Introduction: A significant clinical problem with brain metastatic (BM) tumors is drug delivery and diagnostic imaging to verify MRI enhancement(s) for planning treatment. MRI enhancement in cancer patient's brain might result from infection after chemotherapy that impairs immune system; metastasis from primary lung/breast cancer; or a new primary brain tumor. Unlike lung/breast, brain biopsies are often technically impossible. Therefore, there is urgent need for the development of effective theranostic (dual therapy and diagnostic) systems against brain metastatic cancer. Most chemotherapeutic drugs or therapeutic monoclonal antibodies (mAb), Trastuzumab, Cetuximab, and Rituximab, are effective for primary tumor treatment but cannot penetrate blood brain barrier (BBB) failing to treat brain metastasis. We used a natural nanobiopolymer, polymalic acid (PMLA), as a nanoplatform for the family of tumor-targeted PolycefinTM drugs to provide differential brain tumor imaging and treatment. Methods: Three xenogeneic orthotropic human brain metastatic tumors, MDA-MB-474, HER2+ breast cancer; A549 lung cancer, and MDA-MB-468, triple negative breast cancer (TNBC), both EGFR+, were inoculated stereotactically into the brain of mice. For diagnostic imaging, PolycefinTM was used with covalently attached MRI tracer Gadolinium (Gd-DOTA). Morpholino antisense oligonucleotides (AON) were conjugated to PolycefinTM to specifically inhibit gene/protein expression to block tumor growth. The combination of cell surface targeting mAbs, including anti-transferrin receptor (TfR) mAb for drug BBB transcytosis, and AONs to multiple tumor markers on the same delivery polymer was used for anti-tumor treatment. MRI 1H imaging was performed on a 9.4-Tesla small animal MRI system. Treatment groups of animals included (1) HER2+ MDA-MB-474 breast cancer metastases targeted with PMLA-Gd-DOTA/HER2 mAb/TfR mAb; (2) EGFR+ MDA-MB-468 TNBC metastases targeted with PMLA-Gd-DOTA/EGFR mAb/TfR mAb; and (3) Controls for all treatments inoculated with PMLA-IgG mAb and clinical Gd. Unpublished Results. Imaging: Dynamic T1 analysis. Similar data for specific tumor imaging were obtained for brain-implanted lung and breast tumors: the inverse of T1-1 relaxation time (proportional to Gd concentration) was measured in healthy brain part and in the tumor. T1-1 time dependence for Gd-DOTA-Polycefin (T1-1 ratio tumor/normal brain) was compared with clinically used Gd MRI agent, MultiHance®. After reaching a maximum, high T1-1 relative values prevailed for several hours for Gd-DOTA-mAb-Polycefin, but declined rapidly for Gd. High contrast for Gd was seen in 20 min, whereas that for Gd-DOTA-Polycefin peaked in 45-60 min, and remained for up to 3 hrs. By differential MRI with anti-HER2 (Trastuzumab) or anti-EFGR (Cetuximab) mAb attached covalently to the nanoplatform, we were able to differentiate HER2+ from EGFR+ metastatic brain tumors with corresponding imaging controls. Treatment: Animal survival after Polycefin treatment of various brain metastases was significantly higher than in untreated (PBS) or therapeutic mAb (Herceptin or Cetuximab) treated animals. These survival increases were as follows: 66% for lung cancer metastasis, 47% for HER2+ breast cancer metastasis, and 81% for TNBC metastasis. Conclusions. We have developed a system for differential imaging and treatment of various metastatic brain tumors based on specific metastasis targeting, and inhibition of expression of tumor-specific genes/proteins. Systemic treatment with this system resulted in significantly increased survival of brain metastatic tumor-bearing animals. Citation Format: Julia Y. Ljubimova, R. Patil, P. Gangalum, S. Wagner, S. Inoue, H. Ding, J. Portilla, K. Rekechenetskiy, K. Bindu, J. Markman, A. Chesnokova, K. L. Black, E. Holler. Nanobiocojugates of differential imaging and treatment of brain metastatic tumors. [abstract]. In: Proceedings of the AACR Special Conference on Tumor Invasion and Metastasis; Jan 20-23, 2013; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2013;73(3 Suppl):Abstract nr A50.