American Association for Cancer Research
Browse
- No file added yet -

Figure S6 from Distribution and Activity of Lenvatinib in Brain Tumor Models of Human Anaplastic Thyroid Cancer Cells in Severe Combined Immune Deficient Mice

Download (9 MB)
figure
posted on 2023-04-03, 16:02 authored by Rong Wang, Tadaaki Yamada, Sachiko Arai, Koji Fukuda, Hirokazu Taniguchi, Azusa Tanimoto, Akihiro Nishiyama, Shinji Takeuchi, Kaname Yamashita, Koshiro Ohtsubo, Junji Matsui, Naoyoshi Onoda, Eishu Hirata, Shu Taira, Seiji Yano

Supplementary Figure 6 shows vessel density in the brain or subcutaneuos tumors of OCUT-1C cells treated with lenvatinib or sorafenib for 3 days.

Funding

JSPS KAKENHI

Cancer Research and Therapeutic Evolution

History

ARTICLE ABSTRACT

Anaplastic thyroid carcinoma (ATC) is a rare but aggressive undifferentiated tumor that frequently metastasizes to the brain. The multiple kinase inhibitor lenvatinib and sorafenib have been approved to treat unresectable differentiated thyroid cancer, and lenvatinib has been approved in Japan to treat ATC. This study compared the effects of lenvatinib and sorafenib in mouse models of central nervous system metastases of ATC. Immunodeficient mice were inoculated with ATC cells, and the effects of lenvatinib and sorafenib were evaluated in subcutaneous- and brain metastasis–mimicking models. Drug distribution was evaluated by imaging tandem mass spectrometry (ITMS). Neither lenvatinib nor sorafenib affected the viability of ATC cell lines, whereas both inhibited VEGF secretion by ATC cells. In the subcutaneous tumor model, both lenvatinib and sorafenib inhibited growth and were associated with reduced tumor microvessel density. In the brain metastasis–mimicking model, lenvatinib, but not sorafenib, inhibited the growth of ATC cells and reduced microvessel density in brain lesions. ITMS showed that lenvatinib was well-distributed in both subcutaneous and brain lesions, whereas the distribution of sorafenib was lower in brain than in subcutaneous lesions. These results demonstrate that lenvatinib is well-distributed in mouse models of ATC, and inhibited the growth of ATC brain lesions predominantly by inhibiting angiogenesis, suggesting that lenvatinib is highly potent against ATC brain metastases.