Remodeling of Metastatic Vasculature Reduces Lung Colonization and Sensitizes Overt Metastases to Immunotherapy

Abstract

Due to limited current therapies, metastases are the primary cause of mortality in cancer patients. Here, we employ a fusion compound of the cytokine LIGHT and a vascular targeting peptide (LIGHT-VTP) that homes to angiogenic blood vessels in primary tumors. We show in primary mouse lung cancer that normalization of tumor vasculature by LIGHT-VTP prevents cancer cell intravasation. Further, LIGHT-VTP efficiently targets pathological blood vessels in the pre-metastatic niche, reducing vascular hyper-permeability and extracellular matrix (ECM) deposition, thus blocking metastatic lung colonization. Moreover, we demonstrate that mouse and human metastatic melanoma deposits are targetable by VTP. In overt melanoma metastases, LIGHT-VTP normalizes intra-metastatic blood vessels and increases GrzB⁺ effector T cells. Successful treatment induces high endothelial venules (HEVs) and lymphocyte clusters, which sensitize refractory lung metastases to anti-PD-1 checkpoint inhibitors. These findings demonstrate an important application for LIGHT-VTP therapy in preventing metastatic development as well as exerting anti-tumor effects in established metastases.

Keywords: angiogenesis; high endothelial venules; immunotherapy; metastasis; peptide tumor targeting; pre-metastatic niche; tertiary lymph node structures; vessel normalization.