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International journal of clinical and experimental pathology

Pachymic acid modified carbon nanoparticles reduced angiogenesis via inhibition of MMP-3.


PMID 26191251

Abstract

Angiogenesis is a process of new blood vessel generation, which is consistently and robustly correlated with tumor formation, growth, and metastasis. The disruption of angiogenesis, and the imbalanced endothelial remodeling and regression, are the main pathogenesis of malignant tumor. Recently, multi-walled nanotubes (MWNTs) have been proposed as a new tool for drug delivery in cancer treatment, which also displayed anti-angiogenic property. In the present study, we modified MWNTs with pachymic acid (PA) extracted from Heterosmilax chinensis, a traditional Chinese medicine used for cancer treatment, and compared their effects on blood vessel development. MWNTs and PA/MWNTs were evaluated for their influences on chorioallantoic membrane (CAM) vessel morphology and extracellular matrix metalloproteinase-3 (MMP-3) expression, a crucial proteinase associated with tumor metastasis. MWNTs functioned as an inhibitor of forming branch while PA was not able to promote this inhibition. Subsequently, MWNTs suppressed the endothelial cell maturation, accounting for the ceased elongation of CAM blood vessel, while PA/MWNTs increased the suppressive effect, indicating the potential roles of PA in preventing angiogenesis. PA/MWNTs also showed greater anti-angiogenic property as MMP-3 expression in CAM tissue was significantly decreased by PA/MWNTs compared to MWNTs. These results emphasize the anti-angiogenic activities of PA, supporting a new promising therapy for cancer from the perspective of traditional Chinese medicine.