Kiwi-derived extracellular vesicles for oral delivery of sorafenib

Abstract

Sorafenib is an oral treatment for hepatocellular carcinoma (HCC). However, poor water solubility, harsh gastrointestinal environment and off-target effects contribute to the low bioavailability of oral sorafenib. Plant-derived extracellular vesicles (PDEVs) are biological nanovesicles with various bioactive functions that offer significant advantages in the field of oral drug delivery: protection from degradation by gastrointestinal fluids; crossing the intestinal epithelial barrier; specific targeting; safety; and abundant yield. However, there are fewer studies applying PDEVs for anti-tumor drug delivery to extra-digestive tissues. In this study, kiwifruit-derived extracellular vesicles (KEVs) were isolated and purified from kiwifruit, and their natural hepatic accumulation properties were exploited for targeted delivery of sorafenib (KEVs-SFB). Evidence showed that encapsulation of KEVs reduced the leakage of sorafenib in the gastrointestinal environment and enhanced the ability to cross the intestinal epithelium; KEVs-SFB was able to achieve liver accumulation and was predominantly taken up by HepG2 cells; KEVs-SFB was effective in inhibiting 4T1 cell proliferation; in the orthotopic liver cancer model, oral administration of KEVs-SFB inhibited tumor growth and improved the side effects of SFB. This PDEVs-based oral drug delivery platform is important for improving oral bioavailability and reducing drug side effects.