Cirrhosis and Inflammation Regulates CYP3A4 Mediated Chemoresistance in Vascularized Hepatocellular Carcinoma-on-a-chip

Understanding the effects of inflammation and cirrhosis on the regulation of drug metabolism during the progression of hepatocellular carcinoma (HCC) is critical for developing patient-specific treatment strategies. In this work, we created novel three-dimensional vascularized HCC-on-a-chips (HCCoC), composed of HCC, endothelial, stellate, and Kupffer cells tuned to mimic normal or cirrhotic liver stiffness. HCC inflammation was controlled by tuning Kupffer macrophage numbers, and the impact of cytochrome P450-3A4 (CYP3A4) was investigated by culturing HepG2 HCC cells transfected with CYP3A4 to upregulate expression from baseline. This model allowed for the simulation of chemotherapeutic delivery methods such as intravenous injection and transcatheter arterial chemoembolization (TACE). We showed that upregulation of metabolic activity, incorporation of cirrhosis and inflammation, increase vascular permeability due to upregulated inflammatory cytokines leading to significant variability in chemotherapeutic treatment efficacy. Specifically, we show that further modulation of CYP3A4 activity of HCC cells by TACE delivery of doxorubicin provides an additional improvement to treatment response and reduces chemotherapy-associated endothelial porosity increase. The HCCoCs were shown to have utility in uncovering the impact of the tumor microenvironment (TME) during cancer progression on vascular properties, tumor response to therapeutics, and drug delivery strategies. Statement of Significance Regulation of drug metabolism during the cancer progression of hepatocellular carcinoma (HCC) can be influential to develop personalized treatment strategies. We created novel vascularized hepatocellular carcinoma-chip (HCCoC) composed of tunable collagen and four main liver-specific cell lines to be used as a preclinical tool. In this model, we found cancer evolution states such as inflammation and cirrhosis increases vascular permeability progressively as a result of increased inflammatory cytokines. Furthermore, delivery of doxorubicin only with embolization improved treatment efficacy by decreasing CYP3A4 activity, which can modulate treatment outcome. Overall, we found different disease states can be influential on CYP3A4, thus its targeting can improve HCC treatment outcome. ### Competing Interest Statement A. O. and M. N. R. are authors of multiple pending patents on vascularized microfluidic platforms.