Abstract

Systemic treatment of hepatocellular carcinoma (HCC) targets the tumor microenvironment (TME) by combining immunotherapy with angiogenesis inhibitors. Cancer-associated fibroblasts (CAF) are important components of the TME, however their targeting in clinics remains challenging. To this end, the existence of tumor supressing CAF and their poor characterisation is a major conundrum. Starting from proteomics and single cell analysis, we outline CAF heterogeneity in HCC and describe a subtype of CAF that express a novel tumor-related protein prolargin. Upon secretion prolargin is deposited in the TME where its levels positively correlate with patient outcome (HR=0.37; p=0.01). In vivo, tumors with lower prolargin expression display faster progression (5-fold; p=0.01) and stronger angiogenesis. Mechanistically, aggressive HCC cells degrade prolargin using matrix metalloprotease 3 (MMP3). We show that prolargin binds and inhibits several growth factors, key to tumor progression. Inhibiting prolargin degradation combined with sorafenib, demonstrated superior tumor control compared to sorafenib treatment alone. In conclusion, prolargin-expressing CAF have tumor-antagonizing properties. Stabilizing prolargin tumoral levels should be considered for systemic therapy of HCC, involving CAF in existing TME targeting.