Exogenously administered HGF activator augments liver regeneration through the production of biologically active HGF.

Hepatocyte growth factor (HGF) plays a crucial role in the recovery of injured liver. Liver functions are mostly impaired in patients with liver diseases including cirrhosis. However, a significant amount of inactive HGF precursor (proHGF) is reported in the plasma of these patients. proHGF is proteolytically converted to an active form (mature HGF) by HGF-activator. Thus conversion of proHGF into mature HGF presumably contributes to the recovery of liver functions. In this study, rats with a partial hepatectomy were used, as proHGF is accumulated in the remnant liver. Recombinant human HGF-activator was administered via the portal vein to investigate the effect on molecular forms of HGF and its biological signaling. rhHGF-activator promptly converted proHGF into mature HGF, reaching maximal levels at 5-10 min after the injection, while the decreased proHGF was quickly recovered to the initial levels in the liver. The HGF receptor/c-Met was found to be autophosphorylated in the liver treated with rhHGF-activator. Further, the proliferating cell nuclear antigen labeling index and the liver regeneration rate were significantly higher in rhHGF-activator group than in control animals. These results indicate that exogenously administered HGF-activator produces a biologically active HGF from its precursor form and increases the potential for liver regeneration in vivo. (c)2002 Elsevier Science.