ENO1 was overexpressed in HCC tissues and associated with worse outcomes in terms of overall survival (OS) (<i>P</i><0.01) and disease-free survival (<i>P</i><0.01).
Pathways mapping revealed that glycolysis/gluconeogenesis and complement/coagulation cascades are the mostly affected cell life activities in HCC malignant ascites, suggesting the key factors in these pathways such as Enolase-1 and fibrinogen are potential ascitic fluid based biomarkers for diagnosis and prognosis for HCC.
Our previous study has shown that granulin A (GRN A), an anticancer peptide, is able to interact with enolase1 (ENO1) and inhibit the growth of HCC in vitro.
Collectively, these data suggest that activation of an HIF-1alpha-regulated glycolysis module is closely related to the aggressive phenotype of HCC, and that ENO1, a glycolysis module gene, might serve as a new target to circumvent HCC metastasis.
Collectively, these data suggest that activation of an HIF-1alpha-regulated glycolysis module is closely related to the aggressive phenotype of HCC, and that ENO1, a glycolysis module gene, might serve as a new target to circumvent HCC metastasis.
Our results therefore suggest that expression of MBP-1 and c-myc are decreased in a stepwise fashion in the presence of chronic liver disease and hepatocellular carcinoma in humans and that further study of the interactions of these two genes and their products is warranted to determine their role in human hepatocarcinogenesis.