Tissue-Engineered Hepatocyte Sheets Supplemented with Adipose-Derived Stem Cells

The ability to engineer biologically viable hepatocytes and tissue matrices with long-term functional maintenance has attracted considerable interest in the fields of hepatocyte transplantation and liver tissue engineering. Here, newly developed hepatocyte sheets supplemented with adipose-derived stem cells (ADSCs) were evaluated to assess the effects of ADSCs on hepatocyte function and engraftment into the subcutaneous space. Eight-week-old male C57BL/6J mice were used as donors, and 6-week-old male C.B-17/Icr-scid/scid mice were used as recipients. Hepatocyte-ADSC composite sheets were developed using temperature-responsive culture dishes. Hepatocyte viability in the hepatocyte-ADSC composite sheets was evaluated in an in vitro assay, and the outcome of subcutaneous transplantation of the sheet was evaluated. Hepatocyte viability was sustained in the hepatocyte-ADSC composite sheets in vitro. Albumin secretion was significantly higher (p = 0.015) in the hepatocytes of the hepatocyte-ADSC composite sheets (70.5 mu g/mL) than in hepatocyte-only sheets (24.0 mu g/mL). Cytokine assays showed that hepatocyte growth factor and interleukin-6 were contributed by ADSCs and not hepatocytes, which were not capable of constitutively secreting them. Immunohistochemically, phosphorylated STAT3 and c-MET expression in hepatocytes in the hepatocyte-ADSC composite sheets was significantly higher than that in the hepatocyte-only sheets. Engraftment of the transplanted hepatocyte-ADSC composite sheets was significantly enhanced without pretreatment of the subcutaneous tissue to induce a vascular network. In the hepatocyte-ADSC composite sheets, the viability of the hepatocytes was significantly maintained as the co-cultured ADSCs provided cytokines, enhancing pivotal cell signaling necessary for hepatocyte activity. Impact statementHepatocyte transplantation is a safe, less invasive bridge treatment for liver transplantation, but its effectiveness is low and transitory. Herein, we introduce newly developed hepatocyte-adipose-derived stem cell composite sheets with improved strength, easier transplantation, and increased hepatocyte viability in the subcutaneous transplantation compared with hepatocyte-only sheets.