The novel approach of tissue engineering to treat many forms of liver diseases using hepatocytes requires sufficient numbers and sustained survival of the transplanted cells. It has been shown that providing extracellular matrix components extracted from Engelbreth-Holm-Swarm cells (EHS-ECMs) to heterotopically transplanted hepatocytes allows significantly greater hepatocyte survival. We investigated the survival and morphology of hepatocytes and EHS-ECMs transplanted under the kidney capsule compared with hepatocytes with growth factor-reduced EHS-ECMs in mice. Both the EHS-ECMs and growth factor-reduced EHS-ECMs showed a large number of surviving hepatocytes under the kidney capsule without any intergroup differences. Histologically, transplanted hepatocytes in both groups retained their characteristic morphologies and formed small liver tissues. These data indicate that extracellular matrix components are the predominant factor in EHS-ECMs required to maintain hepatocytes at heterotopic sites.