According to the report of the Department of Health, Executive Yuan, R.O.C. (Taiwan), chronic liver disease and cirrhosis ranked the top ten in the major causes of death in Taiwan. In chronic liver diseases, liver fibrosis is one of the most common symptoms which is the excessive accumulation of extracellular matrix in the liver, and can subsequently lead to cirrhosis. One of the primary treatments for these various end-stage hepatic diseases is liver transplantation. However, this is limited by the lack of donor organs and the immuno-rejection from the recipient patients. Thus, it is necessary to devise better therapeutic methods for this disease. Recently, transplantation of bone marrow-derived mesenchymal stem cells (MSCs) has been shown to ameliorate liver fibrosis in animal models with only few cells migrated into damaged area. It is reasonable to suspect that liver fibrosis can be better mitigated by improving the migration rate of MSCs to the injured liver. In this study, MSCs were induced to differentiate into functional hepatocyte-like cells under defined conditions, which suggest the potential for therapeutic applications in healing liver diseases. To assess the potential of MSCs to ameliorate liver fibrosis in vivo, bone marrow-derived MSCs was isolated from the femur of transgenic porcine (pMSCs) and mice (mMSCs) harboring β-actin promoter constructed with EGFP (enhanced green fluorescent protein) cDNA serving as a tracing marker and EGFP-pMSCs or EGFP-mMSCs before/after Ultra-low plate culture were transplanted into the portal vein or spleen of carbon tetrachloride (CCl4)-treated mice. I hypothesized that spheres of MSCs in different sizes would show different potential into the injured liver due to three-dimensional bulkiness. To test this hypothesis, the transplantation was done in different sizes of cell spheres including suspended single cells, cell spheres of < 40μm, 40~70μm, and >70μm in diameter. After 4 weeks of transplantation, both the engraftments of EGFP-pMSCs and EGFP-mMSCs to the recipient livers were detected by immunohistochemistry with antibodies recognizing EGFP. The results showed that all of the cell transplanted mice could significantly ameliorate liver fibrosis compared to the non-transplanted control (p < 0.05). Moreover, the liver hydroxyproline content significantly decreased and the migration rate of MSCs increased significantly in the group with mMSCs spheres of 40~70μm than suspended single cells transplanted into portal vein (p < 0.05). Taken together, no matter allogenically or xenogenically, MSCs transplanted into mice with liver fibrosis were able to migrate into the liver and significantly decrease the level of liver hydroxyproline content. Moreover, the migration rate is significantly higher in the transplantation group with mMSC spheres of 40~70μm than the group with suspended single cells. These findings provide new insights that bone marrow MSCs-based cell therapy could be transplanted in spheres and is potentially useful for the treatment of liver fibrosis and can even contribute to liver regeneration.