Human Amniotic Epithelial Cells and Human Amniotic Membrane as a Vehicle for Islet Cell Transplantation

Abstract

Immunologic and nonimmunologic mechanisms contribute to islet loss on transplantation in the liver. A site outside of the vascular bed may act as a sanctuary site avoiding immediate inflammatory response. We developed a unique approach by using a human amniotic membrane (HAM) for islet transplant onto the liver surface by combining it with human amniotic epithelial cells (HAECs). Decellularized 1.0 × 1.0-cm HAM was placed on the surface of the liver; 2000 islet equivalent of human islets mixed with 0.4 × 106 HAECs were infused into the space between the membrane and surface. Two pieces of the decellularized HAM were placed under the subcutaneous space to study the angiogenic potential. After cotransplant 57.1% of recipient mice became normoglycemic by the third day after transplant, and 100% attained euglycemia 2 weeks post-transplant. Bodyweight of 85.7% of mice gradually increased over time. The HAM and islets were identified in histologic section in all. Neovascularization was observed to be dramatically increased. In conclusion, HAM is a very versatile biological membrane; HAECs help angiogenesis and better engraftment of islets on the liver surface, eliminating the need for vascular deployment of islet cells and avoiding the risk of portal vein thrombosis and instant blood-mediated inflammatory reaction–related islet loss in the liver.