Enhanced re-endothelialization of acellular kidney scaffolds for whole organ engineering via antibody conjugation of vasculatures
Authors:
In Kap Ko, Mehran Abolbashari, Jennifer Huling, Cheil Kim, Sayed-Hadi Mirmalek-Sani, Mahmoudreza Moradi, Giuseppe Orlando, John D. Jackson, Tamer Aboushwareb, Shay Soker, James J. Yoo, & Anthony Atala
Summary:
Decellularization of whole organs, such as the kidney hold great promise in addressing donor shortage for transplantation. However, successful implantation of engineered whole kidney constructs has been challenged by the inability to maintain endothelial cell coverage of the vasculature matrix, resulting in excessive blood clots, loss of vascular patency, and cell death within the construct. In this study, we describe an endothelial cell seeding approach that permits effective coating of the vascular matrix of the decellularized porcine kidney scaffold using a combination of static and ramping perfusion cell seeding. Furthermore, conjugation of CD31 antibodies to the vascular matrix improved endothelial cell retention on the vasculatures, which enhanced vascular patency of the implanted scaffold. These results demonstrate that our endothelial cell seeding method combined with antibody conjugation improves endothelial cell attachment and retention leading to vascular patency of tissue-engineered whole kidney in vivo.
Source: Technology; (09/03/14)
Summary:
Decellularization of whole organs, such as the kidney hold great promise in addressing donor shortage for transplantation. However, successful implantation of engineered whole kidney constructs has been challenged by the inability to maintain endothelial cell coverage of the vasculature matrix, resulting in excessive blood clots, loss of vascular patency, and cell death within the construct. In this study, we describe an endothelial cell seeding approach that permits effective coating of the vascular matrix of the decellularized porcine kidney scaffold using a combination of static and ramping perfusion cell seeding. Furthermore, conjugation of CD31 antibodies to the vascular matrix improved endothelial cell retention on the vasculatures, which enhanced vascular patency of the implanted scaffold. These results demonstrate that our endothelial cell seeding method combined with antibody conjugation improves endothelial cell attachment and retention leading to vascular patency of tissue-engineered whole kidney in vivo.
Source: Technology; (09/03/14)