2016 Volume No 32 – pages 24-39
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Title: Xenotransplantation of pig chondrocytes: therapeutic potential and barriers for cartilage repair |
Authors: R Sommaggio, M Uribe-Herranz, M Marquina, C Costa |
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Address: IDIBELL, Hospital Duran i Reynals, Gran Via de L’Hospitalet 199, 08908 L’Hospitalet de Llobregat, Barcelona, Spain |
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E-mail: ccosta at idibell.cat |
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Key Words: Xenotransplantation, cartilage, antibody, complement, T cells, monocytes, NK cells, cytokine release. |
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Publication date: July 5th 2016 |
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Abstract: Transplantation may be the best option for the repair of many cartilage lesions including early osteoarthritis. Currently, autologous and allogeneic chondrocytes are grafted into cartilage defects to treat selected patients with moderate clinical success. However, their limited use justifies exploring novel therapies for cartilage repair. Xenotransplantation could become a solution by offering high cell availability, quality and genetic engineering capabilities. The rejection process of xenogeneic cartilage is thus being elucidated in order to develop counteractive strategies. Initial studies determined that pig cartilage xenografts are rejected by a slow process comprising humoral and cellular responses in which the galactose α1,3-galactose antigen participates. Since then, our group has identified key mechanisms of the human response to pig chondrocytes (PCs). In particular, human antibody and complement contribute to PC rejection by inducing a pro-inflammatory milieu. Furthermore, PCs express and up-regulate molecules which are functionally relevant for a variety of cellular immune responses (SLA-I, the potent co-stimulatory molecule CD86, and adhesion molecules VCAM-1 and ICAM-1). These participate by triggering a T cell response, as well as supporting a prominent role of the innate immune responses led by natural killer (NK) cells and monocytes/macrophages. Human NK cells lyse PCs by using selected NK activating receptors, whereas human monocytes are activated by PCs to secrete cytokines and chemokines. All this knowledge sets the bases for the development of genetic engineering approaches designed to avert rejection of xenogeneic chondrocytes and leads the way to developing new clinical applications for cartilage repair. |
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Article download: Pages
24-39 (PDF file) |
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