In vivo prevention of transplant arteriosclerosis by ex vivo–expanded human regulatory T cells

SN Nadig, J Więckiewicz, DC Wu, G Warnecke… - Nature medicine, 2010 - nature.com
SN Nadig, J Więckiewicz, DC Wu, G Warnecke, W Zhang, S Luo, A Schiopu, DP Taggart
Nature medicine, 2010nature.com
Transplant arteriosclerosis is the hallmark of chronic allograft dysfunction (CAD) affecting
transplanted organs in the long term,. These fibroproliferative lesions lead to neointimal
thickening of arteries in all transplanted allografts. Luminal narrowing then leads to graft
ischemia and organ demise. To date, there are no known tolerance induction strategies that
prevent transplant arteriosclerosis,. Therefore, we designed this study to test the hypothesis
that human regulatory T cells (Treg cells) expanded ex vivo can prevent transplant …
Abstract
Transplant arteriosclerosis is the hallmark of chronic allograft dysfunction (CAD) affecting transplanted organs in the long term,. These fibroproliferative lesions lead to neointimal thickening of arteries in all transplanted allografts. Luminal narrowing then leads to graft ischemia and organ demise. To date, there are no known tolerance induction strategies that prevent transplant arteriosclerosis,. Therefore, we designed this study to test the hypothesis that human regulatory T cells (Treg cells) expanded ex vivo can prevent transplant arteriosclerosis. Here we show the comparative capacity of Treg cells, sorted via two separate strategies, to prevent transplant arteriosclerosis in a clinically relevant chimeric humanized mouse system. We found that the in vivo development of transplant arteriosclerosis in human arteries was prevented by treatment of ex vivo–expanded human Treg cells. Additionally, we show that Treg cells sorted on the basis of low expression of CD127 provide a more potent therapy to conventional Treg cells. Our results demonstrate that human Treg cells can inhibit transplant arteriosclerosis by impairing effector function and graft infiltration. We anticipate our findings to serve as a foundation for the clinical development of therapeutics targeting transplant arteriosclerosis in both allograft transplantation and other immune-mediated causes of vasculopathy.
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