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. 2022 Mar;22(3):705-716.
doi: 10.1111/ajt.16880. Epub 2021 Dec 3.

Novel intragraft regulatory lymphoid structures in kidney allograft tolerance

Ivy A Rosales  1   2 Chao Yang  2 Evan A Farkash  3 Tameem Ashry  2 Jifu Ge  2 Imad Aljabban  2 Archana Ayyar  2 Dorothy Ndishabandi  1   2 Rebecca White  1 Elena Gildner  1 Jingjing Gong  4 Yan Liang  4 Fadi G Lakkis  5 Volker Nickeleit  6 Paul S Russell  2 Joren C Madsen  2   7 Alessandro Alessandrini  2 Robert B Colvin  1   2
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Free article

Novel intragraft regulatory lymphoid structures in kidney allograft tolerance

Ivy A Rosales et al. Am J Transplant. 2022 Mar.
Free article

Abstract

Intragraft events thought to be relevant to the development of tolerance are here subjected to a comprehensive mechanistic study during long-term spontaneous tolerance that occurs in C57BL/6 mice that receive life sustaining DBA/2 kidneys. These allografts rapidly develop periarterial Treg-rich organized lymphoid structures (TOLS) that form in response to class II but not to class I MHC disparity and form independently of lymphotoxin α and lymphotoxin β receptor pathways. TOLS form in situ in the absence of lymph nodes, spleen, and thymus. Distinctive transcript patterns are maintained over time in TOLS including transcripts associated with Treg differentiation, T cell checkpoint signaling, and Th2 differentiation. Pathway transcripts related to inflammation are expressed in early stages of accepted grafts but diminish with time, while B cell transcripts increase. Intragraft transcript patterns at one week posttransplant distinguish those from kidneys destined to be rejected, that is, C57BL/6 allografts into DBA/2 recipients, from those that will be accepted. In contrast to inflammatory tertiary lymphoid organs (iTLOs) that form in response to chronic viral infection and transgenic Lta expression, TOLS lack high endothelial venules and germinal centers. TOLS represent a novel, pathogenetically important type of TLO that are in situ markers of regulatory tolerance.

Keywords: animal models: murine; basic (laboratory) research/science; kidney transplantation / nephrology; molecular biology; molecular biology: mRNA/mRNA expression; pathology/histopathology; tolerance: mechanisms.

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References

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