The lymphotoxin pathway regulates Aire-independent expression of ectopic genes and chemokines in thymic stromal cells
- Author(s)
- Seach, N; Ueno, T; Fletcher, AL; Lowen, T; Mattesich, M; Engwerda, CR; Scott, HS; Ware, CF; Chidgey, AP; Gray, DHD; Boyd, RL;
- Details
- Publication Year 2008-04-15,Volume 180,Issue #8,Page 5384-5392
- Journal Title
- JOURNAL OF IMMUNOLOGY
- Publication Type
- Journal Article
- Abstract
- Medullary thymic epithelial cells (mTEC) play an important and unique role in central tolerance, expressing tissue-restricted Ags (TRA) which delete thymocytes autoreactive to peripheral organs. Since deficiencies in this cell type or activity can lead to devastating autoimmune diseases, it is important to understand the factors which regulate mTEC differentiation and function. Lymphotoxin (LT) ligands and the LT beta R have been recently shown to be important regulators of mTEC biology; however, the precise role of this pathway in the thymus is not clear. In this study, we have investigated the impact of this signaling pathway in greater detail, focusing not only on mTEC but also on other thymic stromal cell subsets. LT beta R expression was found in all TEC subsets, but the highest levels were detected in MTS-15(+) thymic fibroblasts. Rather than directing the expression of the autoimmune regulator Aire in mTEC, we found LT beta R signals were important for TRA expression in a distinct population of mTEC characterized by low levels of MHC class II (mTEC(low)), as well as maintenance of MTS-15(+) fibroblasts. In addition, thymic stromal cell subsets from LT-deficient mice exhibit defects in chemokine production similar to that found in peripheral lymphoid organs of Lta(-/-) and Ltbr(-/-) mice. Thus, we propose a broader role for LT alpha 1 beta 2-LT beta R signaling in the maintenance of the thymic microenvironments, specifically by regulating TRA and chemokine expression in mTEC(low) for efficient induction of central tolerance.
- Publisher
- AMER ASSOC IMMUNOLOGISTS
- Keywords
- CENTRAL TOLERANCE; EPITHELIAL-CELLS; BETA-RECEPTOR; SIGNALING PATHWAYS; MEDULLA MIGRATION; AUTOIMMUNITY; MICROENVIRONMENTS; DIFFERENTIATION; THYMOCYTES; MESENCHYME
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Creation Date: 2008-04-15 12:00:00