Thymic rejuvenation via FOXN1-reprogrammed embryonic fibroblasts (FREFs) to counteract age-related inflammation
Jiyoung Oh, … , Rachel Thomas, Dong-Ming Su
Jiyoung Oh, … , Rachel Thomas, Dong-Ming Su
Published August 13, 2020
Citation Information: JCI Insight. 2020;5(18):e140313. https://doi.org/10.1172/jci.insight.140313.
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Research Article Aging Immunology

Thymic rejuvenation via FOXN1-reprogrammed embryonic fibroblasts (FREFs) to counteract age-related inflammation

Abstract

Age-associated systemic, chronic inflammation is partially attributed to increased self-autoreactivity, resulting from disruption of central tolerance in the aged, involuted thymus. This involution causally results from gradually decreased expression of the transcription factor FOXN1 in thymic epithelial cells (TECs), whereas exogenous FOXN1 in TECs can partially rescue age-related thymic involution. TECs induced from FOXN1-overexpressing embryonic fibroblasts can generate an ectopic de novo thymus under the kidney capsule, and intrathymic injection of naturally young TECs can lead to middle-aged thymus regrowth. Therefore, as a thymic rejuvenation strategy, we extended these 2 findings by combining them with 2 types of promoter-driven (Rosa26CreERT and FoxN1Cre) Cre-mediated FOXN1-reprogrammed embryonic fibroblasts (FREFs). We engrafted these FREFs directly into the aged murine thymus. We found substantial regrowth of the native aged thymus with rejuvenated architecture and function in both males and females, exhibiting increased thymopoiesis and reinforced thymocyte negative selection, along with reduced senescent T cells and autoreactive T cell–mediated inflammation in old mice. Therefore, this approach has preclinical significance and presents a strategy to potentially rescue decreased thymopoiesis and perturbed negative selection to substantially, albeit partially, restore defective central tolerance and reduce subclinical autoimmune symptoms in elderly people.

Authors

Jiyoung Oh, Weikan Wang, Rachel Thomas, Dong-Ming Su

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Figure 6

Transplantation of FREFs attenuated inflammaging-associated phenotypes by reducing inflammatory cytokines and lymphoid cell infiltration into a nonlymphoid organ in aged mice.

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Transplantation of FREFs attenuated inflammaging-associated phenotypes b...
(A) Serum was collected from mice with the same treatment as in Figure 2. Concentration of proinflammatory cytokines IL-6 (left panel) and IL-1β (right panel) in pg/mg of serum protein was measured through an ELISA method (n = 6 mice per group). All results represent the mean ± SD compared with 1-way ANOVA Newman-Keuls multiple-comparisons tests. ***P < 0.001. (B) Workflow of adoptive transfer, showing that splenocytes (2.5 × 107 cells per recipient mouse) from rejuvenated and control young or aged WT mice were transferred via i.v. injection into young Rag–/– recipient mice. Eight weeks after the transfer, the salivary glands were subjected to analysis of lymphocyte infiltration. (C) Representative H&E-stained images of the salivary glands from the adoptive transfer Rag–/– recipient mice, showing foci of lymphoid cell infiltration (red circles in ×4 images and yellow circles in ×20 images). Data are representative of 500 tissue sections from 3 animals in each group (160–170 tissue sections per mouse), and numbers of infiltration foci in 500 tissue sections and the percentage of lymphoid cell infiltrated foci are shown.