Ghrelin promotes thymopoiesis during aging
Vishwa Deep Dixit, … , Roy G. Smith, Dennis D. Taub
Vishwa Deep Dixit, … , Roy G. Smith, Dennis D. Taub
Published October 1, 2007
Citation Information: J Clin Invest. 2007;117(10):2778-2790. https://doi.org/10.1172/JCI30248.
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Research Article Immunology

Ghrelin promotes thymopoiesis during aging

Abstract

The decline in adaptive immunity, T lymphocyte output, and the contraction of the TCR repertoire with age is largely attributable to thymic involution. The loss of thymic function with age may be due to diminished numbers of progenitors and the loss of critical cytokines and hormones from the thymic microenvironment. We have previously demonstrated that the orexigenic hormone ghrelin is expressed by immune cells and regulates T cell activation and inflammation. Here we report that ghrelin and ghrelin receptor expression within the thymus diminished with progressive aging. Infusion of ghrelin into 14-month-old mice significantly improved the age-associated changes in thymic architecture and thymocyte numbers, increasing recent thymic emigrants and improving TCR diversity of peripheral T cell subsets. Ghrelin-induced thymopoiesis during aging was associated with enhanced early thymocyte progenitors and bone marrow–derived Lin–Sca1+cKit+ cells, while ghrelin- and growth hormone secretagogue receptor–deficient (GHS-R–deficient) mice displayed enhanced age-associated thymic involution. Leptin also enhanced thymopoiesis in aged but not young mice. Our findings demonstrate what we believe to be a novel role for ghrelin and its receptor in thymic biology and suggest a possible therapeutic benefit of harnessing this pathway in the reconstitution of thymic function in immunocompromised subjects.

Authors

Vishwa Deep Dixit, Hyunwon Yang, Yuxiang Sun, Ashani T. Weeraratna, Yun-Hee Youm, Roy G. Smith, Dennis D. Taub

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Figure 6

Ghrelin increases lymphoid progenitor populations in aging mice.

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Ghrelin increases lymphoid progenitor populations in aging mice. (A) Ghr...
(A) Ghrelin increased lymphoid progenitor populations in 14-month-old mice without altering the peripheral CD4/CD8 ratios. (B) The ETPs were identified as LinlowcKit+CD25. The lineage cocktail included antibodies against CD3ε, CD8α, TCRαβ, γδTCR, NK1.1, TER119, CD11b, CD11c, CD19, CD127, and B220 but not CD4. For ETP analysis, 106 thymocytes from 14-month-old BALB/c mice were stained for LinPE, CD25 PerCP, and c-kit FITC, and 700,000 total events were acquired. Linlow cells were analyzed for c-kit and CD25 expression. (C) Ghrelin infusion in 14-month-old mice led to a 2-fold increase in ETPs in thymus (P < 0.05) with no significant change in DN2 (LinlowcKit+CD25+), DN3 (LinlowcKitCD25+), or DN4 populations. (D) Bone marrow cells were analyzed for LSK populations. (E) Ghrelin infusion significantly increased (P < 0.05) the BM LSK cells in 14-month-old animals. Data is represented as mean ± SEM of 2-month-old and 14-month-old mice (n = 6 per group).