Lindsay Goffinet scite author profile

Aims: We address the question of the expression and the role of the growth hormone/insulin-like growth factor (GH/IGF) axis in the thymus. Methods: Using RT-qPCR, the expression profile of various components of the somatotrope GH/IGF axis was measured in different thymic cell types and during thymus embryogenesis in Balb/c mice. The effect of GH on T cell differentiation was explored via thymic organotypic culture. Results: Transcription of Gh, Igf1, Igf2 and their related receptors predominantly occurred in thymic epithelial cells (TEC), while a low level of Gh and Igf1r transcription was also evidenced in thymic T cells (thymocytes). Gh, Ghr, Ins2, Igf1, Igf2, and Igfr1 displayed distinct expression profiles depending on the developmental stage. The protein concentrations of IGF-1 and IGF-2 were in accordance with the profile of their gene expression. In fetal thymus organ cultures (FTOC) derived from Balb/c mice, treatment with exogenous GH resulted in a significant increase of double negative CD4–CD8– T cells and CD4+ T cells, together with a decrease in double positive CD4+CD8+ T cells. These changes were inhibited by concomitant treatment with GH and the GH receptor (GHR) antagonist pegvisomant. However, GH treatment also induced a significant decrease in FTOC Gh, Ghr and Igf1 expression. Conclusion: These data show that the thymotropic properties of the somatotrope GH/IGF-1 axis involve an interaction between exogenous GH and GHR expressed by TEC. Since thymic IGF-1 is not increased by GH treatment, the effects of GH upon T cell differentiation could implicate a different local growth factor or cytokine.

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Somatotrope GHRH/GH/IGF‐1 axis at the crossroads between immunosenescence and frailty

Bodart

Goffinet

Morrhaye

et al. 2015

Annals of the New York Academy of Sciences

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Immunosenescence, characterized by complex modifications of immunity with age, could be related to frailty syndrome in elderly individuals, leading to an inadequate response to minimal aggression. Functional decline (i.e., the loss of ability to perform activities of daily living) is related to frailty and decreased physiological reserves and is a frequent outcome of hospitalization in older patients. Links between immunosenescence and frailty have been explored and 20 immunological parameters, including insulin-like growth factor-1 (IGF-1), thymopoeisis, and telomere length, were shown to be affected in elderly patients with functional decline. A strong relationship between IGF-1 and thymic ouput was evidenced. IGF-1, a mediator of growth hormone (GH), was subsequently shown to induce interleukin-7 secretion in cultured primary human thymic epithelial cells. We are exploring the stress hypothesis in which an acute stressor is used as the discriminator of frailty susceptibility. GH can counteract the deleterious immunosuppressive effects of stress-induced steroids. Under nonstress conditions, the immunosenescent system preserves physiological responses, while under stress conditions, the combination of immunosenescence and a defect in the somatotrope axis might lead to functional decline.

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Insulin-Like Growth Factor-I (IGF-I) Stimulates Interleukin-7 (IL-7) Synthesis and Secretion in Primary Cultures of Human Thymic Epithelial Cells

Goffinet¹,

Martens²,

Geenen³

2011

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Impact of the Somatotrope Growth Hormone (GH)/Insulin-Like Growth Factor 1 (IGF-1) Axis Upon Thymus Function: Pharmacological Implications in Regeneration of Immune Functions

Goffinet¹,

Mottet²,

Kermani³

et al. 2011

IEMAMC

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Abstract:The thymus is the central lymphoid structure where T-cell differentiation takes place, and a crucial organ for the maintenance of homeostasis in the immune system. Thymopoiesis includes intrathymic proliferation of T-cell precursors, selection and output of both self-tolerant and competent effector T cells, as well as of natural regulatory T cells (nTreg). In the crosstalk between the neuroendocrine and immune systems, peptide hormones have been more and more implicated in immunomodulation for the last thirty years. The somatotrope growth hormone (GH)/insulin-like growth factor-1 (IGF-1) axis in particular has been repeatedly shown to play a major regulatory role upon thymus function and T-cell development. This review will focus on the important thymotropic properties of the somatotrope GH/IGF-1 axis, and will try to discriminate these properties in function of the endocrine or paracrine/autocrine pathways involved in their mediation. Most importantly, in light of an increasing number of recent studies, GH and IGF-1 now appear as novel therapeutic agents that could be used for enhancing thymopoiesis in different cases of immune deficiencies, including aging-related immune dysfunction.Keywords: Thymus, growth hormone (GH), insulin-like growth factors (IGFs), HIV, growth hormone deficiency (GHD), Chagas disease. GENERAL INTRODUCTIONThe thymus is now considered as a crucial organ for maintenance of immune system homeostasis and the central lymphoid organ where occurs the generation of self-tolerant and competent naive T cells, as well as self-antigen specific natural Treg cells [1,2]. However, for a long time, the thymus has been regarded as an endocrine gland. In addition, the thymus now appears as a privileged site where the endocrine and immune systems intimately interact.A permanent crosstalk exists between the neuroendocrine and immune systems [3][4][5][6]. In addition to the strong modulation of immunity by glucocorticoids and sexual steroids, other hormones have been more and more involved in immunomodulation. Indeed, the somatotrope GH/IGF-1 axis, as well as prolactin and thyroid hormones [7], were shown to play an important regulatory role in T-cell development [8][9][10].GH is mainly synthesised in the anterior pituitary gland but can also be produced by immune cells [11,12]. GH has several biological actions in the immune system including regulation of thymopoiesis and T-cell development [13]. Nevertheless, it is uneasy to distinguish whether the thymotropic effects of GH are direct or mediated by IGF-1, as most *Address correspondence to this author at the University of Liege Center of Immunoendocrinology (CIL), Institute of Pathology CHU-B23, B-4000 Liege-Sart Tilman, Belgium; Tel: +32 43 66 25 50; Fax: +32 43 66 98 59; E-mail: vgeenen@ulg.ac.be of GH effects are driven by induction of IGF-1 and as IGF-1 has also been described as an endogenous factor in the thymic microenvironment [12]. The evolution of the research field has brought new insights that justify an overview update as some ancie...

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The Role of the Thymus in the Integrated Evolution of the Recombinase-Dependent Adaptive Immune Response and the Neuroendocrine System

Mottet¹,

Goffinet²,

Beckers³

et al. 2011

Neuroimmunomodulation

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Before being able to react against infectious non-self-antigens, the immune system has to be educated in recognition and tolerance of neuroendocrine self-proteins. This sophisticated educational process takes place only in the thymus. The development of an autoimmune response directed to neuroendocrine glands has been shown to result from a thymus dysfunction in programming immunological self-tolerance to neuroendocrine-related antigens. This thymus dysfunction leads to a breakdown of immune homeostasis with an enrichment of ‘forbidden’ self-reactive T cells and a deficiency in self-antigen-specific natural regulatory T cells in the peripheral T lymphocyte repertoire. A large number of neuroendocrine self-antigens are expressed by the thymic epithelium, under the control of the autoimmune regulator (AIRE) gene/protein in the medulla. Based on the close homology and cross-tolerance between thymic type 1 diabetes-related self-antigens and peripheral antigens targeted in β-cells by autoimmunity, a novel type of vaccination is currently developed for the prevention and cure of type 1 diabetes. If this approach were found to be effective in reprogramming immunological tolerance that is absent or broken in this disease, it could pave the way for the design of negative/tolerogenic self-vaccines against other endocrine and organ-specific autoimmune disorders.

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