The Thymic Repertoire of Neuroendocrine-Related Self Antigens: Biological Role in T-Cell Selection and Pharmacological Implications

Geenen, Vincent; Kecha, Ouafae; Brilot, Fabienne; Charlet-Renard, Chantal; Martens, Henri

doi:10.1159/000026371

Cited by 17 publications

(10 citation statements)

References 86 publications

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“…In contrast to its action on tumoral cells, a mitogenic action of OT by phosphorylation and activation of mitogen-activated protein kinase has been described in myometrium (31). OT stimulates the proliferation of thymocytes (32,33), the prostate epithelium (34), and trophoblasts (35). OT has also been reported to enhance myoepithelial cell differentiation and proliferation in the mouse mammary gland (36).…”

Section: Discussionmentioning

confidence: 99%

Oxytocin in cardiac ontogeny

Jankowski

Danalache²,

Wang³

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

103

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Previous studies demonstrated the presence of oxytocin (OT) and oxytocin receptors (OTRs) in the heart. The present work provides results supporting a potential role of OT in cardiomyogenesis. Here, we show a maximal OT and OTR protein level in the developing rat heart at day 21 of gestation and postnatal days 1-4, when cardiac myocytes are at a stage of intense hyperplasia. Between postnatal days 1 and 66, OT decreased linearly in all heart chambers (4.1-to 6.6-fold). Correspondingly, immunocytochemistry demonstrated that OTRs, which were eminent in postnatal cardiomyocytes, declined with age to low levels in adults. Interestingly, in coronary vasculature, OTRs developed in endothelial cells at postnatal days 12 and 22 and achieved a plateau in adult rats. These findings suggest that OT can be involved in developmental formation of the coronary vessels. In vivo, the OT͞OTR system in the fetal heart was sensitive to the actions of retinoic acid (RA), recognized as a major cardiac morphogen. RA treatment produced a significant increase (2-to 3-fold) both in the OT concentration and in the OT mRNA levels. Ex vivo, an OT antagonist inhibited RA-mediated cardiomyocyte differentiation of P19 embryonic stem cells. The decline of cardiac OT expression from infancy to adulthood of the rat and changes in cell types expressing OTR indicate a dynamic regulation of the OT system in the heart rather than constitutive expression. The results support the hypothesis that RA induces cardiomyogenesis by activation of the cardiac OT system. heart development ͉ oxytocin receptors ͉ retinoic acid ͉ oxytocin antagonist ͉ cardiomyocyte differentiation O xytocin (OT), recognized traditionally as a reproductive hormone with a major role in childbirth and lactation, is produced in high concentrations in the hypothalamic supraoptic nucleus and paraventricular nucleus, then transported from these source nuclei to the posterior pituitary by neurosecretion (1). Longitudinal studies of neural and hormonal circuits activated by experimental volume expansion have identified OT as a major regulator of cardiovascular functions (reviewed in refs. 2 and 3). OT, injected peripherally, causes a decrease of arterial pressure (4) while reducing both heart rate and the force of contractions in isolated atria (5). OT acts via neuroendocrine͞ endocrine͞paracrine pathways to release atrial natriuretic peptide (ANP) from the heart (6, 7). ANP is a potent diuretic, natriuretic, and vasorelaxant hormone that is also involved in cell growth regulation. In addition, we have demonstrated that in isolated, perfused hearts, an OT antagonist (OTA) blocks basal ANP release (7), suggesting the presence of local OT in the heart. Further study revealed cardiac OT synthesis (8), with OT being detected in the medium of cultured neonatal rat cardiomyocytes (9).Recently, we showed that P19 embryonic carcinoma cells, a model of mouse embryonic stem cells, express OT receptors (OTRs), and OT stimulates the differentiation of these cells into beating cell colonies expressing ...

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Section: Discussionmentioning

confidence: 99%

Oxytocin in cardiac ontogeny

Jankowski

Danalache²,

Wang³

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

103

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“…For insulin, there is evidence for expression at the protein level (57)(58)(59). Thus, thymus epithelium is now generally believed to be very important for the induction of tissue-specific tolerance (60 -67).…”

Section: Discussionmentioning

confidence: 99%

Transplantation Tolerance and Autoimmunity After Xenogeneic Thymus Transplantation

Xia

Goebels

Rutgeerts

et al. 2001

The Journal of Immunology

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Successful grafting of vascularized xenografts (Xgs) depends on the ability to reliably induce both T cell-independent and -dependent immune tolerance. After temporary NK cell depletion, B cell suppression, and pretransplant infusion of donor Ags, athymic rats simultaneously transplanted with hamster heart and thymus Xgs developed immunocompetent rat-derived T cells that tolerated the hamster Xgs but provoked multiple-organ autoimmunity. The autoimmune syndrome was probably due to an insufficient development of tolerance for some rat organs; for example, it led to thyroiditis in the recipient rat thyroid, but not in simultaneously transplanted donor hamster thyroid. Moreover, grafting a mixed hamster/rat thymic epithelial cell graft could prevent the autoimmune syndrome. These experiments indicate that host-type thymic epithelial cells may be essential for the establishment of complete self-tolerance and that mixed host/donor thymus grafts may induce T cell xenotolerance while maintaining self-tolerance in the recipient.

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“…The integration of the thymus in endocrine physiology did not completely vanish, however, and the primary lymphoid organ is crucially located at the crossroad between the major systems of cell-to-cell communication, the neuroendocrine and immune systems. Through transcription of neuroendocrine genes in the thymus stromal network and expression of cognate receptors by immature T cells, the neuroendocrine system regulates early T cell differentiation (reviewed in Geenen et al 1999Geenen et al , 2003. Glucocorticoids also are synthesised in thymic epithelium and are able to impact on thymocyte development (reviewed in Ashwell et al 2000).…”

Section: Physiology Of the Thymusmentioning

confidence: 99%

Quantification of T cell receptor rearrangement excision circles to estimate thymic function: an important new tool for endocrine-immune physiology

Geenen

Poulin²,

Dion³

et al. 2003

Journal of Endocrinology

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Although the thymus constitutes a target organ for most protein and steroid hormones, it has been quite difficult to determine the precise control exerted in vivo by the endocrine system upon thymic function. The biological role of the thymus is to ensure the generation of a diversified population of peripheral T cells able to respond to non-self-antigens but nevertheless tolerant to selfantigens. For a long time, thymic function could not be monitored, as a consequence of the absence of adequate technology to differentiate recent thymic emigrants from naive T cells. The generation of T cell receptor (TCR) diversity occurs in the thymus through recombination of gene segments encoding the variable parts of the TCR and chains. During these processes, by-products of the rearrangements are generated in the form of TCR excision circles (TRECs). As these molecules are lost upon further cell division, their quantification is actually considered as a very valuable tool to estimate thymic function. The most appropriate TREC is Rec-J TREC or signal joint TREC resulting from Rec-J rearrangement (TCRD deletion) that occurs late during thymopoiesis, before V -J rearrangement. Here we describe how TREC quantification is a powerful and reliable method to evaluate the impact of hormones and endocrine disorders upon thymic function.

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The Thymic Repertoire of Neuroendocrine-Related Self Antigens: Biological Role in T-Cell Selection and Pharmacological Implications

Cited by 17 publications

References 86 publications

Oxytocin in cardiac ontogeny

Oxytocin in cardiac ontogeny

Transplantation Tolerance and Autoimmunity After Xenogeneic Thymus Transplantation

Quantification of T cell receptor rearrangement excision circles to estimate thymic function: an important new tool for endocrine-immune physiology

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