The neuroendocrine thymus

Summary Certain subtypes of thymic epithelial cells — the medullary epithelium, the cortical surface epithelium, and some intracortical epithelial cells — show strong immunohistochemical reactivity with antisera against oxytocin, Argvasopressin and neurophysin. The epithelial nature of the neuropeptide containing cells is shown by their morphology and their reactivity with monoclonal anti-cytokeratin AE₁/E₃. Hassall's corpuscles are positive as well. The immunoreactivity patterns for the three neuropeptides are identical, suggesting a parallel distribution. The vast majority of cortical epithelial cells are negative, emphasizing the tightly controlled microenvironment for T-cell development. The possibility of a neuroendocrine role of the thymus is discussed.F. Robert is actually working in the Neuroendocrine Unit, University of Liège-Sart Tilman with an accord of scientific cooperation between CGRI (Belgium) and INSERM (France)     

Doxorubicin-induced thymus senescence

Doxorubicin (DOX) is an anticancer drug used for the treatment of solid tumors. The ability of DOX to treat cancer is not specific to cancer cells; some of the cells that are normal may also become targets of DOX, thereby altering the normal cellular functions and eventual cell loss. DOX effects have been studied in detail in heart because of its ability to cause cardiomyopathy. The exact mechanism of DOX-induced cardiomyopathy is not completely understood. One of organs that can be affected by DOX is thymus. DOX treatment leads to degeneration of thymus; however, since thymus undergoes age-dependent degeneration, researchers have understudied the effect of DOX on thymus. In the present investigation, we studied the effects of DOX on thymus, an organ that is important for the T-cell maturation. DOX treatment led to loss of cortical cells, decrease lymphopoiesis and increased the number of Hassells corpuscles, a marker of thymus aging. Proteomics analysis led to identification of a number of thymic proteins whose expression are altered by in vivo DOX treatment. Taken together, these results are consistent with the notion that DOX-treatment leads to thymic senescence.     

Neuroendocrinology of the thymus

The neuropeptides oxytocin (OT) and vasopressin (VP) are synthesized in the human thymus in a similar way as in the hypothalamo-neurophypophyseal system. Immunocytochemistry with polyclonal and monoclonal antibodies revealed that immunoreactive OT- and VP-producing cells are localized in the subcapsular cortex and medulla of human and murine thymuses. The epithelial nature of the neuroendocrine thymic cells is demonstrated by their immunostaining with a monoclonal antibody against cytokeratin. An original example of a neuroendocrine-immune microenvironment is given by the thymic nurse cells which are composed of a large neuroendocrine epithelial cell enclosing numerous mitotic immature thymocytes. These observations and the previously reported mitogenic and immunomodulatory properties of VP and OT upon mature T cells and thymocytes strongly support the existence of a neuroendocrine thymo-lymphoid axis and an active role of thymic VP and OT in T cell differentiation and activation.     

Identification and characterization of thymus LIM protein: targeted disruption reduces thymus cellularity.

We have identified a novel LIM gene encoding the thymus LIM protein (TLP), expressed specifically in the thymus in a subset of cortical epithelial cells. TLP was identified as a gene product which is upregulated in a thymus in which selection of T cells is occurring (Rag(-/-) OT-1) compared to its expression in a thymus in which selection is blocked at the CD4+ CD8+ stage of T-cell development (Rag(-/-) Tap(-/-) OT-1). TLP has an apparent molecular mass of 23 kDa and exists as two isomers (TLP-A and TLP-B), which are generated by alternative splicing of the message. The sequences of TLP-A and TLP-B are identical except for the C-terminal 19 or 20 amino acids. Based on protein sequence alignment, TLP is most closely related to the cysteine-rich proteins, a subclass of the family of LIM-only proteins. In both medullary and cortical thymic epithelial cell lines transduced with TLP, the protein localizes to the cytoplasm but does not appear to be strongly associated with actin. In immunohistochemical studies, TLP seems to be localized in a subset of epithelial cells in the cortex and is most abundant near the corticomedullary junction. We generated mice with a targeted disruption of the Tlp locus. In the absence of TLP, thymocyte development and thymus architecture appear to be normal but thymocyte cellularity is reduced by approximately 30%, with a proportional reduction in each subpopulation.     

Estrogen receptors in rabbit thymus

The estrogen receptors presence or absence in the thymus gland represents the basic element to assert or to exclude any estrogenic action in the thymus. Now we have measured the presence of cytoplasmatic estrogen receptors in the female rabbits thymus, using some methods (sucrose gradient, protamine sulphate, dextran-coated charcoal). Finally, we have investigated, using the sucrose gradient assay, the nuclear ER presence in 1000g thymic pellet. The results exclude high levels of estrogen-binding proteins while don't suggest their total absence in the female rabbit thymus.     

Cervical thymus in the mouse

Although thymic ectopy has long been recognized in humans, the functional activity or potential immunological significance of this thymic tissue is unknown. In this study, we describe murine thymic ectopy, cervical thymic tissue that possesses the same general organization as the thoracic thymus, that is able to support T cell differentiation, and that can export T cells to the periphery. Unexpectedly, the pattern of autoantigen expression by ectopic thymic tissue differs from that of the thoracic thymus, raising the possibility that these two thymic environments may project different versions of self.