Your search keyword '"García‐Ceca, Javier"' showing total 11 results

1. Altered thymocyte development observed in EphA4-deficient mice courses with changes in both thymic epithelial and extracellular matrix organization

Author

García-Ceca, Javier, Montero-Herradón, Sara, González, Ana, Plaza, Rosa, and Zapata, Agustín G.

Published

2022

2. Increased epithelial-free areas in thymuses with altered EphB-mediated thymocyte–thymic epithelial cell interactions

Author

García-Ceca, Javier, Montero-Herradón, Sara, Alfaro, David, and Zapata, Agustín G.

Published

2017

3. Thymus aging in mice deficient in either EphB2 or EphB3, two master regulators of thymic epithelium development.

Author

García‐Ceca, Javier, Montero‐Herradón, Sara, and Zapata, Agustín G.

Subjects

THYMUS, EPITHELIAL cells, EPITHELIUM, PROGENITOR cells, T cells

Abstract

Background: The epithelial microenvironment is involved in thymus aging, but the possible role of EphB receptors that govern the thymic epithelium development has not been investigated. Herein, we study the changes undergone by the thymus of EphB‐deficient mice throughout their life. Results: Immune alterations occurring throughout life were more severe in mutant than in wild‐type (WT) mice. Mutant thymuses exhibit lower cellularity than WT ones, as well as lower proportions of early thymic progenitors cells and double‐positive (CD4+CD8+) thymocytes, but higher of double‐negative (CD4−CD8−) and single‐positive (CD4+CD8−, CD4−CD8+) cells. Throughout life, CD4+ naïve cells decreased particularly in mutant mice. In correlation, memory T cells, largely CD8+ cells, increased. Aged thymic epithelium undergoes changes including appearance of big epithelial free areas, decrease of K8+K5− areas, which, however, contain higher proportions of Ly51+UEA1− cortical epithelial cells, in correlation with reduced Aire+ medullary epithelial cells. Also, aged thymuses particularly those derived from mutant mice exhibited increased collagen IV, fat‐storing cells, and connective cells. Conclusions: The absence of EphB accelerates the alterations undergone throughout life by both thymic epithelium and thymocytes, and the proportions of peripheral naïve and memory T cells, all of which are hallmarks of immune aging. Key Findings: EphB2 and EphB3 are involving in the thymus aging.The lack of both EphB receptors results in a more severe aged thymic phenotype.Thymic epithelial cells, thymocyte subsets and peripheral naive and memory T lymphocytes are particularly affected by the lack of the molecules. [ABSTRACT FROM AUTHOR]

Published

2020

4. Can a Proper T-Cell Development Occur in an Altered Thymic Epithelium? Lessons From EphB-Deficient Thymi.

Author

Muñoz, Juan José, García-Ceca, Javier, Montero-Herradón, Sara, Sánchez del Collado, Beatriz, Alfaro, David, and Zapata, Agustín

Subjects

T cells, BIOCHEMISTRY

Abstract

For a long time, the effects of distinct Eph tyrosine kinase receptors and their ligands, ephrins on the structure, immunophenotype, and development of thymus and their main cell components, thymocytes (T) and thymic epithelial cells (TECs), have been studied. In recent years, the thymic phenotype of mutant mice deficient in several Ephs and ephrins B has been determined. Remarkably, thymic stroma in these animals exhibits important defects that appear early in ontogeny but little alterations in the proportions of distinct lymphoid cell populations. In the present manuscript, we summarize and extend these results discussing possible mechanisms governing phenotypical and functional thymocyte maturation in an absence of the critical T-TEC interactions, concluding that some signaling mediated by key molecules, such as MHCII, CD80, β5t, Aire, etc. could be sufficient to enable a proper maturation of thymocytes, independently of morphological alterations affecting thymic epithelium. [ABSTRACT FROM AUTHOR]

Published

2018

5. EphB receptors, mainly EphB3, contribute to the proper development of cortical thymic epithelial cells.

Author

Montero-Herradón, Sara, García-Ceca, Javier, and Zapata, Agustín G.

Abstract

EphB and their ligands ephrin-B are an important family of protein tyrosine kinase receptors involved in thymocyte-thymic epithelial cell interactions known to be key for the maturation of both thymic cell components. In the present study, we have analyzed the maturation of cortical thymic epithelium in EphB-deficient thymuses evaluating the relative relevance of EphB2 and EphB3 in the process. Results support a relationship between the epithelial hypocellularity of mutant thymuses and altered development of thymocytes, lower proportions of cycling thymic epithelial cells and increased epithelial cell apoptosis. Together, these factors induce delayed development of mutant cortical TECs, defined by the expression of different cell markers, i.e. Ly51, CD205, MHCII, CD40 and β5t. Furthermore, although both EphB2 and EphB3 are necessary for cortical thymic epithelial maturation, the relevance of EphB3 is greater since EphB3-/- thymic cortex exhibits a more severe phenotype than that of EphB2-deficient thymuses. [ABSTRACT FROM AUTHOR]

Published

2017

6. Eph/ephrin-B-mediated cell-to-cell interactions govern MTS20 thymic epithelial cell development.

Author

Montero-Herradón, Sara, García-Ceca, Javier, Sánchez del Collado, Beatriz, Alfaro, David, and Zapata, Agustín

Subjects

*CELL communication, *EPITHELIAL cells, *THYMUS, *THYMOCYTES, *T cells, *PROGENITOR cells

Abstract

Thymus development is a complex process in which cell-to-cell interactions between thymocytes and thymic epithelial cells (TECs) are essential to allow a proper maturation of both thymic cell components. Although signals that control thymocyte development are well known, mechanisms governing TEC maturation are poorly understood, especially those that regulate the maturation of immature TEC populations during early fetal thymus development. In this study, we show that EphB2-deficient, EphB2LacZ and EphB3-deficient fetal thymuses present a lower number of cells and delayed maturation of DN cell subsets compared to WT values. Moreover, deficits in the production of chemokines, known to be involved in the lymphoid seeding into the thymus, contribute in decreased proportions of intrathymic T cell progenitors (PIRA/B) in the mutant thymuses from early stages of development. These features correlate with increased proportions of MTS20 cells but fewer MTS20 cells from E13.5 onward in the deficient thymuses, suggesting a delayed development of the first epithelial cells. In addition, in vitro the lack of thymocytes or the blockade of Eph/ephrin-B-mediated cell-to-cell interactions between either thymocytes-TECs or TECs-TECs in E13.5 fetal thymic lobes coursed with increased proportions of MTS20 TECs. This confirms, for the first time, that the presence of CD45 cells, corresponding at these stages to DN1 and DN2 cells, and Eph/ephrin-B-mediated heterotypic or homotypic cell interactions between thymocytes and TECs, or between TECs and themselves, contribute to the early maturation of MTS20 TECs. [ABSTRACT FROM AUTHOR]

Published

2016

7. Eph/ephrins mediated thymocyte-thymic epithelial cell interactions control numerous processes of thymus biology.

Author

García-Ceca, Javier, Alfaro, David, Montero-Herradón, Sara, Tobajas, Esther, Muñoz, Juan José, and Zapata, Agustín

Subjects

THYMUS, CELL communication, EPITHELIAL cells, T cells, THYMOCYTES

Abstract

Numerous studies emphasize the relevance of thymocyte-thymic epithelial cell (TECs) interactions for the functional maturation of intrathymic T lymphocytes. The tyrosine kinase receptors Ephs (Erythropoietin-producing hepatocyte kinases) and their ligands, ephrins (Eph receptor interaction proteins), are molecules known to be involved in the regulation of numerous biological systems in which cell-to-cell interactions are particularly relevant. In the last years, we and other authors have demonstrated the importance of these molecules in the thymic functions and the T-cell development. In the present report, we review data on the effects of Ephs and ephrins, in the functional maturation of both thymic epithelial microenvironment and thymocyte maturation as well as on their role in the lymphoid progenitor recruitment into the thymus. [ABSTRACT FROM AUTHOR]

Published

2015

8. Eph/ephrinB signalling is involved in the survival of thymic epithelial cells.

Author

García‐Ceca, Javier, Alfaro, David, Montero‐Herradón, Sara, and Zapata, Agustín G

Subjects

*EPITHELIAL cells, *THYMUS, *TYROSINE, *PROTEIN-tyrosine kinases, *LIGANDS (Biochemistry), *CELL death

Abstract

The signals that determine the survival/death of the thymic epithelial cells (TECs) component during embryonic development of the thymus are largely unknown. In this study, we combine different in vivo and in vitro experimental approaches to define the role played by the tyrosine kinase receptors EphB2 and EphB3 and their ligands, ephrinsB, in the survival of embryonic and newborn (NB) TECs. Our results conclude that EphB2 and EphB3 are involved in the control of TEC survival and that the absence of these molecules causes increased apoptotic TEC proportions that result in decreased numbers of thymic cells and a smaller-sized gland. Furthermore, in vitro studies using either EphB2-Fc or ephrinB1-Fc fusion proteins demonstrate that the blockade of Eph/ephrinB signalling increases TEC apoptosis, whereas its activation rescues TECs from cell death. In these assays, both heterotypic thymocyte-TEC and homotypic TEC-TEC interactions are important for Eph/ephrinB-mediated TEC survival. [ABSTRACT FROM AUTHOR]

Published

2013

9. On the role of Eph signalling in thymus histogenesis; EphB2/B3 and the organizing of the thymic epithelial network.

Author

GARCÍA-CECA, JAVIER, JIMÉNEZ, EVA, ALFARO, DAVID, CEJALVO, TERESA, CHUMLEY, MICHAEL J., HENKEMEYER, MARK, MUÑOZ, JUAN-JOSÉ, and ZAPATA, AGUSTÍN G.

Subjects

THYMUS, EPITHELIUM, PROTEIN-tyrosine kinases, KERATIN, EPITHELIAL cells

Abstract

In the current study, we extend our own previous results on the thymocyte phenotype of EphB2 and/or EphB3 deficient mice by analyzing the phenotype and the histological organization of their thymic epithelial stroma. All studied adult EphB-deficient thymi showed profound alterations with respect to the wild-type (WT) ones. Each mutant exhibited a specific phenotype, but also showed common features including occurrence of K5+K8 +MTS10+ immature medullary epithelial cells, numerous K5 -)K8-MTS20+ cells and K5+K8+ cells in the thymic cortex and cortical and medullary K5-K8- areas devoid of epithelial cell markers. In addition, comparative analysis of and EphB-deficient embryonic and newborn thymi demonstrated that the observed adult phenotype was a consequence of the gradual accumulation of early phenotypic and morphological defects, becoming more severe at the end of embryonic life and in newborn animals. Together, these results confirm a role for EphB2 and EphB3 in thymus morphogenesis. The obtained data are discussed from the point of view of the recognized role played by these two Ephs in the homeostasis of other epithelia and their possible relationships with molecules known to be involved in thymic epithelial cell development. [ABSTRACT FROM AUTHOR]

Published

2009

10. Organizing the Thymus Gland.

Author

Muñoz, Juan José, García‐Ceca, Javier, Alfaro, David, Stimamiglio, Marco Augusto, Cejalvo, Teresa, Jiménez, Eva, and Zapata, Agustín G.

Subjects

*THYMUS, *LIGANDS (Biochemistry), *MOLECULES, *MORPHOGENESIS, *CENTRAL nervous system, *NERVE fibers, *T cell differentiation, *EPITHELIAL cells, *LYMPHOID tissue

Abstract

Eph receptors and their ligands, ephrins, are molecules involved in the morphogenesis of numerous tissues, including the central nervous system in which they play a key role in determining cell positioning and tissue domains containing or excluding nerve fibers. Because common features have been suggested to occur in the microenvironmental organization of brain and thymus, a highly compartmentalized organ central for T cell differentiation, we examined the expression and possible role of Eph/ephrins in the biology of the thymus gland. We reviewed numerous in vivo and in vitro results that confirm a role for Eph and ephrins in the maturation of the thymic epithelial cell (TEC) network and T cell differentiation. Their possible involvement in different steps of early thymus organogenesis, including thymus primordium branching, lymphoid colonization, and thymocyte–TEC interactions, that determine the organization of a mature three-dimensional thymic epithelial network is also analyzed. [ABSTRACT FROM AUTHOR]

Published

2009

11. Alterations in the thymocyte phenotype of EphB-deficient mice largely affect the double negative cell compartment.

Author

Alfaro, David, Muñoz, Juan Jos#x00E9;, García-Ceca, Javier, Cejalvo, Teresa, Jiménez, Eva, and Zapata, Agustín

Subjects

T cell differentiation, PHENOTYPES, CELL compartmentation, CELL differentiation, DEVELOPMENTAL biology

Abstract

In the present study, we have analysed the phenotype of EphB2 and/or EphB3 deficient thymocytes confirming and extending previous studies on the role of this family of molecules in T-cell differentiation. In all mutant thymuses statistically significant reduced cell contents were observed. This reduction of thymic cellularity correlated with increased proportions of apoptotic cells, largely both double negative (DN; CD4− CD8−) and double positive (CD4+ CD8+) cells, and decreased proportions of DN cycling cells. Adult deficient thymuses also showed increased proportions of DN cells but not significant variations in the percentages of other thymocyte subsets. In absolute terms, the thymocyte number decreased significantly in all thymocyte compartments from the DN3 (CD44− CD25+) cell stage onward, without variations in the numbers of both DN1 (CD44+ CD25−) and DN2 (CD44+ CD25+) cells. Remarkably, all these changes also occurred from the 15-day fetal EphB2 and/or EphB3 deficient mice, suggesting that adult phenotype results from the gradual accumulations of defects appearing early in the thymus ontogeny. As a reflection of thymus condition, a reduction in the number of T lymphocytes occurred in the peripheral blood and mesenteric lymph nodes, but not in spleen, maintaining the proportions of T-cell subsets defined by CD4/CD8 marker expression, in all cases. [ABSTRACT FROM AUTHOR]

Published

2008