Xinye Yin scite author profile

The adult thymus provides a variety of specialized microenvironments that support and direct T cell differentiation and selection. In this review, we summarize recent advances in the understanding of the function of microenvironments in shaping a diverse T cell repertoire. In particular, we focus on how thymocytes move in and out of these specialized thymic compartments in response to homing signals, differential chemokine gradients and other factors that regulate T cell migration. In addition, we discuss the diverse developmental signals provided by these microenvironments that contribute to the generation of divergent T cell lineages.

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The Development-associated Cleavage of Lens Connexin 45.6 by Caspase-3-like Protease Is Regulated by Casein Kinase II-mediated Phosphorylation

Yin

Jiang

2001

Journal of Biological Chemistry

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Gap junctions are important in maintaining lens transparency and metabolic homeostasis. In this paper, we report that the gap junction-forming protein, connexin (Cx) 45.6, was specifically truncated during lens development and that the majority of the truncated fragments were located in the differentiated lens fibers. When isolated lens membranes were treated by caspase-3, the truncated fragments of Cx45.6 were reproduced, and this truncation occurred at the COOH terminus of Cx45.6. Moreover, when primary lens cells were treated with apoptosis-inducing reagents, Cx45.6 was cleaved similarly as the in vitro treatment by caspase-3, and this cleavage was blocked by a caspase-3 inhibitor. These results suggest that caspase-3 is responsible for the development-associated cleavage of Cx45.6. The cleavage site of Cx45.6 was identified between amino acid residues Glu 367 and Gly 368 . We have shown previously that Ser 363 is an in vivo phosphorylated site by casein kinase II, and this specific phosphorylation leads to a rapid turnover of Cx45.6. Interestingly, we found here that when Ser 363 was phosphorylated by casein kinase II, the cleavage of Cx45.6 catalyzed by caspase-3 was inhibited. This study, for the first time, demonstrates that a connexin can be a direct target of an apoptotic protease and that cleavage by caspase-3-like protease leads to the development-associated truncation of a lens connexin. Finally, caspase-3-mediated cleavage can be regulated by casein kinase II-mediated phosphorylation, suggesting that Cx45.6 turnover and specific cleavage by caspase-3-like protease is alternatively modulated.

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Thymocyte-Dendritic Cell Interactions near Sources of CCR7 Ligands in the Thymic Cortex

Ladi

Schwickert

Chtanova

et al. 2008

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Little is known about the dynamics of the interactions between thymocytes and other cell types, as well as the spatiotemporal distribution of thymocytes during positive selection in the microenvironment of the cortex. We used two-photon laser scanning microscopy of the mouse thymus to visualize thymocytes and dendritic cells (DCs) and to characterize their interactions in the cortex. We show that thymocytes make frequent contacts with DCs in the thymic cortex and that these associations increase when thymocytes express T cell receptors that mediate positive selection. We also show that cortical DCs and the chemokine CCL21 To what extent the cortex itself is divided into distinct functional compartments is not yet clear. At one end of the spectrum, it is possible that the cortex is functionally homogeneous. According to this view, cortical thymocytes would invariably be in contact with thymic epithelial cells capable of mediating positive selection, and positive selection could take place with equal probability throughout the cortex. On the other hand, there are indications that cortical thymic epithelial cells are heterogeneous (reviewed in Ref. 7), raising the possibility of functionally distinct regions of the cortex specialized for mediating selection events. The anatomical segregation of thymocytes in the cortex based on their TCR specificity provides an indication for such heterogeneity (8). However, distinct functional regions of the thymic cortex have not yet been identified. Two-photon laser scanning microscopy (TPLSM) provides an opportunity to examine the cellular migration and interaction events in tissues that underlie selection events within the thymus (reviewed in Ref. 9). Initial studies have revealed that thymocytes undergo a calcium-dependent stopping in response to positive selection signals in the thymus (10) and that interaction of thymocytes with MHC-bearing stromal cells can lead to prolonged but dynamic cell-cell contacts (11). Additionally, analysis of cell migration in the cortex of intact thymic lobes provided evidence that thymocytes move via a random walk in the cortex before positive selection and undergo rapid, directed migration to the medulla as a result of positive selection (12). These studies provide an early glimpse into the regulation of thymocyte migration by positive selection. However, the interactions of thymocytes with other cell types in the intact thymus and how these interactions change during the process of positive selection have not yet been addressed.Herein we examine the impact of the chemokine receptor CCR7 and TCR repertoire selection on thymocyte-DC interactions in the cortex of intact thymic lobes. We show that thymic DCs form intimate associations with cortical capillaries near sources of CCR7 ligands in the cortex. We find that thymocytes extensively

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Stimulation of Lens Cell Differentiation by Gap Junction Protein Connexin 45.6

Gu¹,

Yu²,

Yin³

et al. 2003

Invest. Ophthalmol. Vis. Sci.

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Casein Kinase II Phosphorylates Lens Connexin 45.6 and Is Involved in Its Degradation

Yin¹,

Jedrzejewski²,

Jiang³

2000

Journal of Biological Chemistry

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Connexin (Cx) 45.6, an avian counterpart of rodent Cx50, is phosphorylated in vivo, but the sites and function of the phosphorylation have not been elucidated. Our peptide mapping experiments showed that the Ser 363 site in the carboxyl (COOH) terminus of Cx45.6 was phosphorylated and that this site is within casein kinase (CK) II consensus sequence, although showing some similarity to CKI sequence. The peptide containing Ser 363 could be phosphorylated in vitro by CKII, but not by CKI. Furthermore, CKII phosphorylated Cx45.6 in embryonic lens membrane and the fusion protein containing the COOH terminus of Cx45.6. Two-dimensional peptide mapping experiments showed that one of the Cx45.6 peptides phosphorylated in vivo migrated to the same spot as one of those phosphorylated by CKII in vitro. Furthermore, CKII activity could be detected in lens lysates. To assess the function of this phosphorylation event, exogenous wild type and mutant Cx45.6 (Ser 363 3 Ala) were expressed in lens primary cultures by retroviral infection. The mutant Cx45.6 was shown to be more stable having a longer half-life compared with wild type Cx45.6. Together, the evidence suggests that CKII is likely a kinase responsible for the Ser 363 phosphorylation, leading to the destablization and degradation of Cx45.6. The connexin degradation induced by phosphorylation has a broad functional significance in the regulation of gap junctions in vivo.Gap junctions are channels between two adjacent cells, which allow passage of small molecules (M r Յ 1000) such as small metabolites, ions, and second messengers. The gap junction-mediated cell-to-cell communications are important in maintaining cell and tissue functions (1). The structural components of gap junctions are members of a family of related membrane proteins called connexins, which consist of four conserved transmembrane domains and two extracellular loops, while their cytoplasmic regions are unique. The COOH terminus, the most variable region among connexins, contains several putative kinase consensus sequences. The phosphorylation of connexins has been indicated in the intracellular trafficking of connexins (2), channel assembly (3

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Xinye Yin

Thymic microenvironments for T cell differentiation and selection

The Development-associated Cleavage of Lens Connexin 45.6 by Caspase-3-like Protease Is Regulated by Casein Kinase II-mediated Phosphorylation

Thymocyte-Dendritic Cell Interactions near Sources of CCR7 Ligands in the Thymic Cortex

Stimulation of Lens Cell Differentiation by Gap Junction Protein Connexin 45.6

Casein Kinase II Phosphorylates Lens Connexin 45.6 and Is Involved in Its Degradation

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