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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Characterizing dynein in T cells

Tan, Sarah Youngsun 23 November 2010 (has links)
T cells play pivotal roles in the immune system and focused secretion of either cytokines or cytotoxic molecules toward its target is crucial for T cell functions. This directional secretion involves two critical steps: the movement of the microtubule organizing center (MTOC) up to the cell-cell contact site and the directed movement of secretory vesicles towards the MTOC. The minus end-directed microtubule motor protein dynein was previously shown in our studies and those of others to accumulate and anchor at the contact site where it then draws the MTOC up to the contact site. A variety of studies led to the suggestion that there were two functionally different pools of dynein in Jurkat cells, one a ring-like structure that pulled the MTOC to the contact site and the other one uniquely corresponding to the distribution of dynactin. This led to the hypothesis that the second pool of dynein drove vesicle transport. To address this possibility, we used siRNA to deplete the cell of dynactin. These studies showed that almost complete knockdown of dynactin (p150[superscript Glued]) had little effect on MTOC translocation but it also had little effect on a panel of Golgi vesicle markers, whose movement the literature suggested was dynein dependent. As an alternative, a Jurkat cell line expressing fluorescent CTLA4, a known marker for the secretory lysosomes was generated. CTLA4 accumulated at the contact site when Jurkat cells made contact with synthetic target cells. When we repeated the p150[superscript Glued] knockdown in these cells, we found that vesicle transport was blocked, whereas MTOC polarization remained normal. These studies suggest that dynein serves critical roles in both aspects of T cell effector function, the movement of the MTOC up to the cell-cell contact site and the movement of a special class of secretory vesicles up to the MTOC. By the combined processes of MTOC translocation and the minus end-directed movement of vesicles, T cells make it so that a concentrated pool of secretory vesicles are aimed to secrete locally only towards target cells. This ensures that the antigen-specificity of T cell activation is followed by a localized response aimed at the intended target cell. / text

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