Theses and Dissertations from UMD

Permanent URI for this communityhttp://hdl.handle.net/1903/2

New submissions to the thesis/dissertation collections are added automatically as they are received from the Graduate School. Currently, the Graduate School deposits all theses and dissertations from a given semester after the official graduation date. This means that there may be up to a 4 month delay in the appearance of a give thesis/dissertation in DRUM

More information is available at Theses and Dissertations at University of Maryland Libraries.

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    ROLES OF PLASMA MEMBRANE WOUNDING AND REPAIR IN B CELL ANTIGEN CAPTURE AND PRESENTATION
    (2022) van Haaren, Jurriaan Jan Hein; Song, Wenxia W; Biology; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.)
    The B cell-mediated humoral immune responses play a crucial role in neutralizing pathogens and unwanted foreign substances. B cells become activated upon antigen binding of their B cell receptor (BCR), and then internalize and process antigen for presentation on their MHCII for T cell recognition. acquiring T cell signaling through antigen presentation is essential for B cell differentiation into high-affinity antibody-producing cells and memory B cells. In vivo, Antigen encountered by B cells is often tightly associated with the surface of pathogens and/or antigen-presenting cells. When B cells engage surface-associated antigen, BCR signaling induces reorganization of the cytoskeleton, causing spreading and contraction of the B cell on the antigen-presenting surface. This allows the B cell to engage more antigen and gather the antigen into a central cluster for internalization. Internalization of surface-associated antigen has been shown to require myosin-generated forces and the exocytosis of lysosomal enzymes. However, the mechanism that initiates lysosomal exocytosis remains unknown.This research explored a possible mechanism for the triggering of lysosomal exocytosis of B cells during interaction with surface-associated antigen. We showed that BCR interaction with antigen tethered to beads, to planar lipid-bilayers (PLBs) or expressed on the surface of live cells causes permeabilization of the B cell plasma membrane (PM), an event that required strong BCR-antigen affinity, BCR signaling, and activation of non-muscle myosin IIA (NMIIA). Moreover, we showed that B cell PM permeabilization triggers a repair response that includes the exocytosis of lysosomes at the site of antigen interaction. Importantly, we showed that B cells undergoing PM permeabilization and subsequent repair internalize more antigen; and better activate T cells compared to unpermeabilized B cells. Thus, our research reveals a novel mechanism for B cells to capture surface-associated antigen: antigen affinity-dependent binding of the BCR indices localized B cell PM permeabilization and lysosome exocytosis as a repair response, which facilitates antigen internalization and presentation through the extracellular release of lysosomal hydrolases. In addition, we explored the molecular mechanism required for B cell PM permeabilization in response to surface-associated antigen. We showed that B cells that undergo PM permeabilization in response to PLB-associated antigen spread over the PLB at a faster rate and to a larger area in comparison to cells that remain intact. Furthermore, we showed that B cells that undergo PM permeabilization recruit more NMIIA at a faster rate, and display a higher level of NMIIA organization at the immune synapse. We additionally discovered a 2o B cell spreading and NMIIA recruitment event, approximately 25-30 minutes after antigen engagement, that facilitates B cell PM permeabilization. Thus, B cell PM permeabilization requires the engagement of a large amount of antigen through B cell spreading on the presenting surface, as well as strong NMIIA recruitment and organization at the immune synapse. This research suggests that B cell PM permeabilization in response to surface-associated antigen plays an important role in distinguishing B cells with various levels of BCR activation, providing novel insights into the mechanisms responsible for affinity differentiation during B cell activation.
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    Participatory Music Making and Affinity in Washington, DC Irish Sessions
    (2011) Flynn, Erin Michele; Witzleben, J. Lawrence; Music; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.)
    The Washington, DC metropolitan area hosts a vibrant Irish music scene. Like those in many Irish sessions found throughout the world, the District's network of musicians plays traditional dance tunes at local Irish pubs. This research, centered on ten weekly Irish sessions, explores how DC participants navigate authenticity and develop their skills within a social community. Musicians of varying skill levels perform together and include both those of Irish descent and those with no Irish heritage. Issues such as degrees of strictness with regard to tunes played, instruments permitted, and session etiquette demonstrate each session's unique characteristics. This thesis discusses the influence of participatory music making and affinity, since Irish session musicians perform primarily for themselves. Based on field research through participant-observation and interviews, and expanding upon recent discussions of tradition and imagination in sessions worldwide, I analyze Irish sessions in DC in terms of participatory music making and socializing.