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The roles of postsynaptic density-95 interactors in dendrite development and recovery after traumatic brain injury
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Title
The roles of postsynaptic density-95 interactors in dendrite development and recovery after traumatic brain injury
Name
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Patel
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Mihir V.
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1987-
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Mihir V. Patel
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author
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Firestein
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Bonnie L
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Bonnie L Firestein
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Advisory Committee
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Shumyatsky
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Gleb Shumyatsky
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Janet
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Janet Alder
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Advisory Committee
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D’Arcangelo
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Gabriella
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Gabriella D’Arcangelo
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Advisory Committee
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internal member
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Runnels
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Loren
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Loren Runnels
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Advisory Committee
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Rutgers University
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School of Graduate Studies
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theses
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2018
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2018-10
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2018
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xx
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eng
Abstract
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Postsynaptic density 95 (PSD-95) is the major scaffolding protein at excitatory synapses, and it plays a major role in synaptic plasticity. Furthermore, PSD-95 and its interactor, cytosolic PSD-95 interactor (cypin), regulate dendrite branching by altering microtubule dynamics. Additionally, other PSD-95 binding proteins, end-binding protein 3 (EB3) and adenomatous polyposis coli (APC), promote microtubule bundling and stabilization. Thus, PSD-95 and binding partners may regulate the dendritic arbor during development and after injury.
I first addressed the role of cypin in the brain in vivo. While generating cypin knockout mice, I identified a novel short isoform of cypin, termed cypinS, which also binds to PSD-95 and regulates dendrite branching, although an increase in dendrites occur more distal from the soma when cypinS is overexpressed compared to when cypin is overexpressed. In addition, unlike cypin, cypinS does not have guanine deaminase activity. Overexpression of cypin, but not cypinS, decreases spine density, suggestingiv that the regulation of spine density but not dendrite branching by cypin is dependent on guanine deaminase activity. Furthermore, I have uncovered novel presynaptic roles for both isoforms as overexpression of either isoform leads to increases in miniature excitatory postsynaptic current (mEPSC) frequency. Thus, cypin and cypinS, play distinct roles in neuronal development.
I then chose to study the roles of PSD-95 and interactors in recovery after traumatic brain injury (TBI). We previously identified cypin as a novel target for TBI, and thus, here I studied the role of PSD-95 and its interaction with APC or EB3 in after injury induced by in vitro and in vivo models of TBI. I show that our in vitro model of mechanical stretch injury mimics moderate injury induced by controlled cortical impact (CCI) in mice. During the early stage (1-7 days) post-moderate CCI, the interaction of PSD-95 with APC and EB3 increases. Furthermore, downregulation of PSD-95 prevents stretch-injury mediated decreases in secondary dendrite number and total dendrite length, suggesting a required role of PSD-95 in injury-mediated insults to dendrites. Thus, PSD-95 may sequester APC and EB3 from microtubules to cause decreases in dendrite branching after TBI, and PSD-95 can be targeted as a novel approach for the treatment of patients with TBI.
I first addressed the role of cypin in the brain in vivo. While generating cypin knockout mice, I identified a novel short isoform of cypin, termed cypinS, which also binds to PSD-95 and regulates dendrite branching, although an increase in dendrites occur more distal from the soma when cypinS is overexpressed compared to when cypin is overexpressed. In addition, unlike cypin, cypinS does not have guanine deaminase activity. Overexpression of cypin, but not cypinS, decreases spine density, suggestingiv that the regulation of spine density but not dendrite branching by cypin is dependent on guanine deaminase activity. Furthermore, I have uncovered novel presynaptic roles for both isoforms as overexpression of either isoform leads to increases in miniature excitatory postsynaptic current (mEPSC) frequency. Thus, cypin and cypinS, play distinct roles in neuronal development.
I then chose to study the roles of PSD-95 and interactors in recovery after traumatic brain injury (TBI). We previously identified cypin as a novel target for TBI, and thus, here I studied the role of PSD-95 and its interaction with APC or EB3 in after injury induced by in vitro and in vivo models of TBI. I show that our in vitro model of mechanical stretch injury mimics moderate injury induced by controlled cortical impact (CCI) in mice. During the early stage (1-7 days) post-moderate CCI, the interaction of PSD-95 with APC and EB3 increases. Furthermore, downregulation of PSD-95 prevents stretch-injury mediated decreases in secondary dendrite number and total dendrite length, suggesting a required role of PSD-95 in injury-mediated insults to dendrites. Thus, PSD-95 may sequester APC and EB3 from microtubules to cause decreases in dendrite branching after TBI, and PSD-95 can be targeted as a novel approach for the treatment of patients with TBI.
Subject
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Topic
Neuroscience
Subject
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Topic
Dendrites
Subject
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Topic
Brain damage
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Rutgers University Electronic Theses and Dissertations
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1 online resource (115 pages : illustrations)
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Ph.D.
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Includes bibliographical references
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by Mihir V. Patel
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School of Graduate Studies Electronic Theses and Dissertations
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rucore10001600001
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doi:10.7282/t3-j12v-nn51
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ETD doctoral
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The author owns the copyright to this work.
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Name
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Patel
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Mihir V.
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Permission or license
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2018-08-31 15:21:25
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Mihir Patel
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Rutgers University. School of Graduate Studies
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I hereby grant to the Rutgers University Libraries and to my school the non-exclusive right to archive, reproduce and distribute my thesis or dissertation, in whole or in part, and/or my abstract, in whole or in part, in and from an electronic format, subject to the release date subsequently stipulated in this submittal form and approved by my school. I represent and stipulate that the thesis or dissertation and its abstract are my original work, that they do not infringe or violate any rights of others, and that I make these grants as the sole owner of the rights to my thesis or dissertation and its abstract. I represent that I have obtained written permissions, when necessary, from the owner(s) of each third party copyrighted matter to be included in my thesis or dissertation and will supply copies of such upon request by my school. I acknowledge that RU ETD and my school will not distribute my thesis or dissertation or its abstract if, in their reasonable judgment, they believe all such rights have not been secured. I acknowledge that I retain ownership rights to the copyright of my work. I also retain the right to use all or part of this thesis or dissertation in future works, such as articles or books.
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2018-10-31
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2020-10-30
Detail
Access to this PDF has been restricted at the author's request. It will be publicly available after October 30th, 2020.
Copyright
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Copyright protected
Availability
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Open
Reason
Permission or license
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