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  <title><![CDATA[PhD Defense by Jeong Moon Choi]]></title>
  <body><![CDATA[<p>In partial fulfillment of the requirements for the degree of</p>

<p>&nbsp;</p>

<p>Doctor of Philosophy in Biology</p>

<p>In the</p>

<p>School of Biological Sciences</p>

<p>&nbsp;</p>

<p><strong>Jeong Moon Choi</strong></p>

<p>&nbsp;</p>

<p>Will defend her dissertation</p>

<p>&nbsp;</p>

<p><strong>Understanding Intrinsic and Extrinsic Regulations of Aged Muscle Stem Cells</strong></p>

<p>&nbsp;</p>

<p>Thursday, December 2nd, 2021</p>

<p>2PM</p>

<p>&nbsp;</p>

<p><a href="https://bluejeans.com/458102278/9851">https://bluejeans.com/458102278/9851</a></p>

<p>&nbsp;</p>

<p>&nbsp;<strong>Thesis Advisor:</strong></p>

<p>Young Jang, Ph.D.</p>

<p>School of Biological Sciences</p>

<p>Georgia Institute of Technology</p>

<p>&nbsp;</p>

<p><strong>Committee Members:</strong></p>

<p>Matthew Torres, Ph.D.</p>

<p>School of Biological Sciences</p>

<p>Georgia Institute of Technology</p>

<p>&nbsp;</p>

<p>Yuhong Fan, Ph.D.</p>

<p>School of Biological Sciences</p>

<p>Georgia Institute of Technology</p>

<p>&nbsp;</p>

<p>Shuichi Takayama, Ph.D.</p>

<p>School of Biomedical Engineering</p>

<p>Georgia Institute of Technology</p>

<p>&amp; Emory University</p>

<p>&nbsp;</p>

<p>Holly Van Remmen, Ph. D.</p>

<p>Aging &amp; Metabolism Research Program</p>

<p>Oklahoma Medical Research Foundation</p>

<p><strong>ABSTRACT</strong></p>

<p>&nbsp;</p>

<p>Skeletal muscle plays a vital role in extending health-span, a disease-free state during chronological aging. Skeletal muscle homeostasis is maintained by dedicated tissue stem cells called muscle satellite/stem cells (MuSC), which undergo asymmetric divisions of self-renewal to maintain their pool size or proliferation-differentiation to fuse into existing multinucleated muscle fibers to regenerate an injured muscle. It has been well documented that age-associated muscle loss and function are caused by decreased bioavailability of MuSCs. While many studies focused on factors altering MuSC function as we age, we still do not fully understand age-acquired deficits in MuSCs in the late stages of life. Thus, therapeutic interventions targeting MuSCs to restore the functionality of aged skeletal muscle have not been developed. The overarching goal of my thesis is to understand how MuSCs drive sarcopenia and frailty. We hypothesized that age-related internal and external changes in muscle stem cell are one of the main drivers of skeletal muscle aging and frailty. To test our hypothesis, the first project focused on the intrinsic changes of MuSCs, specifically, the consequences of mitochondrial dysfunction on aged myofibers. Based on the results, we developed a transplantation strategy to restore the mitochondrial network and function in the host aged muscle by fusing young healthy MuSC-derived mitochondria. The second project examined how extrinsic factors of the MuSC microenvironment influence MuSC function, particularly a cell-cell communication between MuSCs and motor neuron through a neuromuscular synapse. We found that transient disruption of innervation revitalized MuSC function by enhancing bioenergetics and protein synthesis. On the other hand, persistent loss of nerve supply, common phenotypes in the aged muscle, altered MuSC-motor neuron communication, which had no effect on myogenic function. In the third project, we studied how the change of systemic humoral factors alters MuSC myogenesis in the aged. We assessed whether the young systemic milieu restores the aged MuSC function using a 3D engineered heterochronic parabiosis system.</p>

<p>All in all, we leveraged <em>in vitro</em> and <em>in vivo</em> stem cell engineering approaches to gain insights on intrinsic and extrinsic changes that occur during aging and how they impair muscle stem cell function during aging. Our data imply that MuSC function is compromised by mitochondrial dysfunction, interruption of intercellular communication, and aberrant systemic factors in aged muscle. Furthermore, we demonstrated that heterochronic transplantations of young healthy MuSCs or by modifying the circulating factors to those found in a young muscle environment, aged MuSCs and muscle can be rejuvenated. This work sheds light on previously unknown intrinsic and extrinsic factors impacting MuSC function and provides a viable target for therapeutic interventions to restore the regenerative capacity of aged muscle.</p>

<p>&nbsp;</p>
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