Browsing by Author "Newman, Sharlé"

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    Aging- and Tumor-Mediated Increase in CD8+CD28- T Cells Might Impose a Strong Barrier to Success of Immunotherapy in Glioblastoma
    (American Association of Immunologists, 2021-06-08) Huff, Wei X.; Bam, Marpe; Shireman, Jack M.; Kwon, Jae Hyun; Song, Leo; Newman, Sharlé; Cohen-Gadol, Aaron A.; Shapiro, Scott; Jones, Tamara; Fulton, Kelsey; Liu, Sheng; Tanaka, Hiromi; Liu, Yunlong; Wan, Jun; Dey, Mahua; Neurological Surgery, School of Medicine
    Clinical use of various forms of immunotherapeutic drugs in glioblastoma (GBM), has highlighted severe T-cell dysfunction such as exhaustion in GBM patients. However, reversing T-cell exhaustion using immune checkpoint inhibitors in GBM clinical trials has not shown significant overall survival benefit. Phenotypically, CD8+ T cells with downregulated CD28 co-receptors, low CD27 expression, increased CD57 expression, and telomere shortening, are classified as senescent T cells. These senescent T cells are normally seen as part of aging and also in many forms of solid cancers. Absence of CD28 on T-cells leads to several functional irregularities including reduced TCR diversity, incomplete activation of T cells, and defects in antigen induced proliferation. In the context of GBM, presence and/or function of these CD8+CD28− T-cells is unknown. In this clinical correlative study, we investigated the effect of aging as well as tumor microenvironment on CD8+ T-cell phenotype as an indicator of its function in GBM patients. We systematically analyzed and describe a large population of CD8+CD28− T-cells in both the blood and tumor infiltrating lymphocytes of GBM patients. We found that phenotypically these CD8+CD28− T-cells represent a distinct population compared to exhausted T-cells. Comparative transcriptomic and pathway analysis of CD8+CD28− T cell populations in GBM patients revealed that tumor microenvironment might be influencing several immune related pathways and thus further exaggerating the age associated immune dysfunction in this patient population.
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    Impact of Needle Selection on Survival of Muscle-Derived Cells When Used for Laryngeal Injections
    (Longdom Publishing, 2023) Awonusi, Oluwaseyi; Harbin, Zachary J.; Brookes, Sarah; Zhang, Lujuan; Kaefer, Samuel; Morrison, Rachel A.; Newman, Sharlé; Voytik-Harbin, Sherry; Halum, Stacey; Otolaryngology -- Head and Neck Surgery, School of Medicine
    Objective: To describe how differing injector needles and delivery vehicles impact Autologous Muscle-Derived Cell (AMDC) viability when used for laryngeal injection. Methods: In this study, adult porcine muscle tissue was harvested and used to create AMDC populations. While controlling cell concentration (1 × 107 cells/ml), AMDCs including Muscle Progenitor Cells (MPCs) or Motor Endplate Expressing Cells (MEEs) were suspended in either phosphate-buffered saline or polymerizable (in-situ scaffold forming) type I oligomeric collagen solution. Cell suspensions were then injected through 23- and 27-gauge needles of different lengths at the same rate (2 ml/min) using a syringe pump. Cell viability was measured immediately after injection and 24- and 48-hours post-injection, and then compared to baseline cell viability prior to injection. Results: The viability of cells post-injection was not impacted by needle length or needle gauge but was significantly impacted by the delivery vehicle. Overall, injection of cells using collagen as a delivery vehicle maintained the highest cell viability. Conclusion: Needle gauge, needle length, and delivery vehicle are important factors that can affect the viability of injected cell populations. These factors should be considered and adapted to improve injectable MDC therapy outcomes when used for laryngeal applications.