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Biochemistry, Biophysics, and Structural Biology Commons™
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- Angiogenesis (1)
- Anti-tumor function (1)
- CD4+ T cell (1)
- Cytokine activation (1)
- Cytotoxicity (1)
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- Eomes (1)
- Etv2 (1)
- Homeostasis (1)
- Immunotherapy (1)
- Innate lymphoid cell (1)
- Metabolism (1)
- Myct1 (1)
- Myometrial Smooth Muscle Cells, Na+ Activated potassium Channels, SLO2, Pregnancy, SLO2.1 Potassium Channels, Sodium Leak, Non-selective (NALCN), Uterine contractions (1)
- Natural killer cells (1)
- Self-peptide presentation (1)
- T follicular helper cell (1)
- Tonic signaling (1)
- Tumor microenvironment (1)
- Vascular normalization (1)
Articles 1 - 4 of 4
Full-Text Articles in Biochemistry, Biophysics, and Structural Biology
Slo2.1 Channels: A New Molecular Mechanism To Regulate Uterine Excitability, Juan Jose Ferreira
Slo2.1 Channels: A New Molecular Mechanism To Regulate Uterine Excitability, Juan Jose Ferreira
Arts & Sciences Electronic Theses and Dissertations
At the end of pregnancy, the uterus transitions from a non-contractile state to a highly contractile state. Two processes primarily drive this transition. First, from the 28th week of pregnancy until labor, the resting membrane potential of uterine (myometrial) smooth muscle cells (MSMCs) gradually becomes more positive (depolarizes) (Parkington et al. 1999). Second, at the end of pregnancy, MSMCs express more oxytocin receptors and become more sensitive to oxytocin (Kimura et al. 1996). However, the detailed mechanisms by which these processes occur have not been determined. My central hypothesis was that the Na+-activated K+ channel SLO2.1 plays a key role …
Mechanisms Of Natural Killer Cell Anti-Tumor Function And Homeostasis, Julia Alexandra Wagner
Mechanisms Of Natural Killer Cell Anti-Tumor Function And Homeostasis, Julia Alexandra Wagner
Arts & Sciences Electronic Theses and Dissertations
Natural killer (NK) cells are innate lymphoid cells (ILCs) that mediate anti-tumor and anti-viral immune responses. They do so via two primary effector functions: cytokine production and direct cytotoxicity. Unlike adaptive T and B lymphocytes, NK cells do not rearrange their DNA to express a predominant antigen-specific receptor, and instead express a variety of stochastically-expressed, germline DNA-encoded activating and inhibitory receptors whose signals integrate to govern their functional responses. What results is a diverse repertoire of NK cells capable of recognizing a variety of malignantly-transformed or virally-infected cells. Studies from several groups have established the anti-tumor potential of NK cells, …
Etv2/Myct1 Axis In The Regulation Of Tumor Angiogenesis And Anti-Tumor Immunity, Ashraf Ul Kabir
Etv2/Myct1 Axis In The Regulation Of Tumor Angiogenesis And Anti-Tumor Immunity, Ashraf Ul Kabir
Arts & Sciences Electronic Theses and Dissertations
Angiogenesis is a critical determinant of neoplastic growth and metastatic spread. As such, anti-angiogenic approaches have long been tried to throttle down tumor progression. However, current anti-angiogenic treatments so far have produced modest clinical benefits. Further in-depth research has provided rationales behind these disappointing and apparent perplexing clinical outcomes. It is now established that VEGF (vascular endothelial growth factor) and other prominent current angiogenic targets are neither specific to the vascular system nor the pathological conditions explaining the sub-optimal angiogenic control following the existing treatments. This suggests that anti-angiogenesis could still be a viable strategy for cancer patients should there …
Homeostatic T Cell Receptor Interactions With Self-Peptide Tune Cd4+ T Cell Function, Juliet Marie Bartleson
Homeostatic T Cell Receptor Interactions With Self-Peptide Tune Cd4+ T Cell Function, Juliet Marie Bartleson
Arts & Sciences Electronic Theses and Dissertations
Homeostatic T Cell Receptor Interactions with Self-Peptide Tune CD4+ T Cell Function
by
Juliet Marie Bartleson
Doctor of Philosophy in Biology and Biomedical Sciences
Immunology
Washington University in St. Louis, 2021
Professor Paul M. Allen, Chair
Mature CD4+ T cells circulate throughout peripheral secondary lymphoid organs using their T cell receptor (TCR) to surveil peptide presented on major histocompatibility complex class II molecules (pMHC) in search of cognate, antigenic peptide. In the absence of an immune challenge, however, the TCR is continuously interacting with self-pMHC, which induces a relatively weak TCR signal known as tonic signaling. These homeostatic TCR:self-pMHC interactions …