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Full-Text Articles in Diseases
Infiltrating Cd8+ T Cells Exacerbate Alzheimer’S Disease Pathology In A 3d Human Neuroimmune Axis Model, Jefin Jose, Devam Purohit
Infiltrating Cd8+ T Cells Exacerbate Alzheimer’S Disease Pathology In A 3d Human Neuroimmune Axis Model, Jefin Jose, Devam Purohit
VCU's Medical Journal Club: The Work of Future Health Professionals
In this study, Jorfi et al. employed a neuroimmune axis model containing neurons, astrocytes, and microglia to examine the role of immune cells in Alzheimer's disease. Jorfi et al. found that T cells selectively infiltrated the BRAIN compartment of the neuroimmune axis model as compared to B cells and monocytes. Jorfi et al. further found that CD8+ T cells demonstrated heightened cytotoxicity in the Alzheimer's disease brain, illuminating the role of immune cells in neurodegeneration. Upon further examination, the CXCR3-CXCL10 signaling pathway was found to have an important role in inflammation.
Immunomodulatory Roles Of The Lysosomal Sialidase Neuraminidase 1, Leigh Ellen Fremuth
Immunomodulatory Roles Of The Lysosomal Sialidase Neuraminidase 1, Leigh Ellen Fremuth
Theses and Dissertations (ETD)
Background Sialic acids are key sugar moieties located at the non-reducing terminals of glycan chains on glycoproteins and glycolipids. By virtue of their location, they influence the functions and biochemical properties of the macromolecules they are bound to. Removal of sialic acids in mammalian cells is carried out by four sialidases, which are differentially expressed and localized in distinct subcellular compartments. Neuraminidase 1 (NEU1), the most abundant and ubiquitous of the four sialidases, functions primarily in the acidic environment of the lysosomes, but can hydrolyze substrates at the plasma membrane, at least in certain cell types. The enzyme initiates the …
Analysis Of Autophagy And Inflammasome Regulation In Neuronal Cells And Monocytes Infected With Chlamydia Pneumoniae: Implications For Alzheimer’S Disease, Brian J. Balin, Christine J. Hammond, Juliana Zoga, Ahmad B. Cader, Annette K. Slutter, Jonathan M. Anzman, Ian Kohler, Susan T. Hingley, Denah M. Appelt
Analysis Of Autophagy And Inflammasome Regulation In Neuronal Cells And Monocytes Infected With Chlamydia Pneumoniae: Implications For Alzheimer’S Disease, Brian J. Balin, Christine J. Hammond, Juliana Zoga, Ahmad B. Cader, Annette K. Slutter, Jonathan M. Anzman, Ian Kohler, Susan T. Hingley, Denah M. Appelt
Scholarly Posters
Objectives: Our laboratory has been studying the role of infection with the obligate intracellular bacterium Chlamydia pneumoniae in sporadic late-onset Alzheimer disease (LOAD). This infection may be a trigger for the pathology observed in LOAD as a function of initiating changes in gene regulation following entry of the organism into the brain. As such, we are analyzing how this infection can promote changes in autophagy and inflammasome gene regulation as both have been shown to be altered in LOAD. Methods: Human SKNMC neuronal cells and THP1 monocytes were infected in vitro for 24-72 hrs with a laboratory strain of Chlamydia …