Description
Systemic lupus erytematosus (SLE) is an autoimmune disease where the immune system is reactive to self antigens resulting in manifestations like glomerulonephritis and arthritis. The immune system also affects the central nervous system (known as CNS-SLE) leading to neuropsychiatric manifestations such as depression, cognitive impairment, psychosis and seizures. A subset of pathogenic brain-reactive autoantibodies (BRAA) is hypothesized to bind to integral membrane brain proteins, affecting their function, leading to CNS-SLE. I have tested this BRAA hypothesis, using our lupus-mouse model the MRL/lpr mice, and have found it to be a reasonable explanation for some of the manifestations of CNS-SLE. Even when the MRL/lpr had a reduced autoimmune phenotype, their low BRAA sera levels correlated with CNS involvement. The correlation existed between BRAA levels to integral membrane protein and depressive-like behavior. These results were the first to show a correlation between behavioral changes and BRAA levels from brain membrane antigen as oppose to cultured neuronal cells. More accurate means of predicting and diagnosing lupus and CNS-SLE is necessary. Using microarray technology I was able to determine peptide sets that could be predictive and diagnostic of lupus and each specific CNS manifestation. To knowledge no test currently exists that can effectively diagnose lupus and distinguish between each CNS manifestations. Using the peptide sets, I was able to determine possible natural protein biomarkers for each set as well as for five monoclonal BRAA from one MRL/lpr. These biomarkers can provide specific targets for therapy depending on the manifestation. It was necessary to investigate how these BRAA enter the brain. I hypothesized that substance P plays a role in altering the blood-brain barrier (BBB) allowing these BRAA to enter and affect brain function, when bound to its neurokinin-1 receptor (NK-1R). Western blotting results revealed an increase in the levels of NK-1R in the brain of the MRL/lpr compared to the MRL/mp. These MRL/lpr with increased levels of both NK-1R and BRAA displayed CNS dysfunction. Together, these results demonstrate that NK-1R may play a role in CNS manifestations. Overall, the research conducted here, add to the role that BRAA are playing in CNS-lupus.
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Details
Title
- Understanding the role of predictive, diagnostic and pathogenic autoantibodies in systemic lupus erythematosus and its central nervous system (CNS) involvement
Contributors
- Williams, Stephanie (Author)
- Hoffman, Steven A (Thesis advisor)
- Conrad, Cheryl (Committee member)
- Chen, Julian (Committee member)
- Orchinik, Miles (Committee member)
- Arizona State University (Publisher)
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
2011
Subjects
- Molecular Biology
- Immunology
- Neurosciences
- Brain-Reactive Autoantibodies
- CNS-Lupus
- Diagnostic Autoantibodies
- Neurokinin-1 Receptor
- Pathogenic Autoantibodies
- Predictive Autoantibodies
- Autoantibodies
- Systemic lupus erythematosus--Immunological aspects.
- Systemic lupus erythematosus
- Systemic lupus erythematosus--Molecular aspects.
- Systemic lupus erythematosus
- Central nervous system--Pathogenesis.
- Central Nervous System
Resource Type
Collections this item is in
Note
- thesisPartial requirement for: Ph.D., Arizona State University, 2011
- bibliographyIncludes bibliographical references
- Field of study: Molecular and cellular biology
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Statement of Responsibility
bu Stephanie Williams