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Dysregulation Of Systemic Immunity In Aging And Dementia, Jenny Lutshumba, Barbara S. Nikolajczyk, Adam D. Bachstetter
Dysregulation Of Systemic Immunity In Aging And Dementia, Jenny Lutshumba, Barbara S. Nikolajczyk, Adam D. Bachstetter
Pharmacology and Nutritional Sciences Faculty Publications
Neuroinflammation and the tissue-resident innate immune cells, the microglia, respond and contribute to neurodegenerative pathology. Although microglia have been the focus of work linking neuroinflammation and associated dementias like Alzheimer’s Disease, the inflammatory milieu of brain is a conglomerate of cross-talk amongst microglia, systemic immune cells and soluble mediators like cytokines. Age-related changes in the inflammatory profile at the levels of both the brain and periphery are largely orchestrated by immune system cells. Strong evidence indicates that both innate and adaptive immune cells, the latter including T cells and B cells, contribute to chronic neuroinflammation and thus dementia. Neurodegenerative hallmarks …
Contributing Factors To Diabetic Brain Injury And Cognitive Decline, Nirmal Verma, Florin Despa
Contributing Factors To Diabetic Brain Injury And Cognitive Decline, Nirmal Verma, Florin Despa
Pharmacology and Nutritional Sciences Faculty Publications
The link of diabetes with co-occurring disorders in the brain involves complex and multifactorial pathways. Genetically engineered rodents that express familial Alzheimer's disease-associated mutant forms of amyloid precursor protein and presenilin 1 (PSEN1) genes provided invaluable insights into the mechanisms and consequences of amyloid deposition in the brain. Adding diabetes factors (obesity, insulin impairment) to these animal models to predict success in translation to clinic have proven useful at some extent only. Here, we focus on contributing factors to diabetic brain injury with the aim of identifying appropriate animal models that can be used to mechanistically dissect the …
Diabetes-Related Amylin Dyshomeostasis: A Contributing Factor To Cerebrovascular Pathology And Dementia, Han Ly, Florin Despa
Diabetes-Related Amylin Dyshomeostasis: A Contributing Factor To Cerebrovascular Pathology And Dementia, Han Ly, Florin Despa
Pharmacology and Nutritional Sciences Faculty Publications
Type 2 diabetes (T2D) increases the risk for cerebrovascular disease (CVD) and dementia. The underlying molecular mechanisms remain elusive, which hampers the development of treatment or/and effective prevention strategies. Recent studies suggest that dyshomeostasis of amylin, a satiety hormone that forms pancreatic amyloid in patients with T2D, promotes accumulation of amylin in cerebral small blood vessels and interaction with Alzheimer's disease (AD) pathology. Overexpression of human amylin in rodents (rodent amylin does not form amyloid) leads to late-life onset T2D and neurologic deficits. In this Review, we discuss clinical evidence of amylin pathology in CVD and AD and identify critical …
Metabolic And Vascular Imaging Biomarkers In Down Syndrome Provide Unique Insights Into Brain Aging And Alzheimer Disease Pathogenesis, Elizabeth Head, David K. Powell, Frederick A. Schmitt
Metabolic And Vascular Imaging Biomarkers In Down Syndrome Provide Unique Insights Into Brain Aging And Alzheimer Disease Pathogenesis, Elizabeth Head, David K. Powell, Frederick A. Schmitt
Pharmacology and Nutritional Sciences Faculty Publications
People with Down syndrome (DS) are at high risk for developing Alzheimer disease (AD). Neuropathology consistent with AD is present by 40 years of age and dementia may develop up to a decade later. In this review, we describe metabolic and vascular neuroimaging studies in DS that suggest these functional changes are a key feature of aging, linked to cognitive decline and AD in this vulnerable cohort. FDG-PET imaging in DS suggests systematic reductions in glucose metabolism in posterior cingulate and parietotemporal cortex. Magentic resonance spectroscopy studies show consistent decreases in neuronal health and increased myoinositol, suggesting inflammation. There are …