Publications by authors named "Karina Vitanova"
Using spatial cell-type-enriched transcriptomics, we compare plaque-induced gene (PIG) expression in microglia-touching plaques, neighboring plaques, and far from plaques in an aged Alzheimer's mouse model with late plaque development. In 18-month-old APP knockin mice, with and without the Alzheimer's disease risk mutation Trem2, we report that expression of 38/55 PIGs have plaque-induced microglial upregulation, with a subset only upregulating in microglia directly contacting plaques. For seven PIGs, including Trem2, this upregulation is prevented in APPTrem2 mice.
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- Microglia play a critical role in Alzheimer's disease, particularly in their interaction with amyloid plaques and synaptic changes linked to amyloid beta, with novel findings from knock-in mice that avoid issues seen in transgenic models.
- In vitro experiments on genetically modified mice revealed that increased glutamate release occurs early, before plaque formation, but this response varies depending on the presence of plaques and age of the mouse.
- The study suggests that microglial activity impacts synaptic function, with partial microglial depletion mimicking aspects of the Alzheimer's phenotype, but overall changes in synaptic behavior occur late in disease progression and do not affect amyloid plaque levels.
β-Amyloid (Aβ) plaque formation is the major pathological hallmark of Alzheimer's disease (AD) and constitutes a potentially critical, early inducer driving AD pathogenesis as it precedes other pathological events and cognitive symptoms by decades. It is therefore critical to understand how Aβ pathology is initiated and where and when distinct Aβ species aggregate. Here, we used metabolic isotope labeling in knock-in mice together with mass spectrometry imaging to monitor the earliest seeds of Aβ deposition through ongoing plaque development.
View Article and Find Full Text PDFMitochondrial dysfunction has a recognised role in the progression of Alzheimer's disease (AD) pathophysiology. Cerebral perfusion becomes increasingly inefficient throughout ageing, leading to unbalanced mitochondrial dynamics. This effect is exaggerated by amyloid β (Aβ) and phosphorylated tau, two hallmark proteins of AD pathology.
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- Dementia is the leading cause of death in the UK, responsible for over 12% of all deaths, and is becoming increasingly common globally as the population ages.
- The risk of developing dementia doubles every five years after age 65, making it urgent to find effective treatments to prevent a major health crisis.
- Recent research shifts focus towards the basal ganglia's role in dementia, suggesting that areas of the brain long thought unaffected in Alzheimer's may also be impacted, particularly in later disease stages.