Claudia Prada scite author profile

Senile plaques accumulate over the course of decades in the brains of patients with Alzheimer's disease. A fundamental tenet of the amyloid hypothesis of Alzheimer's disease is that the deposition of amyloid-β precedes and induces the neuronal abnormalities that underlie dementia 1 . This idea has been challenged, however, by the suggestion that alterations in axonal trafficking and morphological abnormalities precede and lead to senile plaques 2 . The role of microglia in accelerating or retarding these processes has been uncertain. To investigate the temporal relation between plaque formation and the changes in local neuritic architecture, we used longitudinal in vivo multiphoton microscopy to sequentially image young APPswe/PS1d9xYFP (B6C3-YFP) transgenic mice 3 . Here we show that plaques form extraordinarily quickly, over 24 h. Within 1-2 days of a new plaque's appearance, microglia are activated and recruited to the site. Progressive neuritic changes ensue, leading to increasingly dysmorphic neurites over the next days to weeks. These data establish plaques as a critical mediator of neuritic pathology.To explore the formation of amyloid plaques and to determine the effects of newly formed dense-cored plaques on the microarchitecture of the brain, we have developed a novel in vivo multiphoton imaging technique. This recognizes newly formed plaques and allows monitoring of their immediate vicinity thereafter to determine the rate of their formation and the temporal sequence of pathophysiological events. We imaged young (5-to 6-month-old) B6C3-YFP mice, an age when plaques begin to appear 4 (Fig. 1). We used three-colour imaging to establish fiduciary markers for repeated imaging: YFP positive neurons, dendrites and axons in the cortex, methoxy-XO4-labelled fibrillar amyloid-β deposits in the parenchyma and on vessel walls, and a fluorescent angiogram with Texas red dextran to image blood vessels. A volume of cortex (lamina I-III) that initially did not contain plaques was re-imaged until repeat imaging detected a new plaque, establishing its 'birthday'. To ensure that the appearance of a new plaque did not simply reflect a greater depth of imaging or a slightly different imaging volume, we went through each image stack and compared NIH Public Access Author ManuscriptNature. Author manuscript; available in PMC 2012 January 23. We postulated that we would occasionally observe the appearance and growth of new plaques within an imaging volume if the time interval between imaging sessions was long enough. From one weekly imaging session to the next, most of the sites remained unchanged ( Supplementary Fig. 1a-c). However, we identified 14 new plaques: instances in which a plaque appeared in a second imaging session in a volume that had clearly been unoccupied in the first images one week earlier (Fig. 1a-c).We examined the spatial relation between newly identified plaques and blood vessels. Measurements of the distance between vessel wall and the edge of a plaque confirmed that dense-core plaques develop...

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Characterization of amyloid deposition in the APPswe/PS1dE9 mouse model of Alzheimer disease

García-Alloza

Robbins

Zhang-Nunes

et al. 2006

Neurobiology of Disease

642

534

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Claudia Prada

Rapid appearance and local toxicity of amyloid-β plaques in a mouse model of Alzheimer’s disease

Characterization of amyloid deposition in the APPswe/PS1dE9 mouse model of Alzheimer disease

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