Your search keyword '"beta‐amyloid accumulation"' showing total 4 results

1. Higher CSF sTREM2 and microglia activation are associated with slower rates of beta‐amyloid accumulation

Author

Michael Ewers, Gloria Biechele, Marc Suárez‐Calvet, Christian Sacher, Tanja Blume, Estrella Morenas‐Rodriguez, Yuetiva Deming, Laura Piccio, Carlos Cruchaga, Gernot Kleinberger, Leslie Shaw, John Q Trojanowski, Jochen Herms, Martin Dichgans, the Alzheimer's Disease Neuroimaging Initiative (ADNI), Matthias Brendel, Christian Haass, and Nicolai Franzmeier

Subjects

beta‐amyloid accumulation, microglia, protective, tau, TREM2, Medicine (General), R5-920, Genetics, QH426-470

Abstract

Abstract Microglia activation is the brain's major immune response to amyloid plaques in Alzheimer's disease (AD). Both cerebrospinal fluid (CSF) levels of soluble TREM2 (sTREM2), a biomarker of microglia activation, and microglia PET are increased in AD; however, whether an increase in these biomarkers is associated with reduced amyloid‐beta (Aβ) accumulation remains unclear. To address this question, we pursued a two‐pronged translational approach. Firstly, in non‐demented and demented individuals, we tested CSF sTREM2 at baseline to predict (i) amyloid PET changes over ∼2 years and (ii) tau PET cross‐sectionally assessed in a subset of patients. We found higher CSF sTREM2 associated with attenuated amyloid PET increase and lower tau PET. Secondly, in the AppNL‐G-F mouse model of amyloidosis, we studied baseline 18F‐GE180 microglia PET and longitudinal amyloid PET to test the microglia vs. Aβ association, without any confounding co‐pathologies often present in AD patients. Higher microglia PET at age 5 months was associated with a slower amyloid PET increase between ages 5‐to‐10 months. In conclusion, higher microglia activation as determined by CSF sTREM2 or microglia PET shows protective effects on subsequent amyloid accumulation.

Published

2020

2. Dietary and Behavioral Interventions Protect against Age Related Activation of Caspase Cascades in the Canine Brain

Author

Snigdha, Shikha, Berchtold, Nicole, Astarita, Giuseppe, Saing, Tommy, Piomelli, Daniele, and Cotman, Carl W.

Subjects

beta-amyloid accumulation, alzheimers-disease, cognitive dysfunction, neural plasticity, learning-ability, oxidative stress, cell-death, ceramide, enrichment, apoptosis

Abstract

Lifestyle interventions such as diet, exercise, and cognitive training represent a quietly emerging revolution in the modern approach to counteracting age-related declines in brain health. Previous studies in our laboratory have shown that long-term dietary supplementation with antioxidants and mitochondrial cofactors (AOX) or behavioral enrichment with social, cognitive, and exercise components (ENR), can effectively improve cognitive performance and reduce brain pathology of aged canines, including oxidative damage and Aβ accumulation. In this study, we build on and extend our previous findings by investigating if the interventions reduce caspase activation and ceramide accumulation in the aged frontal cortex, since caspase activation and ceramide accumulation are common convergence points for oxidative damage and Aβ, among other factors associated with the aged and AD brain. Aged beagles were placed into one of four treatment groups: CON – control environment/control diet, AOX– control environment/antioxidant diet, ENR – enriched environment/control diet, AOX/ENR– enriched environment/antioxidant diet for 2.8 years. Following behavioral testing, brains were removed and frontal cortices were analyzed to monitor levels of active caspase 3, active caspase 9 and their respective cleavage products such as tau and semaphorin7a, and ceramides. Our results show that levels of activated caspase-3 were reduced by ENR and AOX interventions with the largest reduction occurring with combined AOX/ENR group. Further, reductions in caspase-3 correlated with reduced errors in a reversal learning task, which depends on frontal cortex function. In addition, animals treated with an AOX arm showed reduced numbers of cells expressing active caspase 9 or its cleavage product semaphorin 7A, while ENR (but not AOX) reduced ceramide levels. Overall, these data demonstrate that lifestyle interventions curtail activation of pro-degenerative pathways to improve cellular health and are the first to show that lifestyle interventions can regulate caspase pathways in a higher animal model of aging.

Published

2011

3. Higher CSF sTREM2 and microglia activation are associated with slower rates of beta‐amyloid accumulation.

Author

Ewers, Michael, Biechele, Gloria, Suárez‐Calvet, Marc, Sacher, Christian, Blume, Tanja, Morenas‐Rodriguez, Estrella, Deming, Yuetiva, Piccio, Laura, Cruchaga, Carlos, Kleinberger, Gernot, Shaw, Leslie, Trojanowski, John Q, Herms, Jochen, Dichgans, Martin, Brendel, Matthias, Haass, Christian, and Franzmeier, Nicolai

Abstract

Microglia activation is the brain's major immune response to amyloid plaques in Alzheimer's disease (AD). Both cerebrospinal fluid (CSF) levels of soluble TREM2 (sTREM2), a biomarker of microglia activation, and microglia PET are increased in AD; however, whether an increase in these biomarkers is associated with reduced amyloid‐beta (Aβ) accumulation remains unclear. To address this question, we pursued a two‐pronged translational approach. Firstly, in non‐demented and demented individuals, we tested CSF sTREM2 at baseline to predict (i) amyloid PET changes over ∼2 years and (ii) tau PET cross‐sectionally assessed in a subset of patients. We found higher CSF sTREM2 associated with attenuated amyloid PET increase and lower tau PET. Secondly, in the AppNL‐G-F mouse model of amyloidosis, we studied baseline 18F‐GE180 microglia PET and longitudinal amyloid PET to test the microglia vs. Aβ association, without any confounding co‐pathologies often present in AD patients. Higher microglia PET at age 5 months was associated with a slower amyloid PET increase between ages 5‐to‐10 months. In conclusion, higher microglia activation as determined by CSF sTREM2 or microglia PET shows protective effects on subsequent amyloid accumulation. Synopsis: TREM2 is a protein almost exclusively expressed by microglia in the brain. This study investigates the association between soluble TREM2 (sTREM2) levels in cerebrospinal fluid and the longitudinal Aβ accumulation in human and mouse. In patients with Aβ pathology, higher cerebrospinal fluid (CSF) levels of sTREM2 are associated with lower rates of Aβ accumulation.Higher CSF sTREM2 levels are associated with lower neurofibrillary tangles.In the Aβ mouse model, higher microglia activation at baseline is associated with lower rates of Aβ accumulation between 5 and 10 months of age, when Aβ deposition primarily takes place. [ABSTRACT FROM AUTHOR]

Published

2020

4. Dietary and behavioral interventions protect against age related activation of caspase cascades in the canine brain

Author

Giuseppe Astarita, Shikha Snigdha, Daniele Piomelli, Tommy Saing, Carl W. Cotman, and Nicole C. Berchtold

Subjects

Male, enrichment, Aging, Anatomy and Physiology, lcsh:Medicine, Semaphorins, medicine.disease_cause, Antioxidants, chemistry.chemical_compound, 0302 clinical medicine, Molecular Cell Biology, Neurobiology of Disease and Regeneration, Medicine and Health Sciences, learning-ability, Pathology, oxidative stress, Signaling in Cellular Processes, alzheimers-disease, lcsh:Science, Caspase, Apoptotic Signaling Cascade, Neuropathology, Apoptotic Signaling, Caspase-9, 0303 health sciences, Multidisciplinary, biology, Caspase 3, apoptosis, Brain, Neurodegenerative Diseases, beta-amyloid accumulation, Immunohistochemistry, Caspase 9, Signaling Cascades, Neurology, Caspases, Medicine, Female, neural plasticity, Research Article, Signal Transduction, medicine.medical_specialty, Ceramide, Programmed cell death, Immunoblotting, Ceramides, Neurological System, 03 medical and health sciences, cognitive dysfunction, Diagnostic Medicine, Internal medicine, Physical Conditioning, Animal, medicine, In Situ Nick-End Labeling, Animals, ceramide, Biology, 030304 developmental biology, Environmental enrichment, Evolutionary Biology, Population Biology, lcsh:R, Behavioral enrichment, cell-death, Endocrinology, chemistry, Anatomical Pathology, Cellular Neuroscience, Immunology, Dietary Supplements, biology.protein, lcsh:Q, Cattle, Physiological Processes, Organism Development, 030217 neurology & neurosurgery, Oxidative stress, Developmental Biology, Neuroscience

Abstract

Lifestyle interventions such as diet, exercise, and cognitive training represent a quietly emerging revolution in the modern approach to counteracting age-related declines in brain health. Previous studies in our laboratory have shown that long-term dietary supplementation with antioxidants and mitochondrial cofactors (AOX) or behavioral enrichment with social, cognitive, and exercise components (ENR), can effectively improve cognitive performance and reduce brain pathology of aged canines, including oxidative damage and Aβ accumulation. In this study, we build on and extend our previous findings by investigating if the interventions reduce caspase activation and ceramide accumulation in the aged frontal cortex, since caspase activation and ceramide accumulation are common convergence points for oxidative damage and Aβ, among other factors associated with the aged and AD brain. Aged beagles were placed into one of four treatment groups: CON – control environment/control diet, AOX– control environment/antioxidant diet, ENR – enriched environment/control diet, AOX/ENR– enriched environment/antioxidant diet for 2.8 years. Following behavioral testing, brains were removed and frontal cortices were analyzed to monitor levels of active caspase 3, active caspase 9 and their respective cleavage products such as tau and semaphorin7a, and ceramides. Our results show that levels of activated caspase-3 were reduced by ENR and AOX interventions with the largest reduction occurring with combined AOX/ENR group. Further, reductions in caspase-3 correlated with reduced errors in a reversal learning task, which depends on frontal cortex function. In addition, animals treated with an AOX arm showed reduced numbers of cells expressing active caspase 9 or its cleavage product semaphorin 7A, while ENR (but not AOX) reduced ceramide levels. Overall, these data demonstrate that lifestyle interventions curtail activation of pro-degenerative pathways to improve cellular health and are the first to show that lifestyle interventions can regulate caspase pathways in a higher animal model of aging.

Published

2011