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1. Dysregulation of neuroproteasomes by ApoE isoforms drives endogenous Tau aggregation

Author

Paradise, V, primary, Sabu, M, additional, Bafia, J, additional, Sharif, NA, additional, Nguyen, C, additional, Konrad-Vicario, KD, additional, Dhanraj, Mukim R, additional, Wang, X, additional, Corjuc, BT, additional, Fu, J, additional, Maldonado, G, additional, Ndubisi, J, additional, Strickland, M, additional, Figueroa, H, additional, Almeida, D, additional, Hyman, B, additional, Holtzman, DM, additional, Nuriel, T, additional, and Ramachandran, KV, additional

Published
2022
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2. Trisomy of human chromosome 21 enhances amyloid-β deposition independently of an extra copy of APP

Author

Wiseman, FK, Pulford, LJ, Barkus, C, Liao, F, Portelius, E, Webb, R, Chávez-Gutiérrez, L, Cleverley, K, Noy, S, Sheppard, O, Collins, T, Powell, C, Sarell, CJ, Rickman, M, Choong, X, Tosh, JL, Siganporia, C, Whittaker, HT, Stewart, F, Szaruga, M, London Down syndrome consortium, Murphy, MP, Blennow, K, De Strooper, B, Zetterberg, H, Bannerman, D, Holtzman, DM, Tybulewicz, VLJ, and Fisher, EMC

Subjects
Male, Amyloid beta-Peptides, Neurology & Neurosurgery, London Down syndrome consortium, Brain, Neurofibrillary Tangles, Plaque, Amyloid, Trisomy, 17 Psychology and Cognitive Sciences, Mice, Inbred C57BL, Amyloid beta-Protein Precursor, Disease Models, Animal, Mice, LonDownS Consortium, Alzheimer Disease, mental disorders, Animals, Humans, Female, Down Syndrome, 11 Medical and Health Sciences
Abstract

Down syndrome, caused by trisomy of chromosome 21, is the single most common risk factor for early-onset Alzheimer's disease. Worldwide approximately 6 million people have Down syndrome, and all these individuals will develop the hallmark amyloid plaques and neurofibrillary tangles of Alzheimer's disease by the age of 40 and the vast majority will go on to develop dementia. Triplication of APP, a gene on chromosome 21, is sufficient to cause early-onset Alzheimer's disease in the absence of Down syndrome. However, whether triplication of other chromosome 21 genes influences disease pathogenesis in the context of Down syndrome is unclear. Here we show, in a mouse model, that triplication of chromosome 21 genes other than APP increases amyloid-β aggregation, deposition of amyloid-β plaques and worsens associated cognitive deficits. This indicates that triplication of chromosome 21 genes other than APP is likely to have an important role to play in Alzheimer's disease pathogenesis in individuals who have Down syndrome. We go on to show that the effect of trisomy of chromosome 21 on amyloid-β aggregation correlates with an unexpected shift in soluble amyloid-β 40/42 ratio. This alteration in amyloid-β isoform ratio occurs independently of a change in the carboxypeptidase activity of the γ-secretase complex, which cleaves the peptide from APP, or the rate of extracellular clearance of amyloid-β. These new mechanistic insights into the role of triplication of genes on chromosome 21, other than APP, in the development of Alzheimer's disease in individuals who have Down syndrome may have implications for the treatment of this common cause of neurodegeneration.

Published
2018

3. Spatial patterns of neuroimaging biomarker change in individuals from families with autosomal dominant Alzheimer's disease: a longitudinal study

Author

Gordon, BA, Blazey, TM, Su, Y, Hari-Raj, A, Dincer, A, Flores, S, Christensen, J, McDade, E, Wang, G, Xiong, C, Cairns, NJ, Hassenstab, J, Marcus, DS, Fagan, AM, Jack, CR, Hornbeck, RC, Paumier, KL, Ances, BM, Berman, SB, Brickman, AM, Cash, DM, Chhatwal, JP, Correia, S, Förster, S, Fox, NC, Graff-Radford, NR, la Fougère, C, Levin, J, Masters, CL, Rossor, MN, Salloway, S, Saykin, AJ, Schofield, PR, Thompson, PM, Weiner, MM, Holtzman, DM, Raichle, ME, Morris, JC, Bateman, RJ, Benzinger, TLS, Gordon, BA, Blazey, TM, Su, Y, Hari-Raj, A, Dincer, A, Flores, S, Christensen, J, McDade, E, Wang, G, Xiong, C, Cairns, NJ, Hassenstab, J, Marcus, DS, Fagan, AM, Jack, CR, Hornbeck, RC, Paumier, KL, Ances, BM, Berman, SB, Brickman, AM, Cash, DM, Chhatwal, JP, Correia, S, Förster, S, Fox, NC, Graff-Radford, NR, la Fougère, C, Levin, J, Masters, CL, Rossor, MN, Salloway, S, Saykin, AJ, Schofield, PR, Thompson, PM, Weiner, MM, Holtzman, DM, Raichle, ME, Morris, JC, Bateman, RJ, and Benzinger, TLS

Abstract

Background: Models of Alzheimer's disease propose a sequence of amyloid β (Aβ) accumulation, hypometabolism, and structural decline that precedes the onset of clinical dementia. These pathological features evolve both temporally and spatially in the brain. In this study, we aimed to characterise where in the brain and when in the course of the disease neuroimaging biomarkers become abnormal. Methods: Between Jan 1, 2009, and Dec 31, 2015, we analysed data from mutation non-carriers, asymptomatic carriers, and symptomatic carriers from families carrying gene mutations in presenilin 1 (PSEN1), presenilin 2 (PSEN2), or amyloid precursor protein (APP) enrolled in the Dominantly Inherited Alzheimer's Network. We analysed 11C-Pittsburgh Compound B (11C-PiB) PET, 18F-Fluorodeoxyglucose (18F-FDG) PET, and structural MRI data using regions of interest to assess change throughout the brain. We estimated rates of biomarker change as a function of estimated years to symptom onset at baseline using linear mixed-effects models and determined the earliest point at which biomarker trajectories differed between mutation carriers and non-carriers. This study is registered at ClinicalTrials.gov (number NCT00869817) Findings: 11C-PiB PET was available for 346 individuals (162 with longitudinal imaging), 18F-FDG PET was available for 352 individuals (175 with longitudinal imaging), and MRI data were available for 377 individuals (201 with longitudinal imaging). We found a sequence to pathological changes, with rates of Aβ deposition in mutation carriers being significantly different from those in non-carriers first (across regions that showed a significant difference, at a mean of 18·9 years [SD 3·3] before expected onset), followed by hypometabolism (14·1 years [5·1] before expected onset), and lastly structural decline (4·7 years [4·2] before expected onset). This biomarker ordering was preserved in most, but not all, regions. The temporal emergence within a biomarker varied across th

Published
2018

4. White matter hyperintensities and the mediating role of cerebral amyloid angiopathy in dominantly-inherited Alzheimer’s disease

Author

Lee, S, Zimmerman, ME, Narkhede, A, Nasrabady, SE, Tosto, G, Meier, IB, Benzinger, TLS, Marcus, DS, Fagan, AM, Fox, NC, Cairns, NJ, Holtzman, DM, Buckles, V, Ghetti, B, McDade, E, Martins, RN, Saykin, AJ, Masters, CL, Ringman, JM, Fӧrster, S, Schofield, PR, Sperling, RA, Johnson, KA, Chhatwal, JP, Salloway, S, Correia, S, Jack, CR, Weiner, M, Bateman, RJ, Morris, JC, Mayeux, R, Brickman, AM, Lee, S, Zimmerman, ME, Narkhede, A, Nasrabady, SE, Tosto, G, Meier, IB, Benzinger, TLS, Marcus, DS, Fagan, AM, Fox, NC, Cairns, NJ, Holtzman, DM, Buckles, V, Ghetti, B, McDade, E, Martins, RN, Saykin, AJ, Masters, CL, Ringman, JM, Fӧrster, S, Schofield, PR, Sperling, RA, Johnson, KA, Chhatwal, JP, Salloway, S, Correia, S, Jack, CR, Weiner, M, Bateman, RJ, Morris, JC, Mayeux, R, and Brickman, AM

Abstract

Introduction White matter hyperintensity (WMH) volume on MRI is increased among presymptomatic individuals with autosomal dominant mutations for Alzheimer’s disease (AD). One potential explanation is that WMH, conventionally considered a marker of cerebrovascular disease, are a reflection of cerebral amyloid angiopathy (CAA) and that increased WMH in this population is a manifestation of this vascular form of primary AD pathology. We examined whether the presence of cerebral microbleeds, a marker of CAA, mediates the relationship between WMH and estimated symptom onset in individuals with and without autosomal dominant mutations for AD. Participants and methods Participants (n = 175, mean age = 41.1 years) included 112 with an AD mutation and 63 first-degree non-carrier controls. We calculated the estimated years from expected symptom onset (EYO) and analyzed baseline MRI data for WMH volume and presence of cerebral microbleeds. Mixed effects regression and tests of mediation were used to examine microbleed and WMH differences between carriers and non-carriers and to test the whether the association between WMH and mutation status is dependent on the presence of microbleeds. Results Mutation carriers were more likely to have microbleeds than non-carriers (p<0.05) and individuals with microbleeds had higher WMH volume than those without (p<0.05). Total WMH volume was increased in mutation carriers compared with non-carriers, up to 20 years prior to EYO, after controlling for microbleed status, as we demonstrated previously. Formal testing of mediation demonstrated that 21% of the association between mutation status and WMH was mediated by presence of microbleeds (p = 0.03) but a significant direct effect of WMH remained (p = 0.02) after controlling for presence of microbleeds. Discussion Although there is some co-dependency between WMH and microbleeds, the observed increases in WMH among mutation carriers does not appear to be fully mediated by this marker of CAA. Th

Published
2018

5. White matter hyperintensities and the mediating role of cerebral amyloid angiopathy in dominantly-inherited Alzheimer's disease

Author

Ginsberg, SD, Lee, S, Zimmerman, ME, Narkhede, A, Nasrabady, SE, Tosto, G, Meier, IB, Benzinger, TLS, Marcus, DS, Fagan, AM, Fox, NC, Cairns, NJ, Holtzman, DM, Buckles, V, Ghetti, B, McDade, E, Martins, RN, Saykin, AJ, Masters, CL, Ringman, JM, Foerster, S, Schofield, PR, Sperling, RA, Johnson, KA, Chhatwal, JP, Salloway, S, Correia, S, Jack, CR, Weiner, M, Bateman, RJ, Morris, JC, Mayeux, R, Brickman, AM, Ginsberg, SD, Lee, S, Zimmerman, ME, Narkhede, A, Nasrabady, SE, Tosto, G, Meier, IB, Benzinger, TLS, Marcus, DS, Fagan, AM, Fox, NC, Cairns, NJ, Holtzman, DM, Buckles, V, Ghetti, B, McDade, E, Martins, RN, Saykin, AJ, Masters, CL, Ringman, JM, Foerster, S, Schofield, PR, Sperling, RA, Johnson, KA, Chhatwal, JP, Salloway, S, Correia, S, Jack, CR, Weiner, M, Bateman, RJ, Morris, JC, Mayeux, R, and Brickman, AM

Abstract

INTRODUCTION: White matter hyperintensity (WMH) volume on MRI is increased among presymptomatic individuals with autosomal dominant mutations for Alzheimer's disease (AD). One potential explanation is that WMH, conventionally considered a marker of cerebrovascular disease, are a reflection of cerebral amyloid angiopathy (CAA) and that increased WMH in this population is a manifestation of this vascular form of primary AD pathology. We examined whether the presence of cerebral microbleeds, a marker of CAA, mediates the relationship between WMH and estimated symptom onset in individuals with and without autosomal dominant mutations for AD. PARTICIPANTS AND METHODS: Participants (n = 175, mean age = 41.1 years) included 112 with an AD mutation and 63 first-degree non-carrier controls. We calculated the estimated years from expected symptom onset (EYO) and analyzed baseline MRI data for WMH volume and presence of cerebral microbleeds. Mixed effects regression and tests of mediation were used to examine microbleed and WMH differences between carriers and non-carriers and to test the whether the association between WMH and mutation status is dependent on the presence of microbleeds. RESULTS: Mutation carriers were more likely to have microbleeds than non-carriers (p<0.05) and individuals with microbleeds had higher WMH volume than those without (p<0.05). Total WMH volume was increased in mutation carriers compared with non-carriers, up to 20 years prior to EYO, after controlling for microbleed status, as we demonstrated previously. Formal testing of mediation demonstrated that 21% of the association between mutation status and WMH was mediated by presence of microbleeds (p = 0.03) but a significant direct effect of WMH remained (p = 0.02) after controlling for presence of microbleeds. DISCUSSION: Although there is some co-dependency between WMH and microbleeds, the observed increases in WMH among mutation carriers does not appear to be fully mediated by this marker of CAA

Published
2018

8. White matter hyperintensities are a core feature of Alzheimer's disease: Evidence from the dominantly inherited Alzheimer network

Author

Lee, S, Viqar, F, Zimmerman, ME, Narkhede, A, Tosto, G, Benzinger, TLS, Marcus, DS, Fagan, AM, Goate, A, Fox, NC, Cairns, NJ, Holtzman, DM, Buckles, V, Ghetti, B, McDade, E, Martins, RN, Saykin, AJ, Masters, CL, Ringman, JM, Ryan, NS, Förster, S, Laske, C, Schofield, PR, Sperling, RA, Salloway, S, Correia, S, Jack, C, Weiner, M, Bateman, RJ, Morris, JC, Mayeux, R, Brickman, AM, Lee, S, Viqar, F, Zimmerman, ME, Narkhede, A, Tosto, G, Benzinger, TLS, Marcus, DS, Fagan, AM, Goate, A, Fox, NC, Cairns, NJ, Holtzman, DM, Buckles, V, Ghetti, B, McDade, E, Martins, RN, Saykin, AJ, Masters, CL, Ringman, JM, Ryan, NS, Förster, S, Laske, C, Schofield, PR, Sperling, RA, Salloway, S, Correia, S, Jack, C, Weiner, M, Bateman, RJ, Morris, JC, Mayeux, R, and Brickman, AM

Abstract

Objective White matter hyperintensities (WMHs) are areas of increased signal on T2-weighted magnetic resonance imaging (MRI) scans that most commonly reflect small vessel cerebrovascular disease. Increased WMH volume is associated with risk and progression of Alzheimer's disease (AD). These observations are typically interpreted as evidence that vascular abnormalities play an additive, independent role contributing to symptom presentation, but not core features of AD. We examined the severity and distribution of WMH in presymptomatic PSEN1, PSEN2, and APP mutation carriers to determine the extent to which WMH manifest in individuals genetically determined to develop AD. Methods The study comprised participants (n = 299; age = 39.03 ± 10.13) from the Dominantly Inherited Alzheimer Network, including 184 (61.5%) with a mutation that results in AD and 115 (38.5%) first-degree relatives who were noncarrier controls. We calculated the estimated years from expected symptom onset (EYO) by subtracting the affected parent's symptom onset age from the participant's age. Baseline MRI data were analyzed for total and regional WMH. Mixed-effects piece-wise linear regression was used to examine WMH differences between carriers and noncarriers with respect to EYO. Results Mutation carriers had greater total WMH volumes, which appeared to increase approximately 6 years before expected symptom onset. Effects were most prominent for the parietal and occipital lobe, which showed divergent effects as early as 22 years before estimated onset. Interpretation Autosomal-dominant AD is associated with increased WMH well before expected symptom onset. The findings suggest the possibility that WMHs are a core feature of AD, a potential therapeutic target, and a factor that should be integrated into pathogenic models of the disease.

Published
2016

10. Functional connectivity in autosomal dominant and late-onset Alzheimer disease

Author

Thomas, JB, Brier, MR, Bateman, RJ, Snyder, AZ, Benzinger, TL, Xiong, C, Raichle, M, Holtzman, DM, Sperling, RA, Mayeux, R, Ghetti, B, Ringman, JM, Salloway, S, McDade, E, Rossor, MN, Ourselin, S, Schofield, PR, Masters, CL, Martins, RN, Weiner, MW, Thompson, PM, Fox, NC, Koeppe, RA, Jack, CR, Mathis, CA, Oliver, A, Blazey, TM, Moulder, K, Buckles, V, Hornbeck, R, Chhatwal, J, Schultz, AP, Goate, AM, Fagan, AM, Cairns, NJ, Marcus, DS, Morris, JC, Ances, BM, Thomas, JB, Brier, MR, Bateman, RJ, Snyder, AZ, Benzinger, TL, Xiong, C, Raichle, M, Holtzman, DM, Sperling, RA, Mayeux, R, Ghetti, B, Ringman, JM, Salloway, S, McDade, E, Rossor, MN, Ourselin, S, Schofield, PR, Masters, CL, Martins, RN, Weiner, MW, Thompson, PM, Fox, NC, Koeppe, RA, Jack, CR, Mathis, CA, Oliver, A, Blazey, TM, Moulder, K, Buckles, V, Hornbeck, R, Chhatwal, J, Schultz, AP, Goate, AM, Fagan, AM, Cairns, NJ, Marcus, DS, Morris, JC, and Ances, BM

Abstract

IMPORTANCE: Autosomal dominant Alzheimer disease (ADAD) is caused by rare genetic mutations in 3 specific genes in contrast to late-onset Alzheimer disease (LOAD), which has a more polygenetic risk profile. OBJECTIVE: To assess the similarities and differences in functional connectivity changes owing to ADAD and LOAD. DESIGN, SETTING, AND PARTICIPANTS: We analyzed functional connectivity in multiple brain resting state networks (RSNs) in a cross-sectional cohort of participants with ADAD (n = 79) and LOAD (n = 444), using resting-state functional connectivitymagnetic resonance imaging at multiple international academic sites. MAIN OUTCOMES AND MEASURES: For both types of AD, we quantified and compared functional connectivity changes in RSNs as a function of dementia severity measured by the Clinical Dementia Rating Scale. In ADAD, we qualitatively investigated functional connectivity changes with respect to estimated years from onset of symptoms within 5 RSNs. RESULTS: A decrease in functional connectivity with increasing Clinical Dementia Rating scores were similar for both LOAD and ADAD in multiple RSNs. Ordinal logistic regression models constructed in one type of Alzheimer disease accurately predicted clinical dementia rating scores in the other, further demonstrating the similarity of functional connectivity loss in each disease type. Among participants with ADAD, functional connectivity in multiple RSNs appeared qualitatively lower in asymptomatic mutation carriers near their anticipated age of symptom onset compared with asymptomatic mutation noncarriers. CONCLUSIONS AND RELEVANCE: Resting-state functional connectivity magnetic resonance imaging changes with progressing AD severity are similar between ADAD and LOAD. Resting-state functional connectivitymagnetic resonance imagingmay be a useful end point for LOAD and ADAD therapy trials. Moreover, the disease process of ADAD may be an effective model for the LOAD disease process.

Published
2014

11. Regional variability of imaging biomarkers in autosomal dominant Alzheimer's disease

Author

Benzinger, TLS, Blazey, T, Jack, CR, Koeppe, RA, Su, Y, Xiong, C, Raichle, ME, Snyder, AZ, Ances, BM, Bateman, RJ, Cairns, NJ, Fagan, AM, Goate, A, Marcus, DS, Aisen, PS, Christensen, JJ, Ercole, L, Hornbeck, RC, Farrar, AM, Aldea, P, Jasielec, MS, Owen, CJ, Xie, X, Mayeux, R, Brickman, A, McDade, E, Klunk, W, Mathis, CA, Ringman, J, Thompson, PM, Ghetti, B, Saykin, AJ, Sperling, RA, Johnson, KA, Salloway, S, Correia, S, Schofield, PR, Masters, CL, Rowe, C, Villemagne, VL, Martins, R, Ourselin, S, Rossor, MN, Fox, NC, Cash, DM, Weiner, MW, Holtzman, DM, Buckles, VD, Moulder, K, Morris, JC, Benzinger, TLS, Blazey, T, Jack, CR, Koeppe, RA, Su, Y, Xiong, C, Raichle, ME, Snyder, AZ, Ances, BM, Bateman, RJ, Cairns, NJ, Fagan, AM, Goate, A, Marcus, DS, Aisen, PS, Christensen, JJ, Ercole, L, Hornbeck, RC, Farrar, AM, Aldea, P, Jasielec, MS, Owen, CJ, Xie, X, Mayeux, R, Brickman, A, McDade, E, Klunk, W, Mathis, CA, Ringman, J, Thompson, PM, Ghetti, B, Saykin, AJ, Sperling, RA, Johnson, KA, Salloway, S, Correia, S, Schofield, PR, Masters, CL, Rowe, C, Villemagne, VL, Martins, R, Ourselin, S, Rossor, MN, Fox, NC, Cash, DM, Weiner, MW, Holtzman, DM, Buckles, VD, Moulder, K, and Morris, JC

Abstract

Major imaging biomarkers of Alzheimer's disease include amyloid deposition [imaged with [(11)C]Pittsburgh compound B (PiB) PET], altered glucose metabolism (imaged with [(18)F]fluro-deoxyglucose PET), and structural atrophy (imaged by MRI). Recently we published the initial subset of imaging findings for specific regions in a cohort of individuals with autosomal dominant Alzheimer's disease. We now extend this work to include a larger cohort, whole-brain analyses integrating all three imaging modalities, and longitudinal data to examine regional differences in imaging biomarker dynamics. The anatomical distribution of imaging biomarkers is described in relation to estimated years from symptom onset. Autosomal dominant Alzheimer's disease mutation carrier individuals have elevated PiB levels in nearly every cortical region 15 y before the estimated age of onset. Reduced cortical glucose metabolism and cortical thinning in the medial and lateral parietal lobe appeared 10 and 5 y, respectively, before estimated age of onset. Importantly, however, a divergent pattern was observed subcortically. All subcortical gray-matter regions exhibited elevated PiB uptake, but despite this, only the hippocampus showed reduced glucose metabolism. Similarly, atrophy was not observed in the caudate and pallidum despite marked amyloid accumulation. Finally, before hypometabolism, a hypermetabolic phase was identified for some cortical regions, including the precuneus and posterior cingulate. Additional analyses of individuals in which longitudinal data were available suggested that an accelerated appearance of volumetric declines approximately coincides with the onset of the symptomatic phase of the disease.

Published
2013

16. Amyloid-β oligomerization in Alzheimer dementia versus high-pathology controls.

Author

Esparza TJ, Zhao H, Cirrito JR, Cairns NJ, Bateman RJ, Holtzman DM, Brody DL, Esparza, Thomas J, Zhao, Hanzhi, Cirrito, John R, Cairns, Nigel J, Bateman, Randall J, Holtzman, David M, and Brody, David L

Abstract

Objective: Although amyloid-beta (Aβ) peptide deposition into insoluble plaques is a pathological hallmark of Alzheimer disease; soluble oligomeric Aβ has been hypothesized to more directly underlie impaired learning and memory in dementia of the Alzheimer type. However, the lack of a sensitive, specific, and quantitative assay for Aβ oligomers has hampered rigorous tests of this hypothesis.Methods: We developed a plate-based single molecule counting fluorescence immunoassay for oligomeric Aβ sensitive to low pg/ml concentrations of synthetic Aβ dimers using the same Aβ-specific monoclonal antibody to both capture and detect Aβ. The Aβ oligomer assay does not recognize monomeric Aβ, amyloid precursor protein, or other non-Aβ peptide oligomers.Results: Aβ oligomers were detected in aqueous cortical lysates from patients with dementia of the Alzheimer type and nondemented patients with Aβ plaque pathology. However, Aβ oligomer concentrations in demented patients' lysates were tightly correlated with Aβ plaque coverage (r = 0.88), but this relationship was weaker in those from nondemented patients (r = 0.30) despite equivalent Aβ plaque pathology. The ratio of Aβ oligomer levels to plaque density fully distinguished demented from nondemented patients, with no overlap between groups in this derived variable. Other Aβ and plaque measures did not distinguish demented from nondemented patients. Aβ oligomers were not detected in cerebrospinal fluid with this assay.Interpretation: The results raise the intriguing hypothesis that the linkage between plaques and oligomers may be a key pathophysiological event underlying dementia of the Alzheimer type. This Aβ oligomer assay may be useful for many tests of the oligomer hypothesis. [ABSTRACT FROM AUTHOR]

Published
2013
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18. Apolipoprotein E4 effects in Alzheimer's disease are mediated by synaptotoxic oligomeric amyloid-β.

Author

Koffie RM, Hashimoto T, Tai HC, Kay KR, Serrano-Pozo A, Joyner D, Hou S, Kopeikina KJ, Frosch MP, Lee VM, Holtzman DM, Hyman BT, Spires-Jones TL, Koffie, Robert M, Hashimoto, Tadafumi, Tai, Hwan-Ching, Kay, Kevin R, Serrano-Pozo, Alberto, Joyner, Daniel, and Hou, Steven

Abstract

The apolipoprotein E ε4 gene is the most important genetic risk factor for sporadic Alzheimer's disease, but the link between this gene and neurodegeneration remains unclear. Using array tomography, we analysed >50000 synapses in brains of 11 patients with Alzheimer's disease and five non-demented control subjects and found that synapse loss around senile plaques in Alzheimer's disease correlates with the burden of oligomeric amyloid-β in the neuropil and that this synaptotoxic oligomerized peptide is present at a subset of synapses. Further analysis reveals apolipoprotein E ε4 patients with Alzheimer's disease have significantly higher oligomeric amyloid-β burden and exacerbated synapse loss around plaques compared with apolipoprotein E ε3 patients. Apolipoprotein E4 protein colocalizes with oligomeric amyloid-β and enhances synaptic localization of oligomeric amyloid-β by >5-fold. Biochemical characterization shows that the amyloid-β enriched at synapses by apolipoprotein E4 includes sodium dodecyl sulphate-stable dimers and trimers. In mouse primary neuronal culture, lipidated apolipoprotein E4 enhances oligomeric amyloid-β association with synapses via a mechanism involving apolipoprotein E receptors. Together, these data suggest that apolipoprotein E4 is a co-factor that enhances the toxicity of oligomeric amyloid-β both by increasing its levels and directing it to synapses, providing a link between apolipoprotein E ε4 genotype and synapse loss, a major correlate of cognitive decline in Alzheimer's disease. [ABSTRACT FROM AUTHOR]

Published
2012
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20. Amyloid-β(1-15/16) as a marker for γ-secretase inhibition in Alzheimer's disease.

Author

Portelius E, Zetterberg H, Dean RA, Marcil A, Bourgeois P, Nutu M, Andreasson U, Siemers E, Mawuenyega KG, Sigurdson WC, May PC, Paul SM, Holtzman DM, Blennow K, Bateman RJ, Portelius, Erik, Zetterberg, Henrik, Dean, Robert A, Marcil, Alexandre, and Bourgeois, Philippe

Abstract

Amyloid-β (Aβ) producing enzymes are key targets for disease-modifying Alzheimer's disease (AD) therapies since Aβ trafficking is at the core of AD pathogenesis. Development of such drugs might benefit from the identification of markers indicating in vivo drug effects in the central nervous system. We have previously shown that Aβ(1-15) is produced by concerted β-and α-secretase cleavage of amyloid-β protein precursor (AβPP). Here, we test the hypothesis that this pathway is more engaged upon γ-secretase inhibition in humans, and cerebrospinal fluid (CSF) levels of Aβ(1-15/16) represent a biomarker for this effect. Twenty healthy men were treated with placebo (n = 5) or the γ-secretase inhibitor semagacestat (100 mg [n = 5], 140 mg [n = 5], or 280 mg [n = 5]). CSF samples were collected hourly over 36 hours and 10 time points were analyzed by immunoassay for Aβ(1-15/16), Aβ(x-38), Aβ(x-40), Aβ(x-42), sAβPPα, and sAβPPβ. The CSF concentration of Aβ(1-15/16) showed a dose-dependent response over 36 hours. In the 280 mg treatment group, a transient increase was seen with a maximum of 180% relative to baseline at 9 hours post administration of semagacestat. The concentrations of Aβ(x-38), Aβ(x-40), and Aβ(x-42) decreased the first 9 hours followed by increased concentrations after 36 hours relative to baseline. No significant changes were detected for CSF sAβPPα and sAβPPβ. Our data shows that CSF levels of Aβ(1-15/16) increase during treatment with semagacestat supporting its feasibility as a pharmacodynamic biomarker for drug candidates aimed at inhibiting γ-secretase-mediated AβPP-processing. [ABSTRACT FROM AUTHOR]

Published
2012
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21. Alternative processing of γ-secretase substrates in common forms of mild cognitive impairment and Alzheimer's disease: evidence for γ-secretase dysfunction.

Author

Hata S, Fujishige S, Araki Y, Taniguchi M, Urakami K, Peskind E, Akatsu H, Araseki M, Yamamoto K, Martins RN, Maeda M, Nishimura M, Levey A, Chung KA, Montine T, Leverenz J, Fagan A, Goate A, Bateman R, and Holtzman DM

Subjects
ALZHEIMER'S disease, COGNITION disorders, MASS spectrometry, PEPTIDES, PROTEIN precursors, PROTEOLYTIC enzymes, RESEARCH funding, PRECIPITIN tests, DISEASE complications
Abstract

Objective: The most common pathogenesis for familial Alzheimer's disease (FAD) involves misprocessing (or alternative processing) of the amyloid precursor protein (APP) by γ-secretase due to mutations of the presenilin 1 (PS1) gene. This misprocessing/alternative processing leads to an increase in the ratio of the level of a minor γ-secretase reaction product (Aβ42) to that of the major reaction product (Aβ40). Although no PS1 mutations are present, altered Aβ42/40 ratios are also observed in sporadic Alzheimer's disease (SAD), and these altered ratios apparently reflect deposition of Aβ42 as amyloid.Methods: Using immunoprecipitation-mass spectrometry with quantitative accuracy, we analyzed in the cerebrospinal fluid (CSF) of various clinical populations the peptide products generated by processing of not only APP but also an unrelated protein, alcadein (Alc). Alc undergoes metabolism by the identical APP α-secretases and γ-secretases, yielding a fragment that we have named p3-Alc(α) because of the parallel genesis of p3-Alc(α) peptides and the p3 fragment of APP. As with Aβ, both major and minor p3-Alc(α) s are generated. We studied the alternative processing of p3-Alc(α) in various clinical populations.Results: We previously reported that changes in the Aβ42/40 ratio showed covariance in a linear relationship with the levels of p3-Alc(α) [minor/major] ratio in media conditioned by cells expressing FAD-linked PS1 mutants. Here we studied the speciation of p3-Alc(α) in the CSF from 3 groups of human subjects (n = 158): elderly nondemented control subjects; mild cognitive impairment (MCI) subjects with a clinical dementia rating (CDR) of 0.5; SAD subjects with CDR of 1.0; and other neurological disease (OND) control subjects. The CSF minor p3-Alc(α) variant, p3-Alc(α) 38, was elevated (p < 0.05) in MCI subjects or SAD subjects, depending upon whether the data were pooled and analyzed as a single cohort or analyzed individually as 3 separate cohorts.Interpretation: These results suggest that some SAD may involve alternative processing of multiple γ-secretase substrates, raising the possibility that the molecular pathogenesis of SAD might involve γ-secretase dysfunction. [ABSTRACT FROM AUTHOR]

Published
2011
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23. Relationship of dementia screening tests with biomarkers of Alzheimer's disease.

Author

Galvin JE, Fagan AM, Holtzman DM, Mintun MA, Morris JC, Galvin, James E, Fagan, Anne M, Holtzman, David M, Mintun, Mark A, and Morris, John C

Abstract

Screening tests for Alzheimer's disease lack sensitivity and specificity. We developed the AD8, a brief dementia screening interview validated against clinical and cognitive evaluations, as an improvement over current screening methods. Because insufficient follow-up has occurred to validate the AD8 against the neuropathologic findings of Alzheimer's disease, we investigated whether AD8 scores correspond to impairment in episodic memory testing and changes in biomarkers of Alzheimer's disease (cerebrospinal fluid and amyloid imaging with Pittsburgh compound B) characteristic of symptomatic Alzheimer's disease. We also compared informant-based assessments with brief performance-based dementia screening measurements such as the Mini Mental State Exam. The sample (n = 257) had a mean age of 75.4 years with 15.1 years of education; 88.7% were Caucasian and 45.5% were male. The sample was divided into two groups based on their AD8 scores: those with a negative dementia screening test (AD8 score 0 or 1, n = 137) and those with a positive dementia screening test (AD8 score ≥2, n = 120). Individuals with positive AD8 scores had abnormal Pittsburgh compound B binding (P < 0.001) and cerebrospinal fluid biomarkers (P < 0.001) compared with individuals with negative AD8 scores. Individuals with positive AD8 tests and positive biomarkers scored in the impaired range on the Wechsler Logical Memory Story A (mean score 7.0 ± 4.5 for Pittsburgh compound B; mean score 7.6 ± 5.3 for cerebrospinal fluid amyloid beta protein 1-42). The AD8 area under the curve for Pittsburgh compound B was 0.737 (95% confidence interval: 0.64-0.83) and for cerebrospinal fluid amyloid beta protein 1-42 was 0.685 (95% confidence interval: 0.60-0.77) suggesting good discrimination. The AD8 had superior sensitivity in detecting early stages of dementia compared with the Mini Mental State Examination. The AD8 had a likelihood ratio of a positive test of 5.8 (95% confidence interval: 5.4-6.3) and likelihood ratio of a negative test of 0.04 (95% confidence interval: 0.03-0.06), increasing the pre-test probability of an individual having symptomatic Alzheimer's disease. Individuals with AD8 scores of ≥2 had a biomarker phenotype consistent with Alzheimer's disease and lower performance on episodic memory tests, supporting a diagnosis of Alzheimer's disease. Informant-based assessments may be superior to performance-based screening measures such as the Mini Mental State Examination in corresponding to underlying Alzheimer's disease pathology, particularly at the earliest stages of decline. The use of a brief test such as the AD8 may improve strategies for detecting dementia in community settings where biomarkers may not be readily available, and may enrich clinical trial recruitment by increasing the likelihood that participants have underlying biomarker abnormalities. [ABSTRACT FROM AUTHOR]

Published
2010
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26. A gamma-secretase inhibitor decreases amyloid-beta production in the central nervous system.

Author

Bateman RJ, Siemers ER, Mawuenyega KG, Wen G, Browning KR, Sigurdson WC, Yarasheski KE, Friedrich SW, Demattos RB, May PC, Paul SM, Holtzman DM, Bateman, Randall J, Siemers, Eric R, Mawuenyega, Kwasi G, Wen, Guolin, Browning, Karen R, Sigurdson, Wendy C, Yarasheski, Kevin E, and Friedrich, Stuart W

Abstract

Objective: Accumulation of amyloid-beta (Abeta) by overproduction or underclearance in the central nervous system (CNS) is hypothesized to be a necessary event in the pathogenesis of Alzheimer's disease. However, previously, there has not been a method to determine drug effects on Abeta production or clearance in the human CNS. The objective of this study was to determine the effects of a gamma-secretase inhibitor on the production of Abeta in the human CNS.Methods: We utilized a recently developed method of stable-isotope labeling combined with cerebrospinal fluid sampling to directly measure Abeta production during treatment of a gamma-secretase inhibitor, LY450139. We assessed whether this drug could decrease CNS Abeta production in healthy men (age range, 21-50 years) at single oral doses of 100, 140, or 280mg (n = 5 per group).Results: LY450139 significantly decreased the production of CNS Abeta in a dose-dependent fashion, with inhibition of Abeta generation of 47, 52, and 84% over a 12-hour period with doses of 100, 140, and 280mg, respectively. There was no difference in Abeta clearance.Interpretation: Stable isotope labeling of CNS proteins can be utilized to assess the effects of drugs on the production and clearance rates of proteins targeted as potential disease-modifying treatments for Alzheimer's disease and other CNS disorders. Results from this approach can assist in making decisions about drug dosing and frequency in the design of larger and longer clinical trials for diseases such as Alzheimer's disease, and may accelerate effective drug validation. Ann Neurol 2009. [ABSTRACT FROM AUTHOR]

Published
2009
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27. Caffeine suppresses amyloid-beta levels in plasma and brain of Alzheimer's disease transgenic mice.

Author

Cao C, Cirrito JR, Lin X, Wang L, Verges DK, Dickson A, Mamcarz M, Zhang C, Mori T, Arendash GW, Holtzman DM, Potter H, Cao, Chuanhai, Cirrito, John R, Lin, Xiaoyang, Wang, Li, Wang, Lilly, Verges, Deborah K, Dickson, Alexander, and Mamcarz, Malgorzata

Abstract

Recent epidemiologic studies suggest that caffeine may be protective against Alzheimer's disease (AD). Supportive of this premise, our previous studies have shown that moderate caffeine administration protects/restores cognitive function and suppresses brain amyloid-beta (Abeta) production in AD transgenic mice. In the present study, we report that acute caffeine administration to both young adult and aged AD transgenic mice rapidly reduces Abeta levels in both brain interstitial fluid and plasma without affecting Abeta elimination. Long-term oral caffeine treatment to aged AD mice provided not only sustained reductions in plasma Abeta, but also decreases in both soluble and deposited Abeta in hippocampus and cortex. Irrespective of caffeine treatment, plasma Abeta levels did not correlate with brain Abeta levels or with cognitive performance in individual aged AD mice. Although higher plasma caffeine levels were strongly associated with lower plasma Abeta1-40 levels in aged AD mice, plasma caffeine levels were also not linked to cognitive performance. Plasma caffeine and theophylline levels were tightly correlated, both being associated with reduced inflammatory cytokine levels in hippocampus. Our conclusion is two-fold: first, that both plasma and brain Abeta levels are reduced by acute or chronic caffeine administration in several AD transgenic lines and ages, indicating a therapeutic value of caffeine against AD; and second, that plasma Abeta levels are not an accurate index of brain Abeta levels/deposition or cognitive performance in aged AD mice. [ABSTRACT FROM AUTHOR]

Published
2009
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28. Decreased cerebrospinal fluid Abeta(42) correlates with brain atrophy in cognitively normal elderly.

Author

Fagan AM, Head D, Shah AR, Marcus D, Mintun M, Morris JC, Holtzman DM, Fagan, Anne M, Head, Denise, Shah, Aarti R, Marcus, Daniel, Mintun, Mark, Morris, John C, and Holtzman, David M

Abstract

Objective: For therapies for Alzheimer's disease (AD) to have the greatest impact, it will likely be necessary to treat individuals in the "preclinical" (presymptomatic) stage. Fluid and neuroimaging measures are being explored as possible biomarkers of AD pathology that could aid in identifying individuals in this stage to target them for clinical trials and to direct and monitor therapy. The objective of this study was to determine whether cerebrospinal fluid (CSF) biomarkers for AD suggest the presence of brain damage in the preclinical stage of AD.Methods: We investigated the relation between structural neuroimaging measures (whole-brain volume) and levels of CSF amyloid-beta (Abeta)(40), Abeta(42), tau, and phosphorylated tau(181) (ptau(181)), and plasma Abeta(40) and Abeta(42) in well-characterized research subjects with very mild and mild dementia of the Alzheimer type (n = 29) and age-matched, cognitively normal control subjects (n = 69).Results: Levels of CSF tau and ptau(181), but not Abeta(42), correlated inversely with whole-brain volume in very mild and mild dementia of the Alzheimer type, whereas levels of CSF Abeta(42), but not tau or ptau(181), were positively correlated with whole-brain volume in nondemented control subjects.Interpretation: Reduction in CSF Abeta(42), likely reflecting Abeta aggregation in the brain, is associated with brain atrophy in the preclinical phase of AD. This suggests that there is toxicity associated with Abeta aggregation before the onset of clinically detectable disease. Increases in CSF tau (and ptau(181)) are later events that correlate with further structural damage and occur with clinical onset and progression. [ABSTRACT FROM AUTHOR]

Published
2009
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30. Extreme cerebrospinal fluid amyloid beta levels identify family with late-onset Alzheimer's disease presenilin 1 mutation.

Author

Kauwe JS, Jacquart S, Chakraverty S, Wang J, Mayo K, Fagan AM, Holtzman DM, Morris JC, Goate AM, Kauwe, John S K, Jacquart, Sarah, Chakraverty, Sumi, Wang, Jun, Mayo, Kevin, Fagan, Anne M, Holtzman, David M, Morris, John C, and Goate, Alison M

Abstract

Objective: Aggregation and deposition of amyloid beta (Abeta) in the brain is thought to be central to the pathogenesis of Alzheimer's disease (AD). Recent studies suggest that cerebrospinal fluid (CSF) Abeta levels are strongly correlated with AD status and progression, and may be a meaningful endophenotype for AD. Mutations in presenilin 1 (PSEN1) are known to cause AD and change Abeta levels. In this study, we have investigated DNA sequence variation in the presenilin (PSEN1) gene using CSF Abeta levels as an endophenotype for AD.Methods: We sequenced the exons and flanking intronic regions of PSEN1 in clinically characterized research subjects with extreme values of CSF Abeta levels.Results: This novel approach led directly to the identification of a disease-causing mutation in a family with late-onset AD.Interpretation: This finding suggests that CSF Abeta may be a useful endophenotype for genetic studies of AD. Our results also suggest that PSEN1 mutations can cause AD with a large range in age of onset, spanning both early- and late-onset AD. [ABSTRACT FROM AUTHOR]

Published
2007
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38. Failure in a population: Tauopathy disrupts homeostatic set-points in emergent dynamics despite stability in the constituent neurons.

Author

McGregor JN, Farris CA, Ensley S, Schneider A, Fosque LJ, Wang C, Tilden EI, Liu Y, Tu J, Elmore H, Ronayne KD, Wessel R, Dyer EL, Bhaskaran-Nair K, Holtzman DM, and Hengen KB

Subjects
Animals, Mice, Mice, Transgenic, tau Proteins metabolism, tau Proteins genetics, Disease Models, Animal, Male, Action Potentials physiology, Models, Neurological, Tauopathies pathology, Tauopathies genetics, Tauopathies physiopathology, Neurons metabolism, Neurons physiology, Homeostasis physiology, Hippocampus pathology
Abstract

Homeostatic regulation of neuronal activity is essential for robust computation; set-points, such as firing rate, are actively stabilized to compensate for perturbations. The disruption of brain function central to neurodegenerative disease likely arises from impairments of computationally essential set-points. Here, we systematically investigated the effects of tau-mediated neurodegeneration on all known set-points in neuronal activity. We continuously tracked hippocampal neuronal activity across the lifetime of a mouse model of tauopathy. We were unable to detect effects of disease in measures of single-neuron firing activity. By contrast, as tauopathy progressed, there was disruption of network-level neuronal activity, quantified by measuring neuronal pairwise interactions and criticality, a homeostatically controlled, ideal computational regime. Deviations in criticality correlated with symptoms, predicted underlying anatomical pathology, occurred in a sleep-wake-dependent manner, and could be used to reliably classify an animal's genotype. This work illustrates how neurodegeneration may disrupt the computational capacity of neurobiological systems., Competing Interests: Declaration of interests D.M.H. is on the scientific advisory board of C2N diagnostics and has equity. D.M.H. is on the scientific advisory board of Denali Therapeutics, Genentech, and Cajal Therapeutics and consults for Asteroid Therapeutics., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2024
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39. A cell-autonomous role for border-associated macrophages in ApoE4 neurovascular dysfunction and susceptibility to white matter injury.

Author

Anfray A, Schaeffer S, Hattori Y, Santisteban MM, Casey N, Wang G, Strickland M, Zhou P, Holtzman DM, Anrather J, Park L, and Iadecola C

Subjects
Animals, Mice, Humans, Apolipoprotein E3 genetics, Apolipoprotein E3 metabolism, Male, Mice, Inbred C57BL, Apolipoprotein E4 genetics, Apolipoprotein E4 metabolism, Macrophages metabolism, White Matter pathology, White Matter metabolism, Mice, Transgenic
Abstract

Apolipoprotein E4 (ApoE4), the strongest genetic risk factor for sporadic Alzheimer's disease, is also a risk factor for microvascular pathologies leading to cognitive impairment, particularly subcortical white matter injury. These effects have been attributed to alterations in the regulation of the brain blood supply, but the cellular source of ApoE4 and the underlying mechanisms remain unclear. In mice expressing human ApoE3 or ApoE4, we report that border-associated macrophages (BAMs), myeloid cells closely apposed to neocortical microvessels, are both sources and effectors of ApoE4 mediating the neurovascular dysfunction through reactive oxygen species. ApoE4 in BAMs is solely responsible for the increased susceptibility to oligemic white matter damage in ApoE4 mice and is sufficient to enhance damage in ApoE3 mice. The data unveil a new aspect of BAM pathobiology and highlight a previously unrecognized cell-autonomous role of BAM in the neurovascular dysfunction of ApoE4 with potential therapeutic implications., (© 2024. The Author(s), under exclusive licence to Springer Nature America, Inc.)

Published
2024
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40. Current insights into apolipoprotein E and the immune response in Alzheimer's disease.

Author

Lin PB and Holtzman DM

Abstract

Alzheimer's disease (AD) is a progressive neurological disorder and the most common cause of dementia. Genetic analyses identified apolipoprotein E (APOE) as the strongest genetic risk for late-onset AD. Studies have shown that ApoE modulates AD pathogenesis in part by influencing amyloid-β (Aβ) deposition. However, ApoE also appears to regulate elements of AD via regulation of innate immune response, especially through microglial and astrocyte activation. In model systems, it also regulates changes in T-cells. This review focuses on the key findings that have advanced our understanding of the role of ApoE in the pathogenesis of AD and the current view of innate immune response regulated by ApoE in AD, while discussing open questions and areas for future research., (© 2024 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published
2024
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42. Symposium: What Does the Microbiome Tell Us about Prevention and Treatment of AD/ADRD?

Author

Capocchi JK, Figueroa-Romero C, Dunham SJB, Faraci G, Rothman JA, Whiteson KL, Seo DO, Holtzman DM, Grabrucker S, Nolan YM, Kaddurah-Daouk R, and Jett DA

Subjects
Humans, Animals, Brain-Gut Axis physiology, Dementia prevention & control, Dementia microbiology, Brain microbiology, Alzheimer Disease microbiology, Alzheimer Disease prevention & control, Alzheimer Disease therapy, Gastrointestinal Microbiome physiology
Abstract

Alzheimer's disease (AD) and Alzheimer's disease-related dementias (ADRDs) are broad-impact multifactorial neurodegenerative diseases. Their complexity presents unique challenges for developing effective therapies. This review highlights research presented at the 2024 Society for Neuroscience meeting which emphasized the gut microbiome's role in AD pathogenesis by influencing brain function and neurodegeneration through the microbiota-gut-brain axis. This emerging evidence underscores the potential for targeting the gut microbiota to treat AD/ADRD., Competing Interests: The authors declare no competing financial interests. R.K.-D. is an inventor on key patents in the metabolomics field and holds equity in Metabolon and Chymia., (Copyright © 2024 the authors.)

Published
2024
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44. New insights into innate immunity in Alzheimer's disease: from APOE protective variants to therapies.

Author

Chen Y and Holtzman DM

Subjects
Humans, Animals, Apolipoproteins E genetics, Mice, Disease Models, Animal, Alzheimer Disease immunology, Alzheimer Disease therapy, Immunity, Innate
Abstract

Recent discoveries of rare variants of human APOE may shed light on novel therapeutic strategies for Alzheimer's disease (AD). Here, we highlight the newly identified protective variant [APOE3 Christchurch (APOE3ch, R136S)] as an example. We summarize human AD and mouse amyloidosis and tauopathy studies from the past 5 years that have been associated with this R136S variant. We also propose a potential mechanism for how this point mutation might lead to protection against AD pathology, from the molecular level, to cells, to mouse models, and potentially, to humans. Lastly, we extend our discussion of the recent insights gained regarding different APOE variants to putative therapeutic approaches in AD., Competing Interests: Declaration of interests D.M.H. co-founded, and is on the scientific advisory board of, C2N Diagnostics. D.M.H. is on the scientific advisory board of Denali, Genentech, and Cajal Neuroscience and consults for Asteroid. D.M.H. has a patent on the use of anti-ApoE antibodies, which is licensed by Washington University to NextCure., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published
2024
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45. Insufficient evidence for an association between iatrogenic Alzheimer's disease and cadaveric pituitary-derived growth hormone.

Author

Nath A, Holtzman DM, Miller BL, Grinberg LT, and Leschek EW

Subjects
Humans, Cadaver, Aged, Female, Male, Creutzfeldt-Jakob Syndrome, Middle Aged, Evidence Gaps, Alzheimer Disease, Human Growth Hormone metabolism, Iatrogenic Disease
Abstract

A Nature Medicine paper published in January 2024 describes eight cases of iatrogenic Alzheimer's disease in individuals who received cadaveric pituitary-derived human growth hormone. The paper's conclusions argue for the transmissibility of Alzheimer's disease, which, if true, would create a significant public health crisis. For example, neurosurgical practices would require substantial revision, and many individuals who have undergone neurosurgical procedures would now be at considerable risk of Alzheimer's disease. A detailed review of the presented cases reveals that they do not have Alzheimer's disease, and there are alternative explanations for the cognitive decline described. In people with progressive cognitive decline, the diagnosis of Alzheimer's disease requires a demonstration of amyloid and tau pathology or amyloid and tau biomarkers. Extensive tau pathology is not demonstrated, and some also lack amyloid beta pathology. The cases described in this paper do not meet the criteria for dementia due to Alzheimer's disease by clinical and pathological standards. HIGHLIGHTS: Creutzfeldt-Jakob disease has been transmitted by cadaveric growth hormone. There is no evidence for the transmission of Alzheimer's disease by cadaveric growth hormone. There is no evidence that Alzheimer's disease is transmissible., (Published 2024. This article is a U.S. Government work and is in the public domain in the USA. Alzheimer's & Dementia published by Wiley Periodicals LLC on behalf of Alzheimer's Association.)

Published
2024
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46. Alzheimer's disease-linked risk alleles elevate microglial cGAS-associated senescence and neurodegeneration in a tauopathy model.

Author

Carling GK, Fan L, Foxe NR, Norman K, Wong MY, Zhu D, Corona C, Razzoli A, Yu F, Yarahmady A, Ye P, Chen H, Huang Y, Amin S, Sereda R, Lopez-Lee C, Zacharioudakis E, Chen X, Xu J, Cheng F, Gavathiotis E, Cuervo AM, Holtzman DM, Mok SA, Sinha SC, Sidoli S, Ratan RR, Luo W, Gong S, and Gan L

Abstract

The strongest risk factors for late-onset sporadic Alzheimer's disease (AD) include the ε4 allele of apolipoprotein E (APOE), the R47H variant of triggering receptor expressed on myeloid cells 2 (TREM2), and female sex. Here, we combine APOE4 and TREM2 R47H (R47H) in female P301S tauopathy mice to identify the pathways activated when AD risk is the strongest, thereby highlighting detrimental disease mechanisms. We find that R47H induces neurodegeneration in 9- to 10-month-old female APOE4 tauopathy mice. The combination of APOE4 and R47H (APOE4-R47H) worsened hyperphosphorylated tau pathology in the frontal cortex and amplified tauopathy-induced microglial cyclic guanosine monophosphate (GMP)-AMP synthase (cGAS)-stimulator of interferon genes (STING) signaling and downstream interferon response. APOE4-R47H microglia displayed cGAS- and BAX-dependent upregulation of senescence, showing association between neurotoxic signatures and implicating mitochondrial permeabilization in pathogenesis. By uncovering pathways enhanced by the strongest AD risk factors, our study points to cGAS-STING signaling and associated microglial senescence as potential drivers of AD risk., Competing Interests: Declaration of interests L.G. is founder and equity holder of Aeton Therapeutics, Inc. S.C.S. is an equity holder and a consultant of Aeton Therapeutics, Inc. L.G. is scientific co-founder of Neurovanda and consults for Retro Biosciences. D.M.H. is an inventor on a patent licensed by Washington University to C2N Diagnostics on the therapeutic use of anti-tau antibodies. D.M.H. co-founded and is on the scientific advisory board of C2N Diagnostics. D.M.H. is on the scientific advisory board of Denali, Genentech, and Cajal Neuroscience and consults for Asteroid., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2024
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47. Author Correction: Loss of TREM2 function increases amyloid seeding but reduces plaque-associated ApoE.

Author

Parhizkar S, Arzberger T, Brendel M, Kleinberger G, Deussing M, Focke C, Nuscher B, Xiong M, Ghasemigharagoz A, Katzmarski N, Krasemann S, Lichtenthaler SF, Müller SA, Colombo A, Monasor LS, Tahirovic S, Herms J, Willem M, Pettkus N, Butovsky O, Bartenstein P, Edbauer D, Rominger A, Ertürk A, Grathwohl SA, Neher JJ, Holtzman DM, Meyer-Luehmann M, and Haass C

Published
2024
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48. Plasma Phosphorylated Tau 217 and Aβ42/40 to Predict Early Brain Aβ Accumulation in People Without Cognitive Impairment.

Author

Janelidze S, Barthélemy NR, Salvadó G, Schindler SE, Palmqvist S, Mattsson-Carlgren N, Braunstein JB, Ovod V, Bollinger JG, He Y, Li Y, Raji CA, Morris JC, Holtzman DM, Ashton NJ, Blennow K, Stomrud E, Bateman RJ, and Hansson O

Subjects
Humans, Female, Male, Aged, Longitudinal Studies, Middle Aged, Phosphorylation, Aged, 80 and over, Cognitive Dysfunction blood, Amyloid beta-Peptides blood, Amyloid beta-Peptides metabolism, tau Proteins blood, Biomarkers blood, Peptide Fragments blood, Peptide Fragments cerebrospinal fluid, Brain diagnostic imaging, Brain metabolism, Positron-Emission Tomography
Abstract

Importance: Phase 3 trials of successful antiamyloid therapies in Alzheimer disease (AD) have demonstrated improved clinical efficacy in people with less severe disease. Plasma biomarkers will be essential for efficient screening of participants in future primary prevention clinical trials testing antiamyloid therapies in cognitively unimpaired (CU) individuals with initially low brain β-amyloid (Aβ) levels who are at high risk of accumulating Aβ., Objective: To investigate if combining plasma biomarkers could be useful in predicting subsequent development of Aβ pathology in CU individuals with subthreshold brain Aβ levels (defined as Aβ levels <40 Centiloids) at baseline., Design, Setting, and Participants: This was a longitudinal study including Swedish BioFINDER-2 (enrollment 2017-2022) and replication in 2 independent cohorts, the Knight Alzheimer Disease Research Center (Knight ADRC; enrollment 1988 and 2019) and Swedish BioFINDER-1 (enrollment 2009-2015). Included for analysis was a convenience sample of CU individuals with baseline plasma phosphorylated tau 217 (p-tau217) and Aβ42/40 assessments and Aβ assessments with positron emission tomography (Aβ-PET) or cerebrospinal fluid (CSF) Aβ42/40. Data were analyzed between April 2023 and May 2024., Exposures: Baseline plasma levels of Aβ42/40, p-tau217, the ratio of p-tau217 to nonphosphorylated tau (%p-tau217), p-tau231, and glial fibrillary acidic protein (GFAP)., Main Outcomes and Measures: Cross-sectional and longitudinal PET and CSF measures of brain Aβ pathology., Results: This study included 495 (BioFINDER-2), 283 (Knight ADRC), and 205 (BioFINDER-1) CU participants. In BioFINDER-2, the mean (SD) age was 65.7 (14.4) with 261 females (52.7%). When detecting abnormal CSF Aβ-status, a combination of plasma %p-tau217 and Aβ42/40 showed better performance (area under the curve = 0.949; 95% CI, 0.929-0.970; P <.02) than individual biomarkers. In CU participants with subthreshold baseline Aβ-PET, baseline plasma %p-tau217 and Aβ42/40 levels were significantly associated with baseline Aβ-PET (n = 384) and increases in Aβ-PET over time (n = 224). Associations of plasma %p-tau217 and Aβ42/40 and their interaction with baseline Aβ-PET (%p-tau217: β = 2.77; 95% CI, 1.84-3.70; Aβ42/40: β = -1.64; 95% CI, -2.53 to -0.75; %p-tau217 × Aβ42/40: β = -2.14; 95% CI, -2.79 to -1.49; P < .001) and longitudinal Aβ-PET (%p-tau217: β = 0.67; 95% CI, 0.48-0.87; Aβ42/40: β = -0.33; 95% CI, -0.51 to -0.15; %p-tau217 × Aβ42/40: β = -0.31; 95% CI, -0.44 to -0.18; P < .001) were also significant in the models combining the 2 baseline biomarkers as predictors. Similarly, baseline plasma p-tau217 and Aβ42/40 were independently associated with longitudinal Aβ-PET in Knight ADRC (%p-tau217: β = 0.71; 95% CI, 0.26-1.16; P = .002; Aβ42/40: β = -0.74; 95% CI, -1.26 to -0.22; P = .006) and longitudinal CSF Aβ42/40 in BioFINDER-1 (p-tau217: β = -0.0003; 95% CI, -0.0004 to -0.0001; P = .01; Aβ42/40: β = 0.0004; 95% CI, 0.0002-0.0006; P < .001) in CU participants with subthreshold Aβ levels at baseline. Plasma p-tau231 and GFAP did not provide any clear independent value., Conclusions and Relevance: Results of this cohort study suggest that combining plasma p-tau217and Aβ42/40 levels could be useful for predicting development of Aβ pathology in people with early stages of subthreshold Aβ accumulation. These biomarkers might thus facilitate screening of participants for future primary prevention trials.

Published
2024
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49. Unexpected Low Rate of Amyloid-β Pathology in Multiple Sclerosis Patients.

Author

Brier MR, Schindler SE, Salter A, Perantie D, Shelley N, Judge B, Keefe S, Kirmess KM, Verghese PB, Yarasheski KE, Venkatesh V, Raji CA, Gordon BA, Bateman RJ, Morris JC, Naismith RT, Holtzman DM, Benzinger TLS, and Cross AH

Subjects
Humans, Female, Male, Middle Aged, Adult, Alzheimer Disease pathology, Alzheimer Disease metabolism, Alzheimer Disease blood, Biomarkers blood, Aged, Amyloid beta-Peptides metabolism, Amyloid beta-Peptides blood, Multiple Sclerosis pathology, Multiple Sclerosis blood
Abstract

The life expectancy of people with multiple sclerosis (MS) has increased, yet we have noted that development of a typical Alzheimer disease dementia syndrome is uncommon. We hypothesized that Alzheimer disease pathology is uncommon in MS patients. In 100 MS patients, the rate of amyloid-β plasma biomarker positivity was approximately half the rate in 300 non-MS controls matched on age, sex, apolipoprotein E proteotype, and cognitive status. Interestingly, most MS patients who did have amyloid-β pathology had features atypical for MS at diagnosis. These results support that MS is associated with reduced Alzheimer disease risk, and suggest new avenues of research. ANN NEUROL 2024;96:453-459., (© 2024 American Neurological Association.)

Published
2024
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50. Advancements in APOE and dementia research: Highlights from the 2023 AAIC Advancements: APOE conference.

Author

Kloske CM, Belloy ME, Blue EE, Bowman GR, Carrillo MC, Chen X, Chiba-Falek O, Davis AA, Paolo GD, Garretti F, Gate D, Golden LR, Heinecke JW, Herz J, Huang Y, Iadecola C, Johnson LA, Kanekiyo T, Karch CM, Khvorova A, Koppes-den Hertog SJ, Lamb BT, Lawler PE, Guen YL, Litvinchuk A, Liu CC, Mahinrad S, Marcora E, Marino C, Michaelson DM, Miller JJ, Morganti JM, Narayan PS, Naslavsky MS, Oosthoek M, Ramachandran KV, Ramakrishnan A, Raulin AC, Robert A, Saleh RNM, Sexton C, Shah N, Shue F, Sible IJ, Soranno A, Strickland MR, Tcw J, Thierry M, Tsai LH, Tuckey RA, Ulrich JD, van der Kant R, Wang N, Wellington CL, Weninger SC, Yassine HN, Zhao N, Bu G, Goate AM, and Holtzman DM

Subjects
Humans, Congresses as Topic, Animals, Amyloid beta-Peptides metabolism, Dementia genetics, Dementia metabolism, Biomedical Research, Apolipoproteins E genetics, Apolipoproteins E metabolism, Alzheimer Disease genetics, Alzheimer Disease metabolism
Abstract

Introduction: The apolipoprotein E gene (APOE) is an established central player in the pathogenesis of Alzheimer's disease (AD), with distinct apoE isoforms exerting diverse effects. apoE influences not only amyloid-beta and tau pathologies but also lipid and energy metabolism, neuroinflammation, cerebral vascular health, and sex-dependent disease manifestations. Furthermore, ancestral background may significantly impact the link between APOE and AD, underscoring the need for more inclusive research., Methods: In 2023, the Alzheimer's Association convened multidisciplinary researchers at the "AAIC Advancements: APOE" conference to discuss various topics, including apoE isoforms and their roles in AD pathogenesis, progress in apoE-targeted therapeutic strategies, updates on disease models and interventions that modulate apoE expression and function., Results: This manuscript presents highlights from the conference and provides an overview of opportunities for further research in the field., Discussion: Understanding apoE's multifaceted roles in AD pathogenesis will help develop targeted interventions for AD and advance the field of AD precision medicine., Highlights: APOE is a central player in the pathogenesis of Alzheimer's disease. APOE exerts a numerous effects throughout the brain on amyloid-beta, tau, and other pathways. The AAIC Advancements: APOE conference encouraged discussions and collaborations on understanding the role of APOE., (© 2024 The Author(s). Alzheimer's & Dementia published by Wiley Periodicals LLC on behalf of Alzheimer's Association.)

Published
2024
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