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3. Brain volume change following anti-amyloid β immunotherapy for Alzheimer's disease: amyloid-removal-related pseudo-atrophy.

Author

Belder, Christopher R S, Boche, Delphine, Nicoll, James A R, Jaunmuktane, Zane, Zetterberg, Henrik, Schott, Jonathan M, Barkhof, Frederik, and Fox, Nick C

Subjects
*ALZHEIMER'S disease, *AUTOPSY, *AMYLOID, *IMMUNOTHERAPY, *CLINICAL trials
Abstract

Progressive cerebral volume loss on MRI is a hallmark of Alzheimer's disease and has been widely used as an outcome measure in clinical trials, with the prediction that disease-modifying treatments would slow loss. However, in trials of anti-amyloid immunotherapy, the participants who received treatment had excess volume loss. Explanations for this observation range from reduction of amyloid β plaque burden and related inflammatory changes through to treatment-induced toxicity. The excess volume changes are characteristic of only those immunotherapies that achieve amyloid β lowering; are compatible with plaque removal; and evidence to date does not suggest an association with harmful effects. Based on the current evidence, we suggest that these changes can be described as amyloid-removal-related pseudo-atrophy. Better understanding of the causes and consequences of these changes is important to enable informed decisions about treatments. Patient-level analyses of data from the trials are urgently needed, along with longitudinal follow-up and neuroimaging data, to determine the long-term trajectory of these volume changes and their clinical correlates. Post-mortem examination of cerebral tissue from treated patients and evaluation of potential correlation with antemortem neuroimaging findings are key priorities. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Changes in the locus coeruleus during the course of Alzheimer's disease and their relationship to cortical pathology.

Author

Beardmore, Rebecca, Durkin, Matthew, Zayee‐Mellick, Faizan, Lau, Laurie C., Nicoll, James A. R., Holmes, Clive, and Boche, Delphine

Subjects
LOCUS coeruleus, ALZHEIMER'S disease, TYROSINE hydroxylase, PATHOLOGY, DISEASE progression, TEMPORAL lobe
Abstract

Aims: In Alzheimer's disease (AD), the locus coeruleus (LC) undergoes early and extensive neuronal loss, preceded by abnormal intracellular tau aggregation, decades before the onset of clinical disease. Neuromelanin‐sensitive MRI has been proposed as a method to image these changes during life. Surprisingly, human post‐mortem studies have not examined how changes in LC during the course of the disease relate to cerebral pathology following the loss of the LC projection to the cortex. Methods: Immunohistochemistry was used to examine markers for 4G8 (pan‐Aβ) and AT8 (ptau), LC integrity (neuromelanin, dopamine β‐hydroxylase [DβH], tyrosine hydroxylase [TH]) and microglia (Iba1, CD68, HLA‐DR) in the LC and related temporal lobe pathology of 59 post‐mortem brains grouped by disease severity determined by Braak stage (0‐II, III‐IV and V‐VI). The inflammatory environment was assessed using multiplex assays. Results: Changes in the LC with increasing Braak stage included increased neuronal loss (p < 0.001) and microglial Iba1 (p = 0.005) together with a reduction in neuromelanin (p < 0.001), DβH (p = 0.002) and TH (p = 0.041). Interestingly in LC, increased ptau and loss of neuromelanin were detected from Braak stage III‐IV (p = 0.001). At Braak stage V/VI, the inflammatory environment was different in the LC vs TL, highlighting the anatomical heterogeneity of the inflammatory response. Conclusions: Here, we report the first quantification of neuromelanin during the course of AD and its relationship to AD pathology and neuroinflammation in the TL. Our findings of neuromelanin loss early in AD and before the neuroinflammatory reaction support the use of neuromelanin‐MRI as a sensitive technique to identify early changes in AD. [ABSTRACT FROM AUTHOR]

Published
2024
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8. T Lymphocytes and Their Potential Role in Dementia with Lewy Bodies.

Author

Amin, Jay, Gee, Claire, Stowell, Kiran, Coulthard, Daisy, and Boche, Delphine

Subjects
LEWY body dementia, ALZHEIMER'S disease, T cells, CEREBROSPINAL fluid, PARKINSON'S disease, POSTMORTEM changes
Abstract

Dementia with Lewy bodies (DLB) is the second most common neurodegenerative cause of dementia. People with DLB have an inferior prognosis compared to Alzheimer's disease (AD), but the diseases overlap in their neuropathology and clinical syndrome. It is imperative that we enhance our understanding of the aetiology and pathogenesis of DLB. The impact of peripheral inflammation on the brain in dementia has been increasingly explored in recent years, with T lymphocyte recruitment into brain parenchyma identified in AD and Parkinson's disease. There is now a growing range of literature emerging on the potential role of innate and adaptive immune cells in DLB, including T lymphocytes. In this review, we examine the profile of T lymphocytes in DLB, focusing on studies of post-mortem brain tissue, cerebrospinal fluid, and the blood compartment. We present an integrated viewpoint on the results of these studies by proposing how changes to the T lymphocyte profile in the brain and periphery may relate to each other. Improving our understanding of T lymphocytes in DLB has the potential to guide the development of disease-modifying treatments. [ABSTRACT FROM AUTHOR]

Published
2023
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11. Hypothesis: Entrapment of lipoprotein particles in the brain causes Alzheimer’s disease

Author

Boche, Delphine and Nicoll, James AR

Subjects
Opinion Piece, Cholesterol transport, lipids (amino acids, peptides, and proteins), Neurosciences. Biological psychiatry. Neuropsychiatry, Extracellular matrix, Apolipoprotein E, Lipoprotein particles, Alzheimer’s disease, RC321-571
Abstract

We present for consideration a hypothesis that impaired movement of lipoprotein particles in the extracellular space in the brain in ageing is central to and causes all the key pathophysiological features of Alzheimer���s disease (AD). The role of lipoprotein particles is to transport cholesterol from glial cells, where it is synthesised, to neurons, which require cholesterol for synaptic plasticity. The lipoprotein particles have a cholesterol-containing hydrophobic core, in which amyloid-�� (A��) can be solubilised. The core is surrounded by a hydrophilic surface containing apolipoprotein E (APOE) which, as neurons bear receptors for APOE, determines the destination of the particles. The problem arises because the extracellular space is a narrow cleft, barely wider than the lipoprotein particles themselves, which they have to navigate in order to perform their crucial cholesterol-transporting function. We explain how lipoprotein particles could become trapped in the ageing extracellular matrix and that this primary abnormality results in reduced delivery of cholesterol to neurons leading to impaired synaptic plasticity, crucial for learning and memory. It can also explain extracellular A�� accumulation, to which a microglial response generates a neurotoxic reaction, and intraneuronal tau aggregation, each of which exacerbate the problem. All these players have been known for many years to be important in Alzheimer���s pathogenesis but a single unifying mechanism to explain how they are linked has been lacking. This proposed mechanism, with entrapment of lipoproteins particles as key to the development of AD, can explain the failure of so many clinical trials and points out new directions to be taken., Free Neuropathology, Vol. 2 (2021)

Published
2021

15. Combination Therapy in Alzheimer's Disease: Is It Time?

Author

Salehipour, Arash, Bagheri, Motahareh, Sabahi, Mohammadmahdi, Dolatshahi, Mahsa, and Boche, Delphine

Subjects
ALZHEIMER'S disease, TREATMENT effectiveness, COMBINED modality therapy, PEPTIDES
Abstract

Alzheimer's disease (AD) is the most common cause of dementia globally. There is increasing evidence showing AD has no single pathogenic mechanism, and thus treatment approaches focusing only on one mechanism are unlikely to be meaningfully effective. With only one potentially disease modifying treatment approved, targeting amyloid-β (Aβ), AD is underserved regarding effective drug treatments. Combining multiple drugs or designing treatments that target multiple pathways could be an effective therapeutic approach. Considering the distinction between added and combination therapies, one can conclude that most trials fall under the category of added therapies. For combination therapy to have an actual impact on the course of AD, it is likely necessary to target multiple mechanisms including but not limited to Aβ and tau pathology. Several challenges have to be addressed regarding combination therapy, including choosing the correct agents, the best time and stage of AD to intervene, designing and providing proper protocols for clinical trials. This can be achieved by a cooperation between the pharmaceutical industry, academia, private research centers, philanthropic institutions, and the regulatory bodies. Based on all the available information, the success of combination therapy to tackle complicated disorders such as cancer, and the blueprint already laid out on how to implement combination therapy and overcome its challenges, an argument can be made that the field has to move cautiously but quickly toward designing new clinical trials, further exploring the pathological mechanisms of AD, and re-examining the previous studies with combination therapies so that effective treatments for AD may be finally found. [ABSTRACT FROM AUTHOR]

Published
2022
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16. Microglia and Astrocyte Function and Communication: What Do We Know in Humans?

Author

Garland, Emma F., Hartnell, Iain J., and Boche, Delphine

Subjects
MICROGLIA, NEUROGLIA, CENTRAL nervous system, BLOOD-brain barrier, COMMUNICATIVE competence
Abstract

Microglia and astrocytes play essential roles in the central nervous system contributing to many functions including homeostasis, immune response, blood–brain barrier maintenance and synaptic support. Evidence has emerged from experimental models of glial communication that microglia and astrocytes influence and coordinate each other and their effects on the brain environment. However, due to the difference in glial cells between humans and rodents, it is essential to confirm the relevance of these findings in human brains. Here, we aim to review the current knowledge on microglia-astrocyte crosstalk in humans, exploring novel methodological techniques used in health and disease conditions. This will include an in-depth look at cell culture and iPSCs, post-mortem studies, imaging and fluid biomarkers, genetics and transcriptomic data. In this review, we will discuss the advantages and limitations of these methods, highlighting the understanding these methods have brought the field on these cells communicative abilities, and the knowledge gaps that remain. [ABSTRACT FROM AUTHOR]

Published
2022
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17. The Locus Coeruleus in Aging and Alzheimer's Disease: A Postmortem and Brain Imaging Review.

Author

Beardmore, Rebecca, Hou, Ruihua, Darekar, Angela, Holmes, Clive, and Boche, Delphine

Subjects
LOCUS coeruleus, ALZHEIMER'S disease, BRAIN imaging, BRAIN diseases, MAGNETIC resonance imaging, POSTMORTEM changes, MELANINS, NERVE tissue proteins, NORADRENALINE, AUTOPSY, ANIMAL experimentation, RATS, AGING, POSTMORTEM imaging, BRAIN stem, MICE
Abstract

The locus coeruleus (LC), a tiny nucleus in the brainstem and the principal site of noradrenaline synthesis, has a major role in regulating autonomic function, arousal, attention, and neuroinflammation. LC dysfunction has been linked to a range of disorders; however particular interest is given to the role it plays in Alzheimer's disease (AD). The LC undergoes significant neuronal loss in AD, thought to occur early in the disease process. While neuronal loss in the LC has also been suggested to occur in aging, this relationship is less clear as the findings have been contradictory. LC density has been suggested to be indicative of cognitive reserve and the evidence for these claims will be discussed. Recent imaging techniques allowing visualization of the LC in vivo using neuromelanin-sensitive MRI are developing our understanding of the role of LC in aging and AD. Tau pathology within the LC is evident at an early age in most individuals; however, the relationship between tau accumulation and neuronal loss and why some individuals then develop AD is not understood. Neuromelanin pigment accumulates within LC cells with age and is proposed to be toxic and inflammatory when released into the extracellular environment. This review will explore our current knowledge of the LC changes in both aging and AD from postmortem, imaging, and experimental studies. We will discuss the reasons behind the susceptibility of the LC to neuronal loss, with a focus on the role of extracellular neuromelanin and neuroinflammation caused by the dysfunction of the LC-noradrenaline pathway. [ABSTRACT FROM AUTHOR]

Published
2021
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18. Microglial morphology in Alzheimer's disease and after Aβ immunotherapy.

Author

Franco-Bocanegra, Diana K., Gourari, Yamina, McAuley, Ciaran, Chatelet, David S., Johnston, David A., Nicoll, James A. R., and Boche, Delphine

Subjects
ALZHEIMER'S disease, MICROGLIA, IMMUNOTHERAPY, CELL motility, CELL morphology
Abstract

Microglia are the brain immune cells and their function is highly dependent on cell motility. It was hypothesised that morphological variability leads to differences in motility, ultimately impacting on the microglial function. Here, we assessed microglial morphology in 32 controls, 44 Alzheimer's disease (AD) cases and 16 AD cases from patients immunised against Aβ42 (iAD) using 2D and 3D approaches. Our 2D assessment showed an increased number of microglia in iAD vs. AD (P = 0.032) and controls (P = 0.018). Ramified microglia were fewer in AD vs. controls (P = 0.041) but increased in iAD compared to AD (P < 0.001) and controls (P = 0.006). 3D reconstructions highlighted larger cell bodies in AD vs. controls (P = 0.049) and increased total process length in iAD vs. AD (P = 0.032), with negative correlations detected for pan-Aβ load with total process length (P < 0.001) in AD and number of primary processes (P = 0.043) in iAD. In summary, reactive/amoeboid microglia are the most represented population in the aged human brain. AD does not affect the number of microglia, but the ramified population is decreased adopting a more reactive morphology. Aβ removal by immunotherapy leads to increased ramified microglia, implying that the cells retain plasticity in an aged disease brain meriting further investigation. [ABSTRACT FROM AUTHOR]

Published
2021
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19. Systemic infection exacerbates cerebrovascular dysfunction in Alzheimer's disease.

Author

Asby, Daniel, Boche, Delphine, Allan, Stuart, Love, Seth, and Miners, J Scott

Subjects
*ALZHEIMER'S disease, *PLATELET-derived growth factor, *ALZHEIMER'S patients, *VASCULAR dementia, *BLOOD-brain barrier
Abstract

We studied the effects of systemic infection on brain cytokine level and cerebral vascular function in Alzheimer's disease and vascular dementia, in superior temporal cortex (Brodmann area 22) from Alzheimer's disease patients (n = 75), vascular dementia patients (n = 22) and age-matched control subjects (n = 46), stratified according to the presence or absence of terminal systemic infection. Brain cytokine levels were measured using Mesoscale Discovery Multiplex Assays and markers of cerebrovascular function were assessed by ELISA. Multiple brain cytokines were elevated in Alzheimer's disease and vascular dementia: IL-15 and IL-17A were maximally elevated in end-stage Alzheimer's disease (Braak tangle stage V-VI) whereas IL-2, IL-5, IL12p40 and IL-16 were highest in intermediate Braak tangle stage III-IV disease. Several cytokines (IL-1β, IL-6, TNF-α, IL-8 and IL-15) were further raised in Alzheimer's disease with systemic infection. Cerebral hypoperfusion-indicated by decreased MAG:PLP1 and increased vascular endothelial growth factor-A (VEGF)-and blood-brain barrier leakiness, indicated by raised levels of fibrinogen, were exacerbated in Alzheimer's disease and vascular dementia patients, and also in non-dementia controls, with systemic infection. Amyloid-β42 level did not vary with infection or in association with brain cytokine levels. In controls, cortical perfusion declined with increasing IFN-γ, IL-2, IL-4, IL-6, IL-10, IL-12p70, IL-13 and tumour necrosis factor-α (TNF-α) but these relationships were lost with progression of Alzheimer's disease, and with infection (even in Braak stage 0-II brains). Cortical platelet-derived growth factor receptor-β (PDGFRβ), a pericyte marker, was reduced, and endothelin-1 (EDN1) level was increased in Alzheimer's disease; these were related to amyloid-β level and disease progression and only modestly affected by systemic infection. Our findings indicate that systemic infection alters brain cytokine levels and exacerbates cerebral hypoperfusion and blood-brain barrier leakiness associated with Alzheimer's disease and vascular dementia, independently of the level of insoluble amyloid-β, and highlight systemic infection as an important contributor to dementia, requiring early identification and treatment in the elderly population. [ABSTRACT FROM AUTHOR]

Published
2021
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20. Microglial immunophenotype in dementia with Alzheimer's pathology

Author

Minett, Thais, Classey, John, Matthews, Fiona E, Fahrenhold, Marie, Taga, Mariko, Brayne, Carol, Ince, Paul G, Nicoll, James AR, Boche, Delphine, MRC CFAS, Soares Cianciarullo Minett, Thais [0000-0002-3232-9455], Matthews, Fiona [0000-0002-1728-2388], Brayne, Carol [0000-0001-5307-663X], and Apollo - University of Cambridge Repository

Subjects
Aged, 80 and over, Male, Calcium-Binding Proteins, Microfilament Proteins, Receptors, IgG, Antigens, Differentiation, Myelomonocytic, HLA-DR Antigens, Neuropsychological Tests, Cohort Studies, DNA-Binding Proteins, Alzheimer Disease, Antigens, CD, Methionine Sulfoxide Reductases, Diagnosis, Cytokines, Humans, Dementia, Female, Apolipoprotein E, Microglia, Mental Status Schedule, Alzheimer’s disease, Neuropathology, Aged
Abstract

Background: Genetic risk factors for Alzheimer’s disease imply that inflammation plays a causal role in development of\ud the disease. Experimental studies suggest that microglia, as the brain macrophages, have diverse functions, with their\ud main role in health being to survey the brain parenchyma through highly motile processes.\ud Methods: Using the Medical Research Council Cognitive Function and Ageing Studies resources, we have\ud immunophenotyped microglia to investigate their role in dementia with Alzheimer’s pathology. Cerebral cortex\ud obtained at post-mortem from 299 participants was analysed by immunohistochemistry for cluster of differentiation\ud (CD)68 (phagocytosis), human leukocyte antigen (HLA)-DR (antigen-presenting function), ionized calcium-binding\ud adaptor molecule (Iba1) (microglial motility), macrophage scavenger receptor (MSR)-A (plaque-related phagocytosis)\ud and CD64 (immunoglobulin Fcγ receptor I).\ud Results: The presence of dementia was associated positively with CD68 (P < 0.001), MSR-A (P = 0.010) and CD64 (P = 0.\ud 007) and negatively with Iba1 (P < 0.001). Among participants without dementia, the cognitive function according to\ud the Mini-Mental State Examination was associated positively with Iba1 (P < 0.001) and negatively with CD68 (P = 0.033),\ud and in participants with dementia and Alzheimer’s pathology, positively with all microglial markers except Iba1. Overall,\ud in participants without dementia, the relationship with Alzheimer’s pathology was negative or not significant, and\ud positive in participants with dementia and Alzheimer’s pathology. Apolipoprotein E (APOE) ε2 allele was associated with\ud expression of Iba1 (P = 0.001) and MSR-A (P < 0.001) and APOE ε4 with CD68, HLA-DR and CD64 (P < 0.001).\ud Conclusions: Our findings raise the possibility that in dementia with Alzheimer’s pathology, microglia lose\ud motility (Iba-1) necessary to support neurons. Conversely, other microglial proteins (CD68, MSR-A), the role of\ud which is clearance of damaged cellular material, are positively associated with Alzheimer’s pathology and\ud impaired cognitive function. In addition, our data imply that microglia may respond differently to Aβ and tau\ud in participants with and without dementia so that the microglial activity could potentially influence the\ud likelihood of developing dementia, as supported by genetic studies, highlighting the complexity and diversity\ud of microglial responses.

Published
2017
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21. Peripheral immunophenotype in dementia with Lewy bodies and Alzheimer's disease: an observational clinical study.

Author

Amin, Jay, Boche, Delphine, Clough, Zoe, Teeling, Jessica, Williams, Anthony, Yifang Gao, Chudley, Lindsey, Lau, Laurie, Smith, Florence, Harris, Scott, Holmes, Clive, and Gao, Yifang

Subjects
LEWY body dementia, ALZHEIMER'S disease, MEDICAL sciences, APOLIPOPROTEIN E4, T helper cells, CYTOTOXIC T cells, INTERLEUKINS, FLOW cytometry, CYTOKINES, RESEARCH, B cells, RESEARCH methodology, INTERLEUKIN-1, CASE-control method, MEDICAL cooperation, EVALUATION research, NEUROPSYCHOLOGICAL tests, IMMUNOASSAY, COMPARATIVE studies, IMMUNOPHENOTYPING, T cells, MONOCYTES
Abstract

Background: Inflammation plays a key role in the aetiology and progression of Alzheimer's disease (AD). However, the immunophenotype of the second most common neurodegenerative cause of dementia, dementia with Lewy bodies (DLB), remains unclear. To date there have been no studies examining peripheral inflammation in DLB using multiplex immunoassay and flow cytometry concomitantly. We hypothesised that, using blood biomarkers, DLB would show an increased proinflammatory profile compared with controls, and that there would be a distinct profile compared with AD.Methods: 93 participants (31 with DLB, 31 with AD and 31 healthy older controls) completed a single study visit for neuropsychiatric testing and phlebotomy. Peripheral blood mononuclear cells were quantified for T and B cell subsets using flow cytometry, and serum cytokine concentrations were measured using multiplex immunoassay.Results: We detected reduced relative numbers of helper T cells and reduced activation of B cells in DLB compared with AD. Additionally, interleukin (IL)-1β was detected more frequently in DLB and the serum concentration of IL-6 was increased compared with controls.Conclusions: Peripheral inflammation is altered in DLB compared with AD, with T cell subset analysis supporting a possible shift towards senescence of the adaptive immune system in DLB. Furthermore, there is a proinflammatory signature of serum cytokines in DLB. Identification of this unique peripheral immunophenotype in DLB could guide development of an immune-based biomarker and direct future work exploring potential immune modulation as a novel treatment. [ABSTRACT FROM AUTHOR]

Published
2020
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22. Prospects and challenges of imaging neuroinflammation beyond TSPO in Alzheimer's disease.

Author

Boche, Delphine, Gerhard, Alexander, and Rodriguez-Vieitez, Elena

Subjects
*ALZHEIMER'S disease, *INFLAMMATION, *MICROGLIA, *NEUROGLIA, *PATHOLOGY, *DIFFUSION tensor imaging, *NEURODEGENERATION, *BIOLOGISTS
Abstract

Neuroinflammation, as defined by the activation of microglia and astrocytes, has emerged in the last years as a key element of the pathogenesis of neurodegenerative diseases based on genetic findings and preclinical and human studies. This has raised the need for new methodologies to assess and follow glial activation in patients, prompting the development of PET ligands for molecular imaging of glial cells and novel structural MRI and DTI tools leading to a multimodal approach. The present review describes the recent advancements in microglia and astrocyte biology in the context of health, ageing, and Alzheimer's disease, the most common dementia worldwide. The review further delves in molecular imaging discussing the challenges associated with past and present targets, including conflicting findings, and finally, presenting novel methodologies currently explored to improve our in vivo knowledge of the neuroinflammatory patterns in Alzheimer's disease. With glial cell activation as a potential therapeutic target in neurodegenerative diseases, the translational research between cell biologists, chemists, physicists, radiologists, and neurologists should be strengthened. [ABSTRACT FROM AUTHOR]

Published
2019
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23. Persistent neuropathological effects 14 years following amyloid-β immunization in Alzheimer's disease.

Author

Nicoll, James A R, Buckland, George R, Harrison, Charlotte H, Page, Anton, Harris, Scott, Love, Seth, Neal, James W, Holmes, Clive, and Boche, Delphine

Subjects
FRONTOTEMPORAL lobar degeneration, ALZHEIMER'S disease, LEWY body dementia, PROGRESSIVE supranuclear palsy, ALZHEIMER'S patients, UNILATERAL neglect, IMMUNIZATION, NEUROBEHAVIORAL disorders
Abstract

We performed a 15-year post-mortem neuropathological follow-up of patients in the first trial of amyloid-β immunotherapy for Alzheimer's disease. Twenty-two participants of a clinical trial of active amyloid-β42 immunization (AN1792, Elan Pharmaceuticals) or placebo were studied. Comprehensive post-mortem neuropathological assessments were performed from 4 months to 15 years after the trial. We analysed the relationships between the topographical distribution of amyloid-β removal from the cerebral cortex and tau pathology, cerebrovascular territories, plasma anti-AN1792 antibody titres and late cognitive status. Seventeen of 22 (77%) participants had Alzheimer's neuropathological change, whereas 5 of 22 (23%) had alternative causes for dementia (progressive supranuclear palsy = 1, Lewy body disease = 1, vascular brain injury = 1, and frontotemporal lobar degeneration = 2). Nineteen of the 22 participants had received the active agent, three the placebo. Fourteen of 16 (88%) patients with Alzheimer's disease receiving the active agent had evidence of plaque removal (very extensive removal = 5, intermediate = 4, very limited = 5, no removal = 2). Of particular note, two Alzheimer's patients who died 14 years after immunization had only very sparse or no detectable plaques in all regions examined. There was a significant inverse correlation between post-vaccination peripheral blood anti-AN1792 antibody titres and post-mortem plaque scores (ρ = - 0.664, P = 0.005). Cortical foci cleared of plaques contained less tau than did cortex with remaining plaques, but the overall distribution of tangles was extensive (Braak V/VI). In conclusion, patients with Alzheimer's disease actively immunized against amyloid-β can remain virtually plaque-free for 14 years. The extent of plaque removal is related to the immune response. This long duration of efficacy is important in support of active immunization protocols as therapy for, or potentially prevention of, neurodegeneration-associated protein accumulations. Inclusion of patients without Alzheimer's disease in Alzheimer's therapy trials is a problem for assessing the efficacy of treatment. Despite modification of Alzheimer's pathology, most patients had progressed to severe dementia, notably including the five with very extensive plaque removal, possibly due to continued tau propagation. Neuropathology follow-up of patients in therapeutic trials provides valuable information on the causes of dementia and effects of treatment. [ABSTRACT FROM AUTHOR]

Published
2019
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24. Downregulated apoptosis and autophagy after anti‐Aβ immunotherapy in Alzheimer's disease.

Author

Paquet, Claire, Nicoll, James AR, Love, Seth, Mouton‐Liger, François, Holmes, Clive, Hugon, Jacques, and Boche, Delphine

Subjects
APOPTOSIS, ALZHEIMER'S disease, IMMUNOTHERAPY, IMMUNIZATION, PHOSPHORYLATION
Abstract

Aβ immunization of Alzheimer's disease (AD) patients in the AN1792 (Elan Pharmaceuticals) trial caused Aβ removal and a decreased density of neurons in the cerebral cortex. As preservation of neurons may be a critical determinant of outcome after Aβ immunization, we have assessed the impact of previous Aβ immunization on the expression of a range of apoptotic proteins in post‐mortem human brain tissue. Cortex from 13 AD patients immunized with AN1792 (iAD) and from 27 nonimmunized AD (cAD) cases was immunolabeled for proapoptotic proteins implicated in AD pathophysiology: phosphorylated c‐Jun N‐terminal kinase (pJNK), activated caspase3 (a‐casp3), phosphorylated GSK3β on tyrosine 216 (GSK3βtyr216), p53 and Cdk5/p35. Expression of these proteins was analyzed in relation to immunization status and other clinical data. The antigen load of all of these proapoptotic proteins was significantly lower in iAD than cAD (P < 0.0001). In cAD, significant correlations (P < 0.001) were observed between: Cdk5/p35 and GSK3βtyr216; a‐casp3 and Aβ42; p53 and age at death. In iAD, significant correlations were found between GSK3βtyr216 and a‐casp3; both spongiosis and neuritic curvature ratio and Aβ42; and Cdk5/p35 and Aβ‐antibody level. Although neuronal loss was increased by immunization with AN1792, our present findings suggest downregulation of apoptosis in residual neurons and other cells. [ABSTRACT FROM AUTHOR]

Published
2018
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25. TREM2 expression in the human brain: a marker of monocyte recruitment?

Author

Fahrenhold, Marie, Rakic, Sonja, Classey, John, Brayne, Carol, Ince, Paul G., Nicoll, James A. R., and Boche, Delphine

Subjects
ALZHEIMER'S disease, NEURODEGENERATION, MONOCYTES, IMMUNOSTAINING, MACROPHAGES
Abstract

Mutation in the triggering receptor expressed on myeloid cells (TREM) 2 gene has been identified as a risk factor for several neurodegenerative diseases including Alzheimer's disease (AD). Experimental studies using animal models of AD have highlighted a number of functions associated with TREM2 and its expression by microglial cells. It has therefore been assumed that this is also the case in humans. However, there is very limited information concerning the cellular expression of TREM2 in the human brain. As part of investigations of microglia using post‐mortem resources provided by the Medical Research Council Cognitive Function and Ageing Studies (MRC‐CFAS), we immunostained the cerebral cortex of 299 participants for TREM2 using the Sigma antibody HPA010917 and compared with the macrophage/microglial markers Iba1 and CD68. As expected, Iba1 and CD68 labeled microglia and perivascular macrophages. However, in most cases (284/299), the TREM2 antibody labelled monocytes within vascular lumens, but not microglia or perivascular macrophages. In contrast, in 5 out of 6 cases with acute infarcts, TREM2 immunoreaction identified cells within the brain parenchyma interpreted as recruited monocytes. Six cases with old infarcts contained phagocytic foamy macrophages which were CD68‐positive but TREM2 negative. Our observations, using the HPA010917 anti‐TREM2 antibody, suggest that TREM2 is not expressed by microglia but instead seems to be a marker of recruited monocytes in the human brain. This finding has implications with regards to the role of TREM2 as a risk factor, emphasizing the importance of systemic immune responses in the development and progression of Alzheimer's disease. [ABSTRACT FROM AUTHOR]

Published
2018
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26. PKR modulates abnormal brain signaling in experimental obesity.

Author

Taga, Mariko, Mouton-Liger, François, Sadoune, Malha, Gourmaud, Sarah, Norman, Jenny, Tible, Marion, Thomasseau, Sylvie, Paquet, Claire, Nicoll, James A. R., Boche, Delphine, and Hugon, Jacques

Subjects
PROTEIN kinases, INFLAMMASOMES, INFLAMMATION, OBESITY, BRAIN physiology
Abstract

Metabolic disorders including obesity and type 2 diabetes are known to be associated with chronic inflammation and are obvious risk factors for Alzheimer’s disease. Recent evidences concerning obesity and diabetes suggest that the metabolic inflammasome (“metaflammasome”) mediates chronic inflammation. The double-stranded RNA-dependent protein kinase (PKR) is a central component of the metaflammasome. In wild type (WT) and PKR-/- mice, blood glucose, insulin and lipid levels and the brain expression of the phosphorylated components of the metaflammasome—PKR, JNK, IRS1 and IKKbeta—were studied after the induction of obesity by a high fat diet (HFD). The results showed significant increased levels of activated brain metaflammasome proteins in exposed WT mice but the changes were not significant in PKR-/- mice. In addition, gain weight was observed in WT mice and also in PKR-/- mice exposed to HFD. Increased blood insulin level was more accentuated in PKR -/- mice. The modulation of PKR activity could be an appropriate therapeutic approach, aimed at reducing abnormal brain metabolism and inflammation linked to metabolic disorders in order to reduce the risk of neurodegeneration. [ABSTRACT FROM AUTHOR]

Published
2018
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27. Pyroglutamate and Isoaspartate modified Amyloid-Beta in ageing and Alzheimer's disease.

Author

Moro, Maria Luisa, Phillips, Andrew Stephen, Gaimster, Katie, Paul, Christian, Mudher, Amritpal, Nicoll, James A. R., and Boche, Delphine

Subjects
AMYLOID beta-protein, ALZHEIMER'S disease, PHYSIOLOGICAL aspects of aging
Abstract

Alzheimer's disease (AD) is the most common cause of dementia among older adults. Accumulation of amyloid-β (Aβ) in the brain is considered central in AD pathogenesis and its understanding crucial for developing new diagnostic and therapeutic approaches. Recent literature suggests that ageing may induce post translational modifications in Aβ, in the form of spontaneous amino acid modifications, which enhance its pathogenic properties, contributing to its aggregation. In this study, we have investigated whether the isoaspartate (IsoD-Aβ) and pyroglutamate (pE3-Aβ) modified forms of Aβ are significantly associated with AD pathology or represent markers of ageing. Cerebral neocortex of 27 AD cases, 32 old controls (OC) and 11 young controls (YC) was immunostained for pE3-Aβ and IsoD-Aβ,quantifiedasprotein load and correlated with other Aβ forms and p-TAU. IsoD-Aβ and pE3-Aβ were detected at low levels in non-demented controls, and significantly increased in AD (p ≤ 0.001), with a characteristic deposition of IsoD-Aβ in blood vessel walls and pE3-Aβ within neurons. Both AD and OC showed positive associations between IsoD-Aβ and Aβ (p = 0.003 in AD and p = 0.001 in OC) and between IsoD-Aβ and pE3-Aβ (p = 0.001 in AD and OC). This last association was the only significant pE3-Aβ correlation identified in AD, whereas in the control cohorts pE3-Aβ also correlated with Aβ and AβPP (p = 0.001 in OC and p = 0.010 in YC). Our analyses suggest that IsoD-Aβ accumulation starts with ageing; whereas pE3-Aβ deposition is more closely linked to AD. Our findings support the importance of age-related modifications of Aβ in AD pathogenesis. [ABSTRACT FROM AUTHOR]

Published
2018
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28. Metaflammasome components in the human brain: a role in dementia with Alzheimer's pathology?

Author

Taga, Mariko, Minett, Thais, Classey, John, Matthews, Fiona E., Brayne, Carol, Ince, Paul G., Nicoll, James AR, Hugon, Jacques, and Boche, Delphine

Subjects
COGNITION disorders, NEUROBEHAVIORAL disorders, DEMENTIA, BRAIN diseases, INSULIN
Abstract

Epidemiological and genetic studies have identified metabolic disorders and inflammation as risk factors for Alzheimer's disease (AD). Evidence in obesity and type-2 diabetes suggests a role for a metabolic inflammasome ('metaflammasome') in mediating chronic inflammation in peripheral organs implicating IKKβ (inhibitor of nuclear factor kappa-B kinase subunit beta), IRS1 (insulin receptor substrate 1), JNK (c-jun N-terminal kinase), and PKR (double-stranded RNA protein kinase). We hypothesized that these proteins are expressed in the brain in response to metabolic risk factors in AD. Neocortex from 299 participants from the MRC Cognitive Function and Ageing Studies was analysed by immunohistochemistry for the expression of the phosphorylated (active) form of IKKβ [pSer176/180], IRS1 [pS312], JNK [pThr183/Tyr185] and PKR [pT451]. The data were analyzed to investigate whether the proteins were expressed together and in relation with metabolic disorders, dementia, Alzheimer's pathology and APOE genotype. We observed a change from a positive to a negative association between the proteins and hypertension according to the dementia status. Type-2 diabetes was negatively related with the proteins among participants without dementia; whereas participants with dementia and AD pathology showed a positive association with JNK. A significant association between IKKβ and JNK in participants with dementia and AD pathology was observed, but not in those without dementia. Otherwise, weak to moderate associations were observed among the protein loads. The presence of dementia was significantly associated with JNK and negatively associated with IKKβ and IRS1. Cognitive scores showed a significant positive relationship with IKKβ and a negative with IRS1, JNK and PKR. The proteins were significantly associated with pathology in Alzheimer's participants with the relationship being inverse or not significant in participants without dementia. Expression of the proteins was not related to APOE genotype. These findings highlight a role for these proteins in AD pathophysiology but not necessarily as a complex. [ABSTRACT FROM AUTHOR]

Published
2017
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29. Microglial immunophenotype in dementia with Alzheimer's pathology.

Author

Minett, Thais, Classey, John, Matthews, Fiona E., Fahrenhold, Marie, Taga, Mariko, Brayne, Carol, Ince, Paul G., Nicoll, James A. R., Boche, Delphine, and MRC CFAS

Subjects
ALZHEIMER'S disease risk factors, MICROGLIA, MACROPHAGES, APOLIPOPROTEIN E, NEUROLOGICAL disorders, DEMENTIA research, CELL metabolism, ALZHEIMER'S disease, ANTIGENS, CELL receptors, CYTOKINES, DEMENTIA, DIAGNOSIS, LONGITUDINAL method, NEUROPSYCHOLOGICAL tests, OXIDOREDUCTASES, PSYCHOLOGICAL tests, QUESTIONNAIRES, RESEARCH funding, HLA-B27 antigen, DNA-binding proteins, DISEASE complications
Abstract

Background: Genetic risk factors for Alzheimer's disease imply that inflammation plays a causal role in development of the disease. Experimental studies suggest that microglia, as the brain macrophages, have diverse functions, with their main role in health being to survey the brain parenchyma through highly motile processes.Methods: Using the Medical Research Council Cognitive Function and Ageing Studies resources, we have immunophenotyped microglia to investigate their role in dementia with Alzheimer's pathology. Cerebral cortex obtained at post-mortem from 299 participants was analysed by immunohistochemistry for cluster of differentiation (CD)68 (phagocytosis), human leukocyte antigen (HLA)-DR (antigen-presenting function), ionized calcium-binding adaptor molecule (Iba1) (microglial motility), macrophage scavenger receptor (MSR)-A (plaque-related phagocytosis) and CD64 (immunoglobulin Fcγ receptor I).Results: The presence of dementia was associated positively with CD68 (P < 0.001), MSR-A (P = 0.010) and CD64 (P = 0.007) and negatively with Iba1 (P < 0.001). Among participants without dementia, the cognitive function according to the Mini-Mental State Examination was associated positively with Iba1 (P < 0.001) and negatively with CD68 (P = 0.033), and in participants with dementia and Alzheimer's pathology, positively with all microglial markers except Iba1. Overall, in participants without dementia, the relationship with Alzheimer's pathology was negative or not significant, and positive in participants with dementia and Alzheimer's pathology. Apolipoprotein E (APOE) ε2 allele was associated with expression of Iba1 (P = 0.001) and MSR-A (P < 0.001) and APOE ε4 with CD68, HLA-DR and CD64 (P < 0.001).Conclusions: Our findings raise the possibility that in dementia with Alzheimer's pathology, microglia lose motility (Iba-1) necessary to support neurons. Conversely, other microglial proteins (CD68, MSR-A), the role of which is clearance of damaged cellular material, are positively associated with Alzheimer's pathology and impaired cognitive function. In addition, our data imply that microglia may respond differently to Aβ and tau in participants with and without dementia so that the microglial activity could potentially influence the likelihood of developing dementia, as supported by genetic studies, highlighting the complexity and diversity of microglial responses. [ABSTRACT FROM AUTHOR]

Published
2016
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30. Effect of amyloid-β ( Aβ) immunization on hyperphosphorylated tau: a potential role for glycogen synthase kinase (GSK)-3β.

Author

Amin, Jay, Paquet, Claire, Baker, Alex, Asuni, Ayodeji A., Love, Seth, Holmes, Clive, Hugon, Jacques, Nicoll, James A. R., and Boche, Delphine

Subjects
AMYLOID, IMMUNOTHERAPY, ALZHEIMER'S disease, PHOSPHORYLATION, HIPPOCAMPUS (Brain), GLYCOGEN
Abstract

Aims Active amyloid-β ( Aβ) immunotherapy in Alzheimer's disease ( AD) induces removal of Aβ and phosphorylated tau (ptau). Glycogen synthase kinase ( GSK)-3β is a kinase, responsible for phosphorylation of tau, activation of which can be induced by phosphorylated double-stranded RNA-dependent protein kinase (p PKR). Using a post-mortem cohort of immunized AD cases, we investigated the effect of Aβ immunization on GSK-3β expression and p PKR. Methods We immunostained 11 immunized AD cases and 28 unimmunized AD cases for active, inactive and total GSK-3β, and for p PKR. Quantification of protein load was performed in the hippocampal region including CA1, subiculum and entorhinal cortex. Results All three areas showed a significant decrease in the three forms of GSK-3β ( P < 0.05) and a nonsignificant trend towards lower p PKR load in the immunized AD cases compared with the unimmunized AD cases. Conclusion The lower GSK-3β expression generated by Aβ immunotherapy shows evidence of a modification of the signalling pathway induced by GSK-3β leading to the overall reduction of tau, supporting the contention that in humans, GSK-3β unifies Aβ and tau-related neuropathology. [ABSTRACT FROM AUTHOR]

Published
2015
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31. Investigating Interventions in Alzheimer's Disease with Computer Simulation Models.

Author

Proctor, Carole J., Boche, Delphine, Gray, Douglas A., and Nicoll, James A. R.

Subjects
*ALZHEIMER'S disease, *COMPUTER simulation, *DISEASE progression, *CLINICAL trials, *DRUG side effects, *AMYLOID beta-protein, *NEUROLOGICAL disorders
Abstract

Progress in the development of therapeutic interventions to treat or slow the progression of Alzheimer's disease has been hampered by lack of efficacy and unforeseen side effects in human clinical trials. This setback highlights the need for new approaches for pre-clinical testing of possible interventions. Systems modelling is becoming increasingly recognised as a valuable tool for investigating molecular and cellular mechanisms involved in ageing and age-related diseases. However, there is still a lack of awareness of modelling approaches in many areas of biomedical research. We previously developed a stochastic computer model to examine some of the key pathways involved in the aggregation of amyloid-beta (Aβ) and the micro-tubular binding protein tau. Here we show how we extended this model to include the main processes involved in passive and active immunisation against Aβ and then demonstrate the effects of this intervention on soluble Aβ, plaques, phosphorylated tau and tangles. The model predicts that immunisation leads to clearance of plaques but only results in small reductions in levels of soluble Aβ, phosphorylated tau and tangles. The behaviour of this model is supported by neuropathological observations in Alzheimer patients immunised against Aβ. Since, soluble Aβ, phosphorylated tau and tangles more closely correlate with cognitive decline than plaques, our model suggests that immunotherapy against Aβ may not be effective unless it is performed very early in the disease process or combined with other therapies. [ABSTRACT FROM AUTHOR]

Published
2013
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32. Inflammatory components in human Alzheimer's disease and after active amyloid-β42 immunization.

Author

Zotova, Elina, Bharambe, Viraj, Cheaveau, Matthew, Morgan, William, Holmes, Clive, Harris, Scott, Neal, James W, Love, Seth, Nicoll, James A R, and Boche, Delphine

Abstract

Inflammatory processes are important in the pathogenesis of Alzheimer's disease and in response to amyloid-β immunotherapy. We investigated the expression of multiple inflammatory markers in the brains of 28 non-immunized patients with Alzheimer's disease and 11 patients with Alzheimer's disease immunized against amyloid-β42 (AN1792): microglial ionized calcium-binding adaptor Iba-1, lysosome marker CD68, macrophage scavenger receptor A, Fcγ receptors I (CD64) and II (CD32); and also immunoglobulin IgG, complement C1q and the T lymphocyte marker CD3 using immunohistochemistry. The data were analysed with regard to amyloid-β and phospho-tau pathology, severity of cerebral amyloid angiopathy and cortical microhaemorrhages. In non-immunized Alzheimer's disease cases, amyloid-β42 correlated inversely with CD32 and Iba-1, whereas phospho-tau correlated directly with all microglial markers, IgG, C1q and the number of T cells. In immunized Alzheimer's disease cases, amyloid-β42 load correlated directly with macrophage scavenger receptor A-positive clusters and inversely with C1q. The severity of cerebral amyloid angiopathy and microhaemorrhages did not relate to any of the analysed markers. Overall, the levels of CD68, macrophage scavenger receptor A, CD64, CD32 and the number of macrophage scavenger receptor A-positive plaque-related clusters were significantly lower in immunized than non-immunized cases, although there was no significant difference in Iba-1 load, number of Iba-1-positive cells, IgG load, C1q load or number of T cells. Our findings indicate that different microglial populations co-exist in the Alzheimer's disease brain, and that the local inflammatory status within the grey matter is importantly linked with tau pathology. After amyloid-β immunization, the microglial functional state is altered in association with reduced amyloid-β and tau pathology. The results suggest that, in the long term, amyloid-β immunotherapy results in downregulation of microglial activation and potentially reduces the inflammation-mediated component of the neurodegeneration of Alzheimer's disease. [ABSTRACT FROM AUTHOR]

Published
2013
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33. Inflammation in Alzheimer's disease: relevance to pathogenesis and therapy.

Author

Zotova, Elina, Nicoll, James A. R., Kalaria, Raj, Holmes, Clive, and Boche, Delphine

Subjects
ALZHEIMER'S disease, CLINICAL trials, IMMUNIZATION, DRUGS, INFLAMMATION
Abstract

Evidence for the involvement of inflammatory processes in the pathogenesis of Alzheimer's disease (AD) has been documented for a long time. However, the inflammation hypothesis in relation to AD pathology has emerged relatively recently. Even in this hypothesis, the inflammatory reaction is still considered to be a downstream effect of the accumulated proteins (amyloid beta (Aβ) and tau). This review aims to highlight the importance of the immune processes involved in AD pathogenesis based on the outcomes of the two major inflammation-relevant treatment strategies against AD developed and tested to date in animal studies and human clinical trials--the use of anti-inflammatory drugs and immunisation against Aβ. [ABSTRACT FROM AUTHOR]

Published
2010
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34. The Role of the Immune System in Clearance of Aβ from the Brain.

Author

Boche, Delphine and Nicoll, James A. R.

Subjects
*IMMUNE system, *ALZHEIMER'S disease, *IMMUNIZATION, *MICROGLIA, *PREVENTIVE medicine, *IMMUNOTHERAPY
Abstract

In Alzheimer's disease (AD), there is abnormal accumulation of Aβ and tau proteins in the brain. There is an associated immunological response, but it is still unclear whether this is beneficial or harmful. Inflammation in AD, specifically in the form of microglial activation, has, for many years, been considered to contribute to disease progression. However, two types of evidence suggest that it may be appropriate to revise this view: first, the disappointing results of prospective clinical trials of anti-inflammatory agents and, second, the observation that microglia can clear plaques in AD following Aβ immunization. Although Aβ immunization alters AD pathology, there is limited evidence so far of benefit to cognitive function. Immunization against microorganisms is almost always used as a method of disease prevention rather than to treat a disease process that has already started. In animal models, immunotherapy at an early age can protect against Aβ accumulation and it will be interesting to see if this can usefully be applied to humans to prevent AD. [ABSTRACT FROM AUTHOR]

Published
2008
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35. Are we getting to grips with Alzheimer’s disease at last?

Author

Boche, Delphine and Nicoll, James A. R.

Subjects
*ALZHEIMER'S disease, *AMYLOID beta-protein, *IMMUNIZATION, *IMMUNOTHERAPY, *PATHOLOGY
Abstract

The article discusses the effect of amyloidΒ-protein (AΒ) immunization on neuronal and tau pathology in the understanding of Alzheimer's disease. It looks into the study of the effectiveness of AN1792 immunization, which can lead to reduction of AΒ. It is stated that AΒ immunization has an effect on the neuronal pathology in Alzheimer's disease providing support for the use of immunotherapy in treating the disease.

Published
2010
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36. Molecular Mechanisms of Microglial Motility: Changes in Ageing and Alzheimer's Disease.

Author

Franco-Bocanegra, Diana K., McAuley, Ciaran, Nicoll, James A. R., and Boche, Delphine

Subjects
MICROGLIA, ALZHEIMER'S disease, PURINERGIC receptors, MEMBRANE proteins, CENTRAL nervous system, CYTOSKELETON
Abstract

Microglia are the tissue-resident immune cells of the central nervous system, where they constitute the first line of defense against any pathogens or injury. Microglia are highly motile cells and in order to carry out their function, they constantly undergo changes in their morphology to adapt to their environment. The microglial motility and morphological versatility are the result of a complex molecular machinery, mainly composed of mechanisms of organization of the actin cytoskeleton, coupled with a "sensory" system of membrane receptors that allow the cells to perceive changes in their microenvironment and modulate their responses. Evidence points to microglia as accountable for some of the changes observed in the brain during ageing, and microglia have a role in the development of neurodegenerative diseases, such as Alzheimer's disease. The present review describes in detail the main mechanisms driving microglial motility in physiological conditions, namely, the cytoskeletal actin dynamics, with emphasis in proteins highly expressed in microglia, and the role of chemotactic membrane proteins, such as the fractalkine and purinergic receptors. The review further delves into the changes occurring to the involved proteins and pathways specifically during ageing and in Alzheimer's disease, analyzing how these changes might participate in the development of this disease. [ABSTRACT FROM AUTHOR]

Published
2019
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37. Amyloid-β vaccination for Alzheimer's dementia.

Author

Nicoll, James, Boche, Delphine, and Holmes, Clive

Subjects
*LETTERS to the editor, *ALZHEIMER'S disease
Abstract

The authors reply to letters written in response to the article "Long-term effects of Aβ42 Immunisation in Alzheimer's disease: Follow-up of a Randomised, Placebo-Controlled Phase Trial" in the July 19, 2008 issue.

Published
2008
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38. TSPO PET brain inflammation imaging: A transdiagnostic systematic review and meta-analysis of 156 case-control studies.

Author

De Picker, Livia J., Morrens, Manuel, Branchi, Igor, Haarman, Bartholomeus C.M., Terada, Tatsuhiro, Kang, Min Su, Boche, Delphine, Tremblay, Marie-Eve, Leroy, Claire, Bottlaender, Michel, and Ottoy, Julie

Subjects
*ENCEPHALITIS, *BRAIN imaging, *ALZHEIMER'S disease, *CASE-control method, *POSITRON emission tomography
Abstract

• Widespread TSPO PET signal increases in cortical grey matter in AD and other neurodegenerative disorder. • Cortico-limbic signal increases in AD, MCI , other neurodegenerative disorders, mood disorders, and MS. • Thalamic signal increases in AD, other neurodegenerative disorders, MS, and chronic pain and functional disorders. • Quantification method (V T vs. reference tissue models) accounted for 25% of transdiagnostic between-study variability. • Patient age and radioligand generation accounted for 9 and 5% of transdiagnostic between-study variability. The 18-kDa translocator protein (TSPO) is increasingly recognized as a molecular target for PET imaging of inflammatory responses in various central nervous system (CNS) disorders. However, the reported sensitivity and specificity of TSPO PET to identify brain inflammatory processes appears to vary greatly across disorders, disease stages, and applied quantification methods. To advance TSPO PET as a potential biomarker to evaluate brain inflammation and anti-inflammatory therapies, a better understanding of its applicability across disorders is needed. We conducted a transdiagnostic systematic review and meta-analysis of all in vivo human TSPO PET imaging case-control studies in the CNS. Specifically, we investigated the direction, strength, and heterogeneity associated with the TSPO PET signal across disorders in pre-specified brain regions, and explored the demographic and methodological sources of heterogeneity. We searched for English peer-reviewed articles that reported in vivo human case-control TSPO PET differences. We extracted the demographic details, TSPO PET outcomes, and technical variables of the PET procedure. A random-effects meta-analysis was applied to estimate case-control standardized mean differences (SMD) of the TSPO PET signal in the lobar/whole-brain cortical grey matter (cGM), thalamus, and cortico-limbic circuitry between different illness categories. Heterogeneity was evaluated with the I2 statistic and explored using subgroup and meta-regression analyses for radioligand generation, PET quantification method, age, sex, and publication year. Significance was set at the False Discovery Rate (FDR)-corrected P < 0.05. 156 individual case-control studies were included in the systematic review, incorporating data for 2381 healthy controls and 2626 patients. 139 studies documented meta-analysable data and were grouped into 11 illness categories. Across all the illness categories, we observed a significantly higher TSPO PET signal in cases compared to controls for the cGM (n = 121 studies, SMD = 0.358, P FDR < 0.001, I2 = 68%), with a significant difference between the illness categories (P = 0.004). cGM increases were only significant for Alzheimer's disease (SMD = 0.693, P FDR < 0.001, I2 = 64%) and other neurodegenerative disorders (SMD = 0.929, P FDR < 0.001, I2 = 73%). Cortico-limbic increases (n = 97 studies, SMD = 0.541, P < 0.001, I2 = 67%) were most prominent for Alzheimer's disease, mild cognitive impairment, other neurodegenerative disorders, mood disorders and multiple sclerosis. Thalamic involvement (n = 79 studies, SMD = 0.393, P < 0.001, I2 = 71%) was observed for Alzheimer's disease, other neurodegenerative disorders, multiple sclerosis, and chronic pain and functional disorders (all P FDR < 0.05). Main outcomes for systemic immunological disorders, viral infections, substance use disorders, schizophrenia and traumatic brain injury were not significant. We identified multiple sources of between-study variance to the TSPO PET signal including a strong transdiagnostic effect of the quantification method (explaining 25% of between-study variance; V T -based SMD = 0.000 versus reference tissue-based studies SMD = 0.630; F = 20.49, df = 1;103, P < 0.001), patient age (9% of variance), and radioligand generation (5% of variance). This study is the first overarching transdiagnostic meta-analysis of case-control TSPO PET findings in humans across several brain regions. We observed robust increases in the TSPO signal for specific types of disorders, which were widespread or focal depending on illness category. We also found a large and transdiagnostic horizontal (positive) shift of the effect estimates of reference tissue-based compared to V T -based studies. Our results can support future studies to optimize experimental design and power calculations, by taking into account the type of disorder, brain region-of-interest, radioligand, and quantification method. [ABSTRACT FROM AUTHOR]

Published
2023
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39. Comparison of Inflammatory and Acute-Phase Responses in the Brain and Peripheral Organs of the ME7 Model of Prion Disease.

Author

Cunningham, Colm, Wilcockson, David C., Boche, Delphine, and Perry, V. Hugh

Subjects
*PRION diseases, *ALZHEIMER'S disease, *CENTRAL nervous system diseases, *ACUTE phase proteins, *MICROGLIA, *BRAIN
Abstract

Chronic neurodegenerative diseases such as prion disease and Alzheimer's disease (AD) are reported to be associated with microglial activation and increased brain and serum cytokines and acute-phase proteins (APPs). Unlike AD, prion disease is also associated with a peripheral component in that the presumed causative agent, PrPSc, also accumulates in the spleen and other lymphoreticular organs. It is unclear whether the reported systemic acute-phase response represents a systemic inflammatory response to prion disease or merely reflects central nervous system (CNS) inflammation. For this study, we investigated whether intracerebrally initiated prion disease (ME7 model) provokes splenic, hepatic, or brain inflammatory and acute-phase responses. We detected no significant elevation of proinflammatory cytokines or activation of macrophages in the spleens of these animals, despite clear PrPSc deposition. Similarly, at 19 weeks we detected no significant elevation of transcripts for the APPs serum amyloid A, complement C3, pentraxin 3, and α2-antiplasmin in the liver, despite CNS neurodegeneration and splenic PrPSc deposition at this time. However, despite the low CNS expression levels of proinflammatory cytokines, there was robust expression of these APPs in degenerating brains. These findings suggest that PrPSc is not a stimulus for splenic macrophages and that neither peripheral PrPSc deposition nor CNS neurodegeneration is sufficient to produce a systemic acute-phase response. We also propose that serum cytokine and APP measurements are not useful during preclinical disease. Possible consequences of the clear chronic elevation of APPs in the CNS are discussed. [ABSTRACT FROM AUTHOR]

Published
2005
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40. Inflammation in dementia with Lewy bodies.

Author

Amin, Jay, Erskine, Daniel, Donaghy, Paul C., Surendranathan, Ajenthan, Swann, Peter, Kunicki, Amy P., Boche, Delphine, Holmes, Clive, McKeith, Ian G., O'Brien, John T., Teeling, Jessica L., and Thomas, Alan J.

Subjects
*LEWY body dementia, *INFLAMMATION, *POSITRON emission tomography, *PARKINSON'S disease, *ALZHEIMER'S disease, *MOVEMENT disorders
Abstract

Dementia with Lewy bodies (DLB) is the second most common neurodegenerative cause of dementia, behind Alzheimer's disease (AD). The profile of inflammation in AD has been extensively researched in recent years, with evidence that chronic peripheral inflammation in midlife increases the risk of late-onset AD, and data supporting inflammation being associated with disease progression. In contrast, our understanding of the role of inflammation in DLB is less developed. Most research to date has examined inflammation in related disorders, such as Parkinson's disease, but there is now a growing range of literature examining inflammation in DLB itself. We present a review of the literature in this field, exploring a range of research methodologies including those quantifying markers of inflammation in cerebrospinal fluid, peripheral blood, post-mortem brain tissue, and using neuroimaging and preclinical data. Our review reveals evidence from PET imaging and peripheral blood analysis to support an increase in cerebral and peripheral inflammation in mild or prodromal DLB, that dissipates with disease progression. We present evidence from post-mortem brain tissue and pre-clinical studies that indicate α-synuclein directly promotes inflammation, but that also support the presence of AD co-pathology as an important factor in the profile of neuroinflammation in DLB. We propose that specific markers of inflammation may play a sentinel role in the mild stage of the disease, particularly when combined with AD pathology. We advocate further examination of the profile of inflammation in DLB through robust longitudinal studies, to enhance our understanding of the pathogenesis of the disease. The goal should be to utilise future results to develop a composite biomarker to aid diagnosis of DLB, and to potentially identify novel therapeutic targets. • Imaging and blood cytokine data suggest an early peak in inflammation in DLB. • Alpha-synuclein and AD pathology are important drivers of inflammation in DLB. • It remains unclear whether DLB may be amenable to anti-inflammatory therapy. • Longitudinal clinical studies are required to enhance our knowledge in this area. [ABSTRACT FROM AUTHOR]

Published
2022
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41. Does Helicobacter pylori have an impact on Alzheimer’s disease ?

Author

Baudron Roubaud, Claire, Salles, Nathalie, Verny, Marc, Micheau, Jacques, O'Morain, Colm, Mégraud, Francis, Rainfray, Muriel, Nourhashemi, Fatemeh, Boche, Delphine, and STAR, ABES

Subjects
[SDV.IMM] Life Sciences [q-bio]/Immunology, Helicobacter pylori, Neuroinflammation, APPswe/PS1dE9, Animal model, Behaviour, Maladie d’Alzheimer, Alzheimer’s disease, Cognition et comportement
Abstract

Helicobacter pylori infection seems to play a critical role in extra-­‐gastric diseases including Alzheimer’s dementia (AD). Chronic H. pylori infection could worsen AD lesions via atherosclerosis and inflammation.In a cohort study with 603 non-­‐institutionalized individuals aged 65 and older followed from 1989 to 2008, dementia was more prevalent in the H. pylori-­‐positive group at baseline compared to non-­‐infected group. After 20 years of follow-­‐up, H. pylori infection was determined to be a risk factor for developing dementia after controlling for AD risk factors. In a second study, including 53 AD patients, H. pylori infection was associated with a more pronounced cognitive impairment. Homocysteine levels were positively correlated to cerebrovascular lesions and to H. pylori immunoglobulin levels. To bypass possible confounding biases concerning socio-­‐economic conditions for instance, we evaluated the impact of H. pylori infection on the brain of non-­‐AD predisposed C57BL/6J mice. After an 18-­‐month infection, H. pylori SS1 and H. felis induced a significant gastric inflammation but no brain Aβ deposit was observed in their brain and the infection did not lead to neuroinflammation. To go further, we studied the impact of Helicobacter species infection on cerebral lesions and behaviour of AD transgenic (APPswe/PS1dE9) mice and their wild type littermates. H. pylori infection was associated with an increased number of brain amyloid plaques, but not with an increased neuroinflammation nor a worsening behaviour at 6 and 10 months of age.Although epidemiological studies provided new elements for an association between AD and H. pylori infection, animal model studies did not display a worsening behaviour or an increased neuroinflammation despite an increased number of amyloid plaques. More studies are needed to firmly conclude that there is an association between H. pylori infection and AD., L’infection à Helicobacter pylori est responsable d’une inflammation gastrique chronique qui pourrait contribuer à l’apparition ou l’aggravation de pathologies extradigestives comme la maladie d’Alzheimer (MA). A partir des données de la cohorte PAQUID explorant les facteurs de risque de démence dans une population de patients de plus de 65 ans, nous avons montré que la prévalence de la démence augmentait chez les sujets infectés. Après 20 ans de suivi, l’infection à H. pylori était associée à une augmentation de l’incidence de démence après ajustement aux facteurs de risque connus de MA. Dans une deuxième étude incluant 53 patients atteints de MA, l’infection à H. pylori était associée à des performances cognitives plus sévères et le taux d’homocystéine était positivement corrélé aux lésions cérébrovasculaires et au taux d’anticorps anti-­‐H. pylori. Pour s’affranchir de possibles biais confondant comme le niveau socio-­‐économique, nous avons ensuite évalué l’impact de l’infection à H pylori sur le cerveau de souris sauvages (C57BL/6J) non prédisposées à la MA. Après 18 mois d’infection, alors que l’infection était associée à une inflammation gastrique importante, il n’a pas été retrouvé de plaque amyloïde ou de majoration de la neuroinflammation. Pour aller plus loin, nous avons étudié l’impact de l’infection à H. pylori sur le comportement et les lésions cérébrales de souris transgéniques prédisposées à la MA (APPswe/PS1dE9). Après 6 mois d’infection, les souris transgéniques présentaient plus de plaques amyloïdes sans majoration de la neuroinflammation ni des troubles du comportement.Bien que les études épidémiologiques apportent de nouveaux éléments en faveur d’une association entre la MA et l’infection à H. pylori, les études sur modèle animal ne mettent pas en évidence de majoration des troubles cognitifs ni de la neuroinflammation des souris infectées malgré une majoration du nombre de plaques amyloïdes. D’autres études sont nécessaires pour conclure à une association.

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