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1. MA08.04 Assessment of the Quality of the Surgical Procedure and the Operative Report Based on Nationwide French Registry: A RYTHMIC study

Author

Benítez, J.C., primary, Florez-Arango, J.D., additional, Boucher, M.-E., additional, Belaroussis, Y., additional, Jougon, J., additional, Hustache-Castaing, R., additional, Brouchet, L., additional, CAZAUX, M., additional, Gossot, D., additional, Boddaert, G., additional, Sage, E., additional, Glorion, M., additional, Mercier, O., additional, Menager, J.-B., additional, Falcoz, P.-E., additional, Pages, P.-B., additional, Madeleine, L., additional, Delatour, B., additional, Mauduit, M., additional, Fournel, L., additional, Prieto, M., additional, Missy, P., additional, Tran, Q., additional, Thomas, P., additional, Girard, N., additional, Besse, B., additional, and Brioude, G., additional

Published
2023
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9. PNEUMO-PECO : étude prospective et multicentrique comparant la prise en charge ambulatoire des pneumothorax spontanés à la prise en charge hospitalière

Author

Bazin, Y., primary, Sale, A., additional, Sohier, L., additional, Gangloff, C., additional, Andre, M., additional, Antone, E., additional, Trzepizur, W., additional, Chemery, L., additional, Guinard, S., additional, Guy, T., additional, Le Ho, H., additional, Gut-Gobert, C., additional, Bernier, C., additional, Delatour, B., additional, and Jouneau, S., additional

Published
2019
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10. In vivo 1H MRS study in microlitre voxels in the hippocampus of a mouse model of Down syndrome at 11.7 T

Author

Santin, M. D., Valabregue, R., Rivals, I., Penager, R., Paquin, R., Dauphinot, L., Albac, C., Delatour, B., Potier, M. C., Plasticité cérébrale et adaptations des fonctions visuelles et motrices, Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de la Santé et de la Recherche Médicale (INSERM), Mathématiques et Informatique Appliquées (MIA-Paris), Institut National de la Recherche Agronomique (INRA)-AgroParisTech, Université Pierre et Marie Curie - Paris 6 (UPMC), Institut des Sciences et Ingénierie Chimiques (ISIC), Ecole Polytechnique Fédérale de Lausanne (EPFL), Institut du Cerveau et de la Moëlle Epinière = Brain and Spine Institute (ICM), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-CHU Pitié-Salpêtrière [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Neuroscience Paris Seine (NPS), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut de Biologie Paris Seine (IBPS), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Institut du Cerveau = Paris Brain Institute (ICM), Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Institut National de la Santé et de la Recherche Médicale (INSERM)-CHU Pitié-Salpêtrière [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Sorbonne Université (SU)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), AgroParisTech-Institut National de la Recherche Agronomique (INRA), Sorbonne Université (SU)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Centre National de la Recherche Scientifique (CNRS), Neurosciences Paris Seine (NPS), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Institut de Biologie Paris Seine (IBPS), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS), Institut National de la Santé et de la Recherche Médicale (INSERM)-CHU Pitié-Salpêtrière [AP-HP], and Sorbonne Université (SU)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)

Subjects
[SDV]Life Sciences [q-bio], ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2014

13. Specific targeting of the GABA-A receptor α5 subtype by a selective inverse agonist restores cognitive deficits in Down syndrome mice.

Author

Braudeau J, Delatour B, Duchon A, Pereira PL, Dauphinot L, de Chaumont F, Olivo-Marin JC, Dodd R, Hérault Y, Potier MC, Braudeau, J, Delatour, B, Duchon, A, Pereira, P Lopes, Dauphinot, L, de Chaumont, F, Olivo-Marin, J-C, Dodd, R H, Hérault, Y, and Potier, M-C

Abstract

An imbalance between inhibitory and excitatory neurotransmission has been proposed to contribute to altered brain function in individuals with Down syndrome (DS). Gamma-aminobutyric acid (GABA) is the major inhibitory neurotransmitter in the central nervous system and accordingly treatment with GABA-A antagonists can efficiently restore cognitive functions of Ts65Dn mice, a genetic model for DS. However, GABA-A antagonists are also convulsant which preclude their use for therapeutic intervention in DS individuals. Here, we have evaluated safer strategies to release GABAergic inhibition using a GABA-A-benzodiazepine receptor inverse agonist selective for the α5-subtype (α5IA). We demonstrate that α5IA restores learning and memory functions of Ts65Dn mice in the novel-object recognition and in the Morris water maze tasks. Furthermore, we show that following behavioural stimulation, α5IA enhances learning-evoked immediate early gene products in specific brain regions involved in cognition. Importantly, acute and chronic treatments with α5IA do not induce any convulsant or anxiogenic effects that are associated with GABA-A antagonists or non-selective inverse agonists of the GABA-A-benzodiazepine receptors. Finally, chronic treatment with α5IA did not induce histological alterations in the brain, liver and kidney of mice. Our results suggest that non-convulsant α5-selective GABA-A inverse agonists could improve learning and memory deficits in DS individuals. [ABSTRACT FROM AUTHOR]

Published
2011
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14. Characterization of in vivo MRI detectable thalamic amyloide plaques from APP/PS1 mice

Author

Dhenain, M., El Tannir, N., Wu, T. D., Guégan, M., Volk, A., Quintana Rodríguez, Carmen, Delatour, B., Dhenain, M., El Tannir, N., Wu, T. D., Guégan, M., Volk, A., Quintana Rodríguez, Carmen, and Delatour, B.

Abstract

Amyloid deposits are one of the hallmarks of Alzheimer’s disease. Recent studies, in transgenic mice modeling Alzheimer’s disease showed that, using in vivo, contrast agent-free, MRI, thalamic amyloid plaques are more easily detected than other plaques of the brain. Our study evaluated the characteristics of these thalamic plaques in a large population of APP/PS1, PS1 and C57BL/6 mice. Thalamic spots were detected in all mice but with different frequency and magnitude. Hence, the prevalence and size of the lesions were higher in APP/PS1 mice. However, even in APP/PS1 mice, thalamic spots did not occur in all the old animals. In APP/PS1 mice, spots detection was related to high iron and calcium load within amyloid plaques and thus reflects the ability of such plaque to capture large amounts of minerals. Interestingly, calcium and iron was also detected in extra-thalamic plaques but with a lower intensity. Hypointense lesions in the thalamus were not associated with the iron load in the tissue surrounding the plaques, nor with micro-hemorrhages, inflammation, or a neurodegenerative context.

Published
2008

15. Morphological and chemical studies of pathological human and mice brain at the subcellular level: correlation between light, electron, and nanosims microscopies.

Author

Quintana Rodríguez, Carmen, Wu, T. D., Delatour, B., Dhenain, M., Guerquin-Kern, J. L., Croisy, A., Quintana Rodríguez, Carmen, Wu, T. D., Delatour, B., Dhenain, M., Guerquin-Kern, J. L., and Croisy, A.

Abstract

Neurodegenerative diseases induce morphological and chemical alterations in well-characterized regions of the brain. Understanding their pathological processes requires the use of methods that assess both morphological and chemical alterations in the tissues. In the past, microprobe approaches such as scanning electron microscopy combined with an X-ray spectrometer, Proton induced X-ray emission, secondary ion mass spectrometry (SIMS), and laser microprobe mass analysis have been used for the study of pathological human brain with limited success. At the present, new SIMS instruments have been developed, such as the NanoSIMS-50 ion microprobe, that allow the simultaneous identification of five elements with high sensitivity, at subcellular spatial resolution (about 50-100 nm with the Cs(+) source and about 150-200 nm with O(-) source). Working in scanning mode, 2D distribution of five elements (elemental maps) can be obtained, thus providing their exact colocalization. The analysis can be performed on semithin or ultrathin embedded sections. The possibility of using transmission electron microscopy and SIMS on the same ultrathin sections allows the correlation between structural and analytical observations at subcellular and ultrastructural level to be established. Our observations on pathological brain areas allow us to establish that the NanoSIMS-50 ion microprobe is a highly useful instrument for the imaging of the morphological and chemical alterations that take place in these brain areas. In the human brain our results put forward the subcellular distribution of iron-ferritin-hemosiderin in the hippocampus of Alzheimer disease patients. In the thalamus of transgenic mice, our results have shown the presence of Ca-Fe mineralized amyloid deposits.

Published
2008

24. Chronic Treatment with a Promnesiant GABA-A α5-Selective Inverse Agonist Increases Immediate Early Genes Expression during Memory Processing in Mice and Rectifies Their Expression Levels in a Down Syndrome Mouse Model.

Author

Braudeau, J., Dauphinot, L., Duchon, A., Loistron, A., Dodd, R. H., Hérault, Y., Delatour, B., and Potier, M. C.

Subjects
GENE expression, GABA agonists, LABORATORY mice, DOWN syndrome, BENZODIAZEPINE receptors, HIPPOCAMPUS (Brain), GENETIC regulation, BRAIN function localization
Abstract

Decrease of GABAergic transmission has been proposed to improve memory functions. Indeed, inverse agonists selective for α5 GABA-A-benzodiazepine receptors (α5IA) have promnesiant activity. Interestingly, we have recently shown that α5IA can rescue cognitive deficits in Ts65Dn mice, a Down syndrome mouse model with altered GABAergic transmission. Here, we studied the impact of chronic treatment with α5IA on gene expression in the hippocampus of Ts65Dn and control euploid mice after being trained in the Morris water maze task. In euploid mice, chronic treatment with α5IA increased IEGs expression, particularly of c-Fos and Arc genes. In Ts65Dn mice, deficits of IEGs activation were completely rescued after treatment with α5IA. In addition, normalization of Sod1 overexpression in Ts65Dn mice after α5IA treatment was observed. IEG expression regulation after α5IA treatment following behavioral stimulation could be a contributing factor for both the general promnesiant activity of α5IA and its rescuing effect in Ts65Dn mice alongside signaling cascades that are critical for memory consolidation and cognition. [ABSTRACT FROM AUTHOR]

Published
2011
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25. One-year longitudinal evaluation of sensorimotor functions in APP751SL transgenic mice.

Author

Le Cudennec, C., Faure, A., Ly, M., and Delatour, B.

Subjects
INTRACEREBRAL hematoma, ALZHEIMER'S disease, LYMPHOPROLIFERATIVE disorders, DEVELOPMENTAL biology, GLYCOPROTEINS, TRANSGENIC mice
Abstract

Intracerebral amyloid-beta (Aβ) peptide deposition is considered to play a key role in Alzheimer’s disease and is designated as a principal therapeutic target. The relationship between brain Aβ levels and clinical deficits remains, however, unclear, both in human patients and in animal models of the disease. The purpose of the present study was to investigate, in a transgenic mouse model of brain amyloidosis, the consequences of Aβ deposition on basic neurological functions using a longitudinal approach. Animals were phenotyped at different ages corresponding to graded neuropathological stages (from no extracellular Aβ deposition to high amyloid loads). Sensory functions were evaluated by assessing visual and olfactory abilities and did not show any effects of the amyloid precursor protein (APP) transgene. Motor functions were assessed using multiple experimental paradigms. Results showed that motor strength was considerably reduced in APP transgenic mice compared with control animals. No deficit was noted in a motor coordination test although APP transgenic mice displayed decreased locomotion on a stationary beam. Hypolocomotion was also observed in the standard open-field test. Measures of anxiety obtained in the elevated plus-maze show some evidence of hyperanxiety in 15-month-old transgenic mice. Some of the neurological impairments showed by APP mice had an early onset and worsened with progressive aging, in parallel to gradual accumulation of Aβ in brain parenchyma. Relationships between neuropathologically assessed amyloid loads and behavioral deficits were further explored, and it was observed that motor strength deficits were correlated with cortical amyloid burden. [ABSTRACT FROM AUTHOR]

Published
2008
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28. A RESEARCH ON BLOOD SUGAR IN DEPANCREATIZED DOGS

Author

DELATOUR, B. J.

Abstract

Recent experiments on the intravenous injection of epinephrin in normal dogs give rise to a question of considerable interest. If the injection of epinephrin causes a temporary hyperglycemia in normal animals, the blood sugar increasing shortly after injection, what would be the result in animals from which the pancreas has been removed? On this idea of investigation, these series of experiments were commenced. The intravenous injection of epinephrin in man has shown, in addition to a temporary hyperglycemia, in some cases a decrease in the output of carbon dioxid from the lungs, which supports the theory that epinephrin inhibits the combustion of sugar in the body, in opposition to the school that believes epinephrin increases the blood sugar by increasing the output of glycogen from the liver. At least, it seemed probable in undertaking this work that a relationship or antagonism might be determined between the pancreas and epinephrin toward

Published
1920
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29. THE ADRENALIN INDEX OF THE SUPRARENAL GLANDS IN HEALTH AND DISEASE

Author

Sydenstricker, V. P. W., Delatour, B. J., and Whipple, G. H.

Abstract

The adrenalin index as used in this paper means the amount of adrenalin in milligrams per gram of gland. As in our hands the chemical colorimetric method has proved more accurate, these values rather than the physiological values will be given in the final analysis. The two adrenal glands in the same individual as a rule contain about the same amount of adrenalin per gram, but variations of 10 to 20 per cent. are not unusual. Normal dogs show an index which may vary from 1.2 to 1.8 milligrams. The dogs were killed by short ether anesthesia and bleeding from the carotid. Normal human beings, dying from trauma, rupture of aneurysm, etc., show an index of 0.35 to 0.50 of a milligram, when autopsy takes place a few hours after death. Deterioration of uncut glands or of a gland hash kept on ice in the dark is not rapid and rarely exceeds 10 per cent. in twenty-four hours. Acute intoxication in dogs shows a low adrenalin index, especially the intoxication associated with intestinal obstruction and the closed intestinal loop. Intravenous injection of the poison found in closed duodenal loops sufficient to cause fatal shock causes a great drop in the adrenalin index, at times to one fourth normal or even lower. After recovery from a sublethal toxic dose the adrenalin index may rise rapidly to a point considerably above normal. The same may hold for recovery after chloroform poisoning. Anesthesia by chloroform or ether causes a drop in the adrenalin index depending upon the length of anesthesia and probably in part on the depth of anesthesia. Liver poisons (chloroform, phosphorus, hydrazine) cause a drop in the adrenal index to a low level, perhaps one half normal in acute cases. Pancreas extirpation with prolonged glycosuria and death produces a great drop in the adrenalin index (cat). There is evidence that this may hold in some cases of human diabetes. In man disease of one adrenal (tuberculosis) may be associated with an adrenalin index of double the normal value in the intact adrenal. Pernicious anemia is the only disease so far found to present an abnormally high adrenalin index, and the single case shows an index at least twice normal. This is of interest especially in relation to the views recently put forward to indicate that the spleen and adrenal may be concerned in the lipoid metabolism which is thought to be profoundly disturbed in this disease. Secondary anemia due to repeated hemorrhage or the intoxication of cancer or tuberculosis causes a fall in the adrenalin index. Cachexia due to neoplasm or tuberculosis may cause a marked fall in the adrenalin index, perhaps to less than one half of normal. Acute infections (typhoid fever), septicemia, peritonitis, and similar conditions may be associated with a normal adrenalin index or one somewhat below normal. Diseases of the kidneys, heart, or blood vessels associated with elevated blood pressure show no constant variation in the adrenalin index, which may be normal or slightly subnormal.

Published
1914
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31. Automated deep learning segmentation of neuritic plaques and neurofibrillary tangles in Alzheimer disease brain sections using a proprietary software.

Author

Ingrassia L, Boluda S, Potier MC, Haïk S, Jimenez G, Kar A, Racoceanu D, Delatour B, and Stimmer L

Subjects
Humans, Aged, Female, Image Processing, Computer-Assisted methods, Male, Alzheimer Disease pathology, Alzheimer Disease diagnostic imaging, Neurofibrillary Tangles pathology, Deep Learning, Plaque, Amyloid pathology, Brain pathology, Brain diagnostic imaging, Software
Abstract

Neuropathological diagnosis of Alzheimer disease (AD) relies on semiquantitative analysis of phosphorylated tau-positive neurofibrillary tangles (NFTs) and neuritic plaques (NPs), without consideration of lesion heterogeneity in individual cases. We developed a deep learning workflow for automated annotation and segmentation of NPs and NFTs from AT8-immunostained whole slide images (WSIs) of AD brain sections. Fifteen WSIs of frontal cortex from 4 biobanks with varying tissue quality, staining intensity, and scanning formats were analyzed. We established an artificial intelligence (AI)-driven iterative procedure to improve the generation of expert-validated annotation datasets for NPs and NFTs thereby increasing annotation quality by >50%. This strategy yielded an expert-validated annotation database with 5013 NPs and 5143 NFTs. We next trained two U-Net convolutional neural networks for detection and segmentation of NPs or NFTs, achieving high accuracy and consistency (mean Dice similarity coefficient: NPs, 0.77; NFTs, 0.81). The workflow showed high generalization performance across different cases. This study serves as a proof-of-concept for the utilization of proprietary image analysis software (Visiopharm) in the automated deep learning segmentation of NPs and NFTs, demonstrating that AI can significantly improve the annotation quality of complex neuropathological features and enable the creation of highly precise models for identifying these markers in AD brain sections., (© The Author(s) 2024. Published by Oxford University Press on behalf of American Association of Neuropathologists, Inc. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published
2024
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32. Recommendations for Post-Operative RadioTherapy After Complete Resection of Thymoma-a French DELPHI Consensus Initiative.

Author

Basse C, Khalifa J, Thillays F, Le Pechoux C, Maury JM, Bonte PE, Coutte A, Pourel N, Bourbonne V, Pradier O, Belliere A, Le Tinier F, Deberne M, Tanguy R, Denis F, Padovani L, Zaccariotto A, Molina T, Chalabreysse L, Brioude G, Delatour B, Faivre JC, Cao K, Giraud P, Riet FG, Thureau S, Antoni D, Massabeau C, Keller A, Bonnet E, Lerouge D, Martin E, Girard N, and Botticella A

Subjects
Humans, France, Postoperative Care methods, Postoperative Care standards, Thymoma radiotherapy, Thymoma surgery, Thymoma pathology, Thymus Neoplasms radiotherapy, Thymus Neoplasms surgery, Thymus Neoplasms pathology, Delphi Technique, Consensus
Abstract

Introduction: Thymomas are rare intrathoracic malignancies that can relapse after surgery. Whether or not Post-Operative RadioTherapy (PORT) should be delivered after surgery remains a major issue. RADIORYTHMIC is an ongoing, multicenter, randomized phase 3 trial addressing this question in patients with completely R0 resected Masaoka-Koga stage IIb/III thymoma. Experts in the field met to develop recommendations for PORT., Methods: A scientific committee from the RYTHMIC network identified key issues regarding the modalities of PORT in completely resected thymoma. A DELPHI method was used to question 24 national experts, with 115 questions regarding the following: (1) imaging techniques, (2) clinical target volume (CTV) and margins, (3) dose constraints to organs at risk, (4) dose and fractionation, and (5) follow-up and records. Consensus was defined when opinions reached more than or equal to 80% agreement., Results: We established the following recommendations: preoperative contrast-enhanced computed tomography (CT) scan is recommended (94% agreement); optimization of radiation delivery includes either a four-dimensional CT-based planning (82% agreement), a breath-holding inspiration breath-hold-based planning, or daily control CT imaging (81% agreement); imaging fusion based on cardiovascular structures of preoperative and planning CT scan is recommended (82% agreement); right coronary and left anterior descending coronary arteries should be delineated as cardiac substructures (88% agreement); rotational RCMI/volumetric modulated arc therapy is recommended (88% agreement); total dose is 50 Gy (81% agreement) with 1.8 to 2 Gy per fraction (94% agreement); cardiac evaluation and follow-up for patients with history of cardiovascular disease are recommended (88% agreement) with electrocardiogram and evaluation of left ventricular ejection fraction at 5 years and 10 years., Conclusion: This is the first consensus for PORT in thymoma. Implementation will help to harmonize practices., Competing Interests: Disclosure The authors have no conflict of interest to disclose concerning the current work., (Copyright © 2024 International Association for the Study of Lung Cancer. Published by Elsevier Inc. All rights reserved.)

Published
2024
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33. A large-scale volumetric correlated light and electron microscopy study localizes Alzheimer's disease-related molecules in the hippocampus.

Author

Han X, Li PH, Wang S, Sanchez M, Aggarwal S, Blakely T, Schalek R, Meirovitch Y, Lin Z, Berger D, Wu Y, Aly F, Bay S, Delatour B, LaFaye P, Pfister H, Wei D, Jain V, Ploegh H, and Lichtman J

Abstract

Connectomics is a nascent neuroscience field to map and analyze neuronal networks. It provides a new way to investigate abnormalities in brain tissue, including in models of Alzheimer's disease (AD). This age-related disease is associated with alterations in amyloid-β (Aβ) and phosphorylated tau (pTau). These alterations correlate with AD's clinical manifestations, but causal links remain unclear. Therefore, studying these molecular alterations within the context of the local neuronal and glial milieu may provide insight into disease mechanisms. Volume electron microscopy (vEM) is an ideal tool for performing connectomics studies at the ultrastructural level, but localizing specific biomolecules within large-volume vEM data has been challenging. Here we report a volumetric correlated light and electron microscopy (vCLEM) approach using fluorescent nanobodies as immuno-probes to localize Alzheimer's disease-related molecules in a large vEM volume. Three molecules (pTau, Aβ, and a marker for activated microglia (CD11b)) were labeled without the need for detergents by three nanobody probes in a sample of the hippocampus of the 3xTg Alzheimer's disease model mouse. Confocal microscopy followed by vEM imaging of the same sample allowed for registration of the location of the molecules within the volume. This dataset revealed several ultrastructural abnormalities regarding the localizations of Aβ and pTau in novel locations. For example, two pTau-positive post-synaptic spine-like protrusions innervated by axon terminals were found projecting from the axon initial segment of a pyramidal cell. Three pyramidal neurons with intracellular Aβ or pTau were 3D reconstructed. Automatic synapse detection, which is necessary for connectomics analysis, revealed the changes in density and volume of synapses at different distances from an Aβ plaque. This vCLEM approach is useful to uncover molecular alterations within large-scale volume electron microscopy data, opening a new connectomics pathway to study Alzheimer's disease and other types of dementia.

Published
2023
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34. Effects of Low-Intensity Pulsed Ultrasound-Induced Blood-Brain Barrier Opening in P301S Mice Modeling Alzheimer's Disease Tauopathies.

Author

Géraudie A, Riche M, Lestra T, Trotier A, Dupuis L, Mathon B, Carpentier A, and Delatour B

Subjects
Mice, Animals, Blood-Brain Barrier pathology, Mice, Transgenic, Ultrasonic Waves, Alzheimer Disease genetics, Alzheimer Disease therapy, Alzheimer Disease pathology, Tauopathies therapy, Tauopathies pathology
Abstract

Alzheimer's disease (AD) is the leading cause of dementia. No treatments have led to clinically meaningful impacts. A major obstacle for peripherally administered therapeutics targeting the central nervous system is related to the blood-brain barrier (BBB). Ultrasounds associated with microbubbles have been shown to transiently and safely open the BBB. In AD mouse models, the sole BBB opening with no adjunct drugs may be sufficient to reduce lesions and mitigate cognitive decline. However, these therapeutic effects are for now mainly assessed in preclinical mouse models of amyloidosis and remain less documented in tau lesions. The aim of the present study was therefore to evaluate the effects of repeated BBB opening using low-intensity pulsed ultrasounds (LIPU) in tau transgenic P301S mice with two main readouts: tau-positive lesions and microglial cells. Our results show that LIPU-induced BBB opening does not decrease tau pathology and may even potentiate the accumulation of pathological tau in selected brain regions. In addition, LIPU-BBB opening in P301S mice strongly reduced microglia densities in brain parenchyma, suggesting an anti-inflammatory action. These results provide a baseline for future studies using LIPU-BBB opening, such as adjunct drug therapies, in animal models and in AD patients., Competing Interests: A.C. developed the ultrasound technology used in this study and deposited the patent related to this invention. A.C. is a shareholder and consultant for CarThera. The other authors declare no competing interests.

Published
2023
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35. Huntingtin recruits KIF1A to transport synaptic vesicle precursors along the mouse axon to support synaptic transmission and motor skill learning.

Author

Vitet H, Bruyère J, Xu H, Séris C, Brocard J, Abada YS, Delatour B, Scaramuzzino C, Venance L, and Saudou F

Abstract

Neurotransmitters are released at synapses by synaptic vesicles (SVs), which originate from SV precursors (SVPs) that have traveled along the axon. Because each synapse maintains a pool of SVs, only a small fraction of which are released, it has been thought that axonal transport of SVPs does not affect synaptic function. Here, studying the corticostriatal network both in microfluidic devices and in mice, we find that phosphorylation of the Huntingtin protein (HTT) increases axonal transport of SVPs and synaptic glutamate release by recruiting the kinesin motor KIF1A. In mice, constitutive HTT phosphorylation causes SV over-accumulation at synapses, increases the probability of SV release, and impairs motor skill learning on the rotating rod. Silencing KIF1A in these mice restored SV transport and motor skill learning to wild-type levels. Axonal SVP transport within the corticostriatal network thus influences synaptic plasticity and motor skill learning., Competing Interests: HV, JB, HX, CS, JB, YA, BD, CS, LV, FS No competing interests declared, (© 2023, Vitet et al.)

Published
2023
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36. Endogenous pathology in tauopathy mice progresses via brain networks.

Author

Ramirez DMO, Whitesell JD, Bhagwat N, Thomas TL, Ajay AD, Nawaby A, Delatour B, Bay S, LaFaye P, Knox JE, Harris JA, Meeks JP, and Diamond MI

Abstract

Neurodegenerative tauopathies are hypothesized to propagate via brain networks. This is uncertain because we have lacked precise network resolution of pathology. We therefore developed whole-brain staining methods with anti-p-tau nanobodies and imaged in 3D PS19 tauopathy mice, which have pan-neuronal expression of full-length human tau containing the P301S mutation. We analyzed patterns of p-tau deposition across established brain networks at multiple ages, testing the relationship between structural connectivity and patterns of progressive pathology. We identified core regions with early tau deposition, and used network propagation modeling to determine the link between tau pathology and connectivity strength. We discovered a bias towards retrograde network-based propagation of tau. This novel approach establishes a fundamental role for brain networks in tau propagation, with implications for human disease., Competing Interests: Competing interests: Authors declare that they have no competing interests.

Published
2023
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37. Golgi localization of SARS-CoV-2 spike protein and interaction with furin in cerebral COVID-19 microangiopathy: a clue to the central nervous system involvement?

Author

Boluda S, Mokhtari K, Mégarbane B, Annane D, Mathon B, Cao A, Adam C, Androuin A, Bielle F, Brochier G, Charlotte F, Chougar L, El Hachimi KH, Eloit M, Haïk S, Hervé D, Kasri A, Leducq V, Lehéricy S, Levavasseur E, Lobsiger C, Lorin de La Grandmaison G, Malet I, Malissin I, Marot S, Marty S, Pérot P, Plu I, Prigent A, Stimmer L, Potier MC, Marcelin AG, Delatour B, Duyckaerts C, and Seilhean D

Abstract

In a neuropathological series of 20 COVID-19 cases, we analyzed six cases (three biopsies and three autopsies) with multiple foci predominantly affecting the white matter as shown by MRI. The cases presented with microhemorrhages evocative of small artery diseases. This COVID-19 associated cerebral microangiopathy (CCM) was characterized by perivascular changes: arterioles were surrounded by vacuolized tissue, clustered macrophages, large axonal swellings and a crown arrangement of aquaporin-4 immunoreactivity. There was evidence of blood-brain-barrier leakage. Fibrinoid necrosis, vascular occlusion, perivascular cuffing and demyelination were absent. While no viral particle or viral RNA was found in the brain, the SARS-CoV-2 spike protein was detected in the Golgi apparatus of brain endothelial cells where it closely associated with furin, a host protease known to play a key role in virus replication. Endothelial cells in culture were not permissive to SARS-CoV-2 replication. The distribution of the spike protein in brain endothelial cells differed from that observed in pneumocytes. In the latter, the diffuse cytoplasmic labeling suggested a complete replication cycle with viral release, notably through the lysosomal pathway. In contrast, in cerebral endothelial cells the excretion cycle was blocked in the Golgi apparatus. Interruption of the excretion cycle could explain the difficulty of SARS-CoV-2 to infect endothelial cells in vitro and to produce viral RNA in the brain. Specific metabolism of the virus in brain endothelial cells could weaken the cell walls and eventually lead to the characteristic lesions of COVID-19 associated cerebral microangiopathy. Furin as a modulator of vascular permeability could provide some clues for the control of late effects of microangiopathy.

Published
2023
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38. Pilot study of repeated blood-brain barrier disruption in patients with mild Alzheimer's disease with an implantable ultrasound device.

Author

Epelbaum S, Burgos N, Canney M, Matthews D, Houot M, Santin MD, Desseaux C, Bouchoux G, Stroer S, Martin C, Habert MO, Levy M, Bah A, Martin K, Delatour B, Riche M, Dubois B, Belin L, and Carpentier A

Subjects
Blood-Brain Barrier diagnostic imaging, Blood-Brain Barrier metabolism, Brain diagnostic imaging, Brain metabolism, Humans, Neuroimaging methods, Pilot Projects, Positron-Emission Tomography methods, Alzheimer Disease diagnostic imaging, Alzheimer Disease metabolism, Alzheimer Disease therapy, Cognitive Dysfunction metabolism
Abstract

Background: Temporary disruption of the blood-brain barrier (BBB) using pulsed ultrasound leads to the clearance of both amyloid and tau from the brain, increased neurogenesis, and mitigation of cognitive decline in pre-clinical models of Alzheimer's disease (AD) while also increasing BBB penetration of therapeutic antibodies. The goal of this pilot clinical trial was to investigate the safety and efficacy of this approach in patients with mild AD using an implantable ultrasound device., Methods: An implantable, 1-MHz ultrasound device (SonoCloud-1) was implanted under local anesthesia in the skull (extradural) of 10 mild AD patients to target the left supra-marginal gyrus. Over 3.5 months, seven ultrasound sessions in combination with intravenous infusion of microbubbles were performed twice per month to temporarily disrupt the BBB. 18 F-florbetapir and 18 F-fluorodeoxyglucose positron emission tomography (PET) imaging were performed on a combined PET/MRI scanner at inclusion and at 4 and 8 months after the initiation of sonications to monitor the brain metabolism and amyloid levels along with cognitive evaluations. The evolution of cognitive and neuroimaging features was compared to that of a matched sample of control participants taken from the Alzheimer's Disease Neuroimaging Initiative (ADNI)., Results: A total of 63 BBB opening procedures were performed in nine subjects. The procedure was well-tolerated. A non-significant decrease in amyloid accumulation at 4 months of - 6.6% (SD = 7.2%) on 18 F-florbetapir PET imaging in the sonicated gray matter targeted by the ultrasound transducer was observed compared to baseline in six subjects that completed treatments and who had evaluable imaging scans. No differences in the longitudinal change in the glucose metabolism were observed compared to the neighboring or contralateral regions or to the change observed in the same region in ADNI participants. No significant effect on cognition evolution was observed in comparison with the ADNI participants as expected due to the small sample size and duration of the trial., Conclusions: These results demonstrate the safety of ultrasound-based BBB disruption and the potential of this technology to be used as a therapy for AD patients. Research of this technique in a larger clinical trial with a device designed to sonicate larger volumes of tissue and in combination with disease-modifying drugs may further enhance the effects observed., Trial Registration: ClinicalTrials.gov, NCT03119961., (© 2022. The Author(s).)

Published
2022
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39. Alterations of Neuronal Lysosomes in Alzheimer's Disease and in APPxPS1-KI Mice.

Author

Androuin A, Thierry M, Boluda S, Baskaran A, Langui D, Duyckaerts C, Potier MC, El Hachimi KH, Delatour B, and Marty S

Subjects
Amyloid beta-Peptides metabolism, Amyloid beta-Protein Precursor genetics, Amyloid beta-Protein Precursor metabolism, Animals, Disease Models, Animal, Humans, Lipofuscin metabolism, Lysosomes metabolism, Mice, Mice, Transgenic, Neurons metabolism, Alzheimer Disease pathology
Abstract

Background: The cellular and molecular alterations associated with synapse and neuron loss in Alzheimer's disease (AD) remain unclear. In transgenic mouse models that express mutations responsible for familial AD, neuronal and synaptic losses occur in populations that accumulate fibrillar amyloid-β 42 (Aβ42) intracellularly., Objective: We aimed to study the subcellular localization of these fibrillar accumulations and whether such intraneuronal assemblies could be observed in the human pathology., Methods: We used immunolabeling and various electron microscopy techniques on APP x presenilin1 - knock-in mice and on human cortical biopsies and postmortem samples., Results: We found an accumulation of Aβ fibrils in lipofuscin granule-like organelles in APP x presenilin1 - knock-in mice. Electron microscopy of human cortical biopsies also showed an accumulation of undigested material in enlarged lipofuscin granules in neurons from AD compared to age-matched non-AD patients. However, in those biopsies or in postmortem samples we could not detect intraneuronal accumulations of Aβ fibrils, neither in the lipofuscin granules nor in other intraneuronal compartments., Conclusion: The intralysosomal accumulation of Aβ fibrils in specific neuronal populations in APPxPS1-KI mice likely results from a high concentration of Aβ42 in the endosome-lysosome system due to the high expression of the transgene in these neurons.

Published
2022
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40. P2X7-deficiency improves plasticity and cognitive abilities in a mouse model of Tauopathy.

Author

Carvalho K, Martin E, Ces A, Sarrazin N, Lagouge-Roussey P, Nous C, Boucherit L, Youssef I, Prigent A, Faivre E, Eddarkaoui S, Gauvrit T, Vieau D, Boluda S, Huin V, Fontaine B, Buée L, Delatour B, Dutar P, Sennlaub F, Guillonneau X, Blum D, and Delarasse C

Subjects
Amyloid beta-Peptides, Animals, Cognition, Disease Models, Animal, Humans, Mice, Mice, Transgenic, tau Proteins genetics, Alzheimer Disease genetics, Receptors, Purinergic P2X7 deficiency, Tauopathies genetics
Abstract

Alzheimer's disease is the most common form of dementia characterized by intracellular aggregates of hyperphosphorylated Tau protein and extracellular accumulation of amyloid β (Aβ) peptides. We previously demonstrated that the purinergic receptor P2X7 (P2X7) plays a major role in Aβ-mediated neurodegeneration but the relationship between P2X7 and Tau remained overlooked. Such a link was supported by cortical upregulation of P2X7 in patients with various type of frontotemporal lobar degeneration, including mutation in the Tau-coding gene, MAPT, as well as in the brain of a Tauopathy mouse model (THY-Tau22). Subsequent phenotype analysis of P2X7-deficient Tau mice revealed the instrumental impact of this purinergic receptor. Indeed, while P2X7-deficiency had a moderate effect on Tau pathology itself, we observed a significant reduction of microglia activation and of Tau-related inflammatory mediators, particularly CCL4. Importantly, P2X7 deletion ultimately rescued synaptic plasticity and memory impairments of Tau mice. Altogether, the present data support a contributory role of P2X7 dysregulation on processes governing Tau-induced brain anomalies. Due to the convergent role of P2X7 blockade in both Aβ and Tau background, P2X7 inhibitors might prove to be ideal candidate drugs to curb the devastating cognitive decline in Alzheimer's disease and Tauopathies., (Copyright © 2021. Published by Elsevier Ltd.)

Published
2021
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41. The lipid phosphatase Synaptojanin 1 undergoes a significant alteration in expression and solubility and is associated with brain lesions in Alzheimer's disease.

Author

Ando K, Ndjim M, Turbant S, Fontaine G, Pregoni G, Dauphinot L, Yilmaz Z, Suain V, Mansour S, Authelet M, De Dekker R, Leroy K, Delatour B, Duyckaerts C, Potier MC, and Brion JP

Subjects
Aged, Apolipoproteins E genetics, Brain metabolism, Calpain metabolism, HEK293 Cells, Humans, Neurons metabolism, Neurons pathology, tau Proteins metabolism, Alzheimer Disease metabolism, Alzheimer Disease pathology, Brain pathology, Phosphoric Monoester Hydrolases metabolism, Protein Aggregation, Pathological pathology
Abstract

Synaptojanin 1 (SYNJ1) is a brain-enriched lipid phosphatase critically involved in autophagosomal/endosomal trafficking, synaptic vesicle recycling and metabolism of phosphoinositides. Previous studies suggest that SYNJ1 polymorphisms have significant impact on the age of onset of Alzheimer's disease (AD) and that SYNJ1 is involved in amyloid-induced toxicity. Yet SYNJ1 protein level and cellular localization in post-mortem human AD brain tissues have remained elusive. This study aimed to examine whether SYNJ1 localization and expression are altered in post-mortem AD brains. We found that SYNJ1 is accumulated in Hirano bodies, plaque-associated dystrophic neurites and some neurofibrillary tangles (NFTs). SYNJ1 immunoreactivity was higher in neurons and in the senile plaques in AD patients carrying one or two ApolipoproteinE (APOE) ε4 allele(s). In two large cohorts of APOE-genotyped controls and AD patients, SYNJ1 transcripts were significantly increased in AD temporal isocortex compared to control. There was a significant increase in SYNJ1 transcript in APOEε4 carriers compared to non-carriers in AD cohort. SYNJ1 was systematically co-enriched with PHF-tau in the sarkosyl-insoluble fraction of AD brain. In the RIPA-insoluble fraction containing protein aggregates, SYNJ1 proteins were significantly increased and observed as a smear containing full-length and cleaved fragments in AD brains. In vitro cleavage assay showed that SYNJ1 is a substrate of calpain, which is highly activated in AD brains. Our study provides evidence of alterations in SYNJ1 mRNA level and SYNJ1 protein degradation, solubility and localization in AD brains.

Published
2020
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42. Presynaptic APP levels and synaptic homeostasis are regulated by Akt phosphorylation of huntingtin.

Author

Bruyère J, Abada YS, Vitet H, Fontaine G, Deloulme JC, Cès A, Denarier E, Pernet-Gallay K, Andrieux A, Humbert S, Potier MC, Delatour B, and Saudou F

Subjects
Animals, Axonal Transport, Brain diagnostic imaging, Disease Models, Animal, Homeostasis, Magnetic Resonance Imaging, Male, Memory, Mice, Transgenic, Microfluidic Analytical Techniques, Morris Water Maze Test, Phosphorylation, Alzheimer Disease metabolism, Amyloid beta-Protein Precursor metabolism, Huntingtin Protein metabolism, Proto-Oncogene Proteins c-akt metabolism, Synapses metabolism
Abstract

Studies have suggested that amyloid precursor protein (APP) regulates synaptic homeostasis, but the evidence has not been consistent. In particular, signaling pathways controlling APP transport to the synapse in axons and dendrites remain to be identified. Having previously shown that Huntingtin (HTT), the scaffolding protein involved in Huntington's disease, regulates neuritic transport of APP, we used a microfluidic corticocortical neuronal network-on-a-chip to examine APP transport and localization to the pre- and post-synaptic compartments. We found that HTT, upon phosphorylation by the Ser/Thr kinase Akt, regulates APP transport in axons but not dendrites. Expression of an unphosphorylatable HTT decreased axonal anterograde transport of APP, reduced presynaptic APP levels, and increased synaptic density. Ablating in vivo HTT phosphorylation in APPPS1 mice, which overexpress APP, reduced presynaptic APP levels, restored synapse number and improved learning and memory. The Akt-HTT pathway and axonal transport of APP thus regulate APP presynaptic levels and synapse homeostasis., Competing Interests: JB, YA, HV, GF, JD, AC, ED, KP, AA, SH, MP, BD, FS No competing interests declared, (© 2020, Bruyère et al.)

Published
2020
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43. Exclusive ambulatory management of spontaneous pneumothorax with pigtail catheters, a prospective multicentric study.

Author

Salé A, Sohier L, Campion M, Le Hô R, Bazin Y, Gangloff C, Kerjouan M, Delatour B, Oger E, and Jouneau S

Subjects
Adolescent, Adult, Catheterization, Chest Tubes, Drainage, Female, Humans, Male, Pleurodesis, Prospective Studies, Treatment Outcome, Young Adult, Ambulatory Care methods, Catheters, Pneumothorax therapy
Abstract

Objective: Spontaneous pneumothorax occurs most frequently in young active patients. Published guidelines do not all agree about its initial management; most patients are hospitalised and treated with chest tube. This prospective multicentric cohort study was designed to assess the potential of ambulatory management., Methods: We included all consecutive patients with large spontaneous primary (PSP) and secondary pneumothoraces (SSP) presenting at the Lorient, Vitré and Rennes hospitals between December 2013 and July 2016. They were treated with a small-bore pigtail catheter and one-way valve and managed as outpatients following a specific protocol. When this failed, patients were hospitalised on day 4 for suction and surgical pleurodesis was envisaged on day 6. Patients were followed-up for one-year to assess relapse., Results: Of the 148 patients included (129 PSP, 19 SSP), 122 (82⋅4%) were managed exclusively as outpatient with success in 84⋅5% of PSP and 68⋅4% of SSP patients. There were few complications: 13 vaso-vagal episodes and 3 minor bleedings. The one-year recurrence rates were 33⋅1% for PSP and 52⋅6% for SSP (p = 0⋅114 Hazard Ratio = 0⋅538; IC95% [0⋅249-1⋅161])., Conclusion: These results are consistent with our previous study and confirm that this exclusive ambulatory management of spontaneous pneumothoraces can be successfully implemented in new centres with a high success rate and few complications., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Dr. Salé reports personal fees and non-financial support from AIRB, Boehringer, Roche, outside the submitted work; Dr. de Latour has nothing to disclose; Dr. Sohier has nothing to disclose; Dr. Campion has nothing to disclose; Dr. Le Ho has nothing to disclose; Dr. Bazin has nothing to disclose; Dr. Gangloff has nothing to disclose; Dr. Kerjouan has nothing to disclose; Dr. Oger has nothing to disclose; Dr. Jouneau reports grants from Rennes University Hospital (COREC 2011 funding), the ‘Association pour les insuffisants respiratories de Bretagne’ (AIRB), the French Ministry of Labour (DIRRECTE), and Novartis Pharma., during the conduct of the study; grants and non-financial support from AIRB, Boehringer, Gilead, GSK, LVL, Roche, Savara/Serendex, personal fees and non-financial support from Actelion, AIRB, Astra Zeneca, BMS, Boehringer, Chiesi, GSK, Mundipharma, Novartis, PfizerRoche, outside the submitted work., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published
2020
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44. Long-lasting correction of in vivo LTP and cognitive deficits of mice modelling Down syndrome with an α5-selective GABA A inverse agonist.

Author

Duchon A, Gruart A, Albac C, Delatour B, Zorrilla de San Martin J, Delgado-García JM, Hérault Y, and Potier MC

Subjects
Animals, Cognition, Disease Models, Animal, Maze Learning, Mice, Receptors, GABA-A, gamma-Aminobutyric Acid, Cognitive Dysfunction, Down Syndrome drug therapy, GABA-A Receptor Agonists pharmacology, Long-Term Potentiation
Abstract

Background and Purpose: Excessive GABAergic inhibition contributes to cognitive dysfunctions in Down syndrome (DS). Selective negative allosteric modulators (NAMs) of α5-containing GABA A receptors such as the α5 inverse agonist (α5IA) restore learning and memory deficits in Ts65Dn mice, a model of DS. In this study we have assessed the long-lasting effects of α5IA on in vivo LTP and behaviour in Ts65Dn mice., Experimental Approach: We made in vivo LTP recordings for six consecutive days in freely moving Ts65Dn mice and their wild-type littermates, treated with vehicle or α5IA. In parallel, Ts65Dn mice were assessed by various learning and memory tests (Y maze, Morris water maze, or the novel object recognition) for up to 7 days, following one single injection of α5IA or vehicle., Key Results: LTP was not evoked in vivo in Ts65Dn mice at hippocampal CA3-CA1 synapses. However, this deficit was sustainably reversed for at least six consecutive days following a single injection of α5IA. This long-lasting effect of α5IA was also observed when assessing working and long-term memory deficits in Ts65Dn mice., Conclusion and Implications: We show for the first time in vivo LTP deficits in Ts65Dn mice. These deficits were restored for at least 6 days following acute treatment with α5IA and might be the substrate for the long-lasting pharmacological effects of α5IA on spatial working and long-term recognition and spatial memory tasks. Our results demonstrate the relevance of negative allosteric modulators of α5-containing GABA A receptors to the treatment of cognitive deficits associated with DS., (© 2019 The Authors. British Journal of Pharmacology published by John Wiley & Sons Ltd on behalf of British Pharmacological Society.)

Published
2020
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45. Human subiculo-fornico-mamillary system in Alzheimer's disease: Tau seeding by the pillar of the fornix.

Author

Thierry M, Boluda S, Delatour B, Marty S, Seilhean D, Potier MC, and Duyckaerts C

Subjects
Aged, Aged, 80 and over, Alzheimer Disease metabolism, Disease Progression, Female, Fornix, Brain metabolism, Humans, Male, Middle Aged, Neural Pathways metabolism, Alzheimer Disease pathology, Amyloid beta-Peptides metabolism, Fornix, Brain pathology, Neural Pathways pathology, tau Proteins metabolism
Abstract

In Alzheimer's disease (AD), Tau and Aβ aggregates involve sequentially connected regions, sometimes distantly separated. These alterations were studied in the pillar of the fornix (PoF), an axonal tract, to analyse the role of axons in their propagation. The PoF axons mainly originate from the subicular neurons and project to the mamillary body. Forty-seven post-mortem cases at various Braak stages (Tau) and Thal phases (Aβ) were analysed by immunohistochemistry. The distribution of the lesions showed that the subiculum was affected before the mamillary body, but neither Tau aggregation nor Aβ deposition was consistently first. The subiculum and the mamillary body contained Gallyas positive neurofibrillary tangles, immunolabelled by AT8, TG3, PHF1, Alz50 and C3 Tau antibodies. In the PoF, only thin and fragmented threads were observed, exclusively in the cases with neurofibrillary tangles in the subiculum. The threads were made of Gallyas negative, AT8 and TG3 positive Tau. They were intra-axonal and devoid of paired helical filaments at electron microscopy. We tested PoF homogenates containing Tau AT8 positive axons in a Tau P301S biosensor HEK cell line and found a seeding activity. There was no Aβ immunoreactivity detected in the PoF. We could follow microcryodissected AT8 positive axons entering the mamillary body; contacts between Tau positive endings and Aβ positive diffuse or focal deposits were observed in CLARITY-cleared mamillary body. In conclusion, we show that non-fibrillary, hyperphosphorylated Tau is transported by the axons of the PoF from the subiculum to the mamillary body and has a seeding activity. Either Tau aggregation or Aβ accumulation may occur first in this system: this inconstant order is incompatible with a cause-and-effects relationship. However, both pathologies were correlated and intimately associated, indicating an interaction of the two processes, once initiated.

Published
2020
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46. Huntingtin phosphorylation governs BDNF homeostasis and improves the phenotype of Mecp2 knockout mice.

Author

Ehinger Y, Bruyère J, Panayotis N, Abada YS, Borloz E, Matagne V, Scaramuzzino C, Vitet H, Delatour B, Saidi L, Villard L, Saudou F, and Roux JC

Subjects
Animals, Disease Models, Animal, Female, Homeostasis, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Phenotype, Phosphorylation, Brain-Derived Neurotrophic Factor genetics, Huntingtin Protein chemistry, Methyl-CpG-Binding Protein 2 genetics, Rett Syndrome genetics
Abstract

Mutations in the X-linked MECP2 gene are responsible for Rett syndrome (RTT), a severe neurological disorder for which there is no treatment. Several studies have linked the loss of MeCP2 function to alterations of brain-derived neurotrophic factor (BDNF) levels, but non-specific overexpression of BDNF only partially improves the phenotype of Mecp2-deficient mice. We and others have previously shown that huntingtin (HTT) scaffolds molecular motor complexes, transports BDNF-containing vesicles, and is under-expressed in Mecp2 knockout brains. Here, we demonstrate that promoting HTT phosphorylation at Ser421, either by a phospho-mimetic mutation or inhibition of the phosphatase calcineurin, restores endogenous BDNF axonal transport in vitro in the corticostriatal pathway, increases striatal BDNF availability and synaptic connectivity in vivo, and improves the phenotype and the survival of Mecp2 knockout mice-even though treatments were initiated only after the mice had already developed symptoms. Stimulation of endogenous cellular pathways may thus be a promising approach for the treatment of RTT patients., (© 2020 The Authors. Published under the terms of the CC BY 4.0 license.)

Published
2020
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47. Effects of Chronic Masitinib Treatment in APPswe/PSEN1dE9 Transgenic Mice Modeling Alzheimer's Disease.

Author

Li T, Martin E, Abada YS, Boucher C, Cès A, Youssef I, Fenaux G, Forand Y, Legrand A, Nachiket N, Dhenain M, Hermine O, Dubreuil P, Delarasse C, and Delatour B

Subjects
Alzheimer Disease genetics, Amyloid beta-Peptides pharmacology, Amyloid beta-Protein Precursor genetics, Animals, Benzamides, Disease Models, Animal, Male, Mice, Transgenic, Piperidines, Presenilin-1 genetics, Presenilin-1 pharmacology, Pyridines, Thiazoles administration & dosage, Alzheimer Disease drug therapy, Cognition drug effects, Synapses drug effects, Thiazoles pharmacology
Abstract

Background: Masitinib is a selective tyrosine kinase inhibitor that modulates mast cells activity. A previous phase II study reported a cognitive effect of masitinib in patients with Alzheimer's disease., Objective: We aimed to shed light on the mode of action of masitinib in Alzheimer's disease., Methods/results: We demonstrated here that chronic oral treatment of APPswe/PSEN1dE9 transgenic mice modeling Alzheimer's disease restored normal spatial learning performance while having no impacts on amyloid-β loads nor on neuroinflammation. However, masitinib promoted a recovery of synaptic markers. Complete genetic depletion of mast cells in APPswe/PSEN1dE9 mice similarly rescued synaptic impairments., Conclusion: These results underline that masitinib therapeutic efficacy might primarily be associated with a synapto-protective action in relation with mast cells inhibition.

Published
2020
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48. Mechanisms Associated with Type 2 Diabetes as a Risk Factor for Alzheimer-Related Pathology.

Author

Su M, Naderi K, Samson N, Youssef I, Fülöp L, Bozso Z, Laroche S, Delatour B, and Davis S

Subjects
Alzheimer Disease blood, Alzheimer Disease physiopathology, Amyloid beta-Peptides administration & dosage, Animals, Blood Glucose metabolism, Diabetes Mellitus, Type 2 blood, Feeding Behavior, Hippocampus pathology, Hippocampus ultrastructure, Humans, Insulin blood, Male, Memory, Memory Disorders complications, Models, Biological, Phosphorylation, Rats, Sprague-Dawley, Risk Factors, Streptozocin, Weight Gain, Alzheimer Disease epidemiology, Alzheimer Disease etiology, Diabetes Mellitus, Type 2 complications
Abstract

Current evidence suggests dementia and pathology in Alzheimer's Disease (AD) are both dependent and independent of amyloid processing and can be induced by multiple 'hits' on vital neuronal functions. Type 2 diabetes (T2D) poses the most important risk factor for developing AD after ageing and dysfunctional IR/PI3K/Akt signalling is a major contributor in both diseases. We developed a model of T2D, coupling subdiabetogenic doses of streptozotocin (STZ) with a human junk food (HJF) diet to more closely mimic the human condition. Over 35 weeks, this induced classic signs of T2D (hyperglycemia and insulin dysfunction) and a modest, but stable deficit in spatial recognition memory, with very little long-term modification of proteins in or associated with IR/PI3K/Akt signalling in CA1 of the hippocampus. Intracerebroventricular infusion of soluble amyloid beta 42 (Aβ42) to mimic the early preclinical rise in Aβ alone induced a more severe, but short-lasting deficits in memory and deregulation of proteins. Infusion of Aβ on the T2D phenotype exacerbated and prolonged the memory deficits over approximately 4 months, and induced more severe aberrant regulation of proteins associated with autophagy, inflammation and glucose uptake from the periphery. A mild form of environmental enrichment transiently rescued memory deficits and could reverse the regulation of some, but not all protein changes. Together, these data identify mechanisms by which T2D could create a modest dysfunctional neuronal milieu via multiple and parallel inputs that permits the development of pathological events identified in AD and memory deficits when Aβ levels are transiently effective in the brain.

Published
2019
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49. Activity-induced MEMRI cannot detect functional brain anomalies in the APPxPS1-Ki mouse model of Alzheimer's disease.

Author

Androuin A, Abada YS, Ly M, Santin M, Petiet A, Epelbaum S, Bertrand A, and Delatour B

Subjects
Animals, Disease Models, Animal, Evaluation Studies as Topic, Manganese chemistry, Mice, Mice, 129 Strain, Mice, Inbred C57BL, Mice, Transgenic, Neurons pathology, Alzheimer Disease diagnostic imaging, Alzheimer Disease physiopathology, Blood-Brain Barrier diagnostic imaging, Blood-Brain Barrier physiopathology, Magnetic Resonance Imaging methods
Abstract

Alzheimer's disease (AD) is the most common cause of dementia. Aside neuropathological lesions, abnormal neuronal activity and brain metabolism are part of the core symptoms of the disease. Activity-induced Manganese-Enhanced Magnetic Resonance Imaging (MEMRI) has been proposed as a powerful approach to visualize evoked brain activity in rodents. Here, we evaluated the relevance of MEMRI in measuring neuronal (dys-)function in the APPxPS1 knocked-in (KI) mouse model of AD. Brain anomalies were firstly demonstrated in APPxPS1-Ki mice using cognitive testing (memory impairment) and histological mapping of immediate early gene products (decreased density of fos-positive neurons). Paradoxically, MEMRI analyses were not able to confirm the occurrence of neuronal hypoactivities in vivo. We then performed a neuropathological analysis that highlighted an abnormal increased permeability of the blood-brain barrier (BBB) in APPxPS1-Ki mice. We hypothesized that diffuse weakening of the BBB results in an uncontrolled diffusion of the MR contrast agent and a lack of correlation between manganese accumulation and neuronal activity. These results bring to light a limitation of the activity-induced MEMRI approach when applied to the APPxPS1-Ki mouse model as well as other mouse models harboring a compromised BBB.

Published
2019
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