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4. Additional file 2 of Early-life stress elicits peripheral and brain immune activation differently in wild type and 5xFAD mice in a sex-specific manner

Author

Bachiller, S., Hidalgo, I., Garcia, M. G., Boza-Serrano, A., Paulus, A., Denis, Q., Haikal, C., Manouchehrian, O., Klementieva, O., Li, J. Y., Pronk, C. J., Gouras, G. K., and Deierborg, T.

Abstract

Additional file 2: Fig. S2. Flow cytometry gating strategy. (A) Lymphoid gating strategy. TOP (from left to right): Exclusion of doublets (FSC-H vs FSC-A), debris (SSC-A vs FSC-A), dead cells (PI +) and selection of white blood cells (CD45 +). MIDDLE (from right to left): Selection of Natural killer (NK) cells, T helper (CD4 +), T cytotoxic (CD8 +) and B lymphocytes (B220 +) according to the sequence marked by the arrows and corresponding markers indicated in Y and X-axis for each plot. BOTTOM: Discrimination of activated T lymphocytes from CD4 or CD8 subsets indicated by arrows and based on the lack of CD62L expression in each case. (B)Myeloid gating strategy. TOP (from left to right): Exclusion of doublets (FSC-H vs FSC-A), debris (SSC-A vs FSC-A), dead cells (PI +) and selection of white blood cells (CD45 +). MIDDLE and BOTTOM: Selection of Dendritic cells (DC), Eosinophils, Neutrophils, Inflammatory Monocytes, and intermediate populations according to the sequence marked by the arrows and corresponding markers indicated in Y and X-axis for each plot.

Published
2022
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5. Additional file 1 of Early-life stress elicits peripheral and brain immune activation differently in wild type and 5xFAD mice in a sex-specific manner

Author

Bachiller, S., Hidalgo, I., Garcia, M. G., Boza-Serrano, A., Paulus, A., Denis, Q., Haikal, C., Manouchehrian, O., Klementieva, O., Li, J. Y., Pronk, C. J., Gouras, G. K., and Deierborg, T.

Subjects
nervous system
Abstract

Additional file 1: Fig. S1. Microglia and Ab plaques are not affected by the MS in the hippocampal dentate gyrus, CA1 and CA3 areas and amygdala at 4 months old. (A) Representative microphotographs of microglia (Iba1: white; DAPI: blue) in a whole-brain section of 4 months old mice. Scale bar: 500 μm. Quantification of Iba1 + area relative to the total area in each section from 2–3 sections/animal in (B) dentate gyrus (DG), (C) CA1, (D) CA3 and (E) amygdala (n = 5–9 animals/group). (F) Representative Congo Red staining in a whole-brain section of 4 months 5xFAD mice (left) and (right) the total positive plaques/mm2 (n = 5–8 animals/group). Data are shown as mean ± SD. *P < 0.05.

Published
2022
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10. Nano-Infrared Imaging of Primary Neurons

Author

Freitas, R. O., Cernescu, A., Engdahl, A., Paulus, A., Levandoski, J. E., Martinsson, I., Hebisch, E., Sandt, C., Gouras, G. K., Prinz, C. N., Deierborg, T., Borondics, F. and Klementieva, O.

Published
2021
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11. The effect of electroconvulsive therapy on neuroinflammation, behavior and amyloid plaques in the 5xFAD mouse model of Alzheimer's disease

Author

Universidad de Sevilla. Departamento de Bioquímica Médica y Biología Molecular e Inmunología, Svensson, M, Olsson, G, Yang, YY, Bachiller, Sara, Ekemohn, M, Deierborg, T, Universidad de Sevilla. Departamento de Bioquímica Médica y Biología Molecular e Inmunología, Svensson, M, Olsson, G, Yang, YY, Bachiller, Sara, Ekemohn, M, and Deierborg, T

Published
2021

12. Acute systemic LPS-exposure impairs perivascular CSF distribution in mice

Author

Universidad de Sevilla. Departamento de Bioquímica Médica y Biología Molecular e Inmunología, Manouchehrian, O., Ramos, M., Bachiller, Sara, Lundgaard, I., Deierborg, T., Universidad de Sevilla. Departamento de Bioquímica Médica y Biología Molecular e Inmunología, Manouchehrian, O., Ramos, M., Bachiller, Sara, Lundgaard, I., and Deierborg, T.

Abstract

The exchange of cerebrospinal (CSF) and interstitial fluid is believed to be vital for waste clearance in the brain. The sleep-dependent glymphatic system, which is comprised of perivascular flow of CSF and is largely dependent on arterial pulsatility and astrocytic aquaporin-4 (AQP4) expression, facilitates much of this brain clearance. During the last decade, several observations have indicated that impaired glymphatic function goes hand in hand with neurodegenerative diseases. Since pathologies of the brain carry inflammatory components, we wanted to know how acute inflammation, e.g., with lipopolysaccharide (LPS) injections, would affect the glymphatic system. In this study, we aim to measure the effect of LPS on perivascular CSF distribution as a measure of glymphatic function.

Published
2021

13. Diagnosis and long-term outcome in dogs with acute onset intracranial signs

Author

Gredal, H., Thomsen, B. B., Westrup, U., Boza-Serrano, A., Deierborg, T., McEvoy, F. J., Platt, S., Lambertsen, K. L., Berendt, M., Gredal, H., Thomsen, B. B., Westrup, U., Boza-Serrano, A., Deierborg, T., McEvoy, F. J., Platt, S., Lambertsen, K. L., and Berendt, M.

Abstract

Objectives: To investigate dogs with acute onset of intracranial signs suspected of stroke by primary veterinary clinicians, and establish possible differential diagnoses and long-term outcome. In addition, serum C-reactive protein and plasma cytokines were investigated as potential biomarkers of disease. Materials and Methods: All cases were evaluated by neurologic examination, routine haematology and biochemistry and measurement of serum C-reactive protein, plasma cytokine concentrations (interleukin-2, -6, -8, -10, tumour necrosis factor) and low-field MRI. Results: Primary veterinarians contacted the investigators with 85 suspected stroke cases. Only 20 met the inclusion criteria. Of these, two were diagnosed with ischaemic stroke. Other causes were idiopathic vestibular syndrome (n=6), brain tumour (n=5) and inflammatory brain disease (n=2); in five cases a precise diagnosis could not be determined. Median survival times were: brain tumour, 3 days, idiopathic vestibular syndrome, 315 days, ischaemic stroke, 365 days and inflammatory central nervous system (CNS) disease, 468 days. The median plasma concentrations of interleukin-2, -6, -8, -10 or tumour necrosis factor were not significantly increased in any of the diagnosis groups compared to healthy controls. Serum C-reactive protein was higher in dogs with brain tumours and inflammatory brain disease but not above the upper bound of the reference interval. Clinical Significance: Dogs that present with acute onset intracranial disease may have ischaemic stroke but are more likely to have other causes. Many dogs with such acute onset of neurological dysfunction (brain tumours excluded) may recover within a couple of weeks despite their initial severe clinical appearance.

Published
2020

15. Protocol for meta-analysis of temperature reduction in animal models of cardiac arrest

Author

Olai H, Thornéus G, Watson H, Malcolm Robert Macleod, Friberg H, Rhodes J, Nielsen N, Cronberg T, and Deierborg T

Subjects
Methods Articles, animals, meta‐analysis, Methods Article, cardiac arrest, hypothermia, global ischaemia, temperature management
Abstract

Targeted temperature management (TTM) of 32–34 °C has been the standard treatment for out‐of‐hospital cardiac arrest since clinical trials in 2002 showed benefits to survival and neurological outcome. Recently, this treatment has been challenged by another clinical trial showing no difference in outcome between TTM of 33 °C and 36 °C. This protocol describes the methodology for a meta‐analysis detailing temperature‐reducing interventions to treat global ischaemia in animal models. By combining relevant data sets in the literature, we will explore the experimental evidence for TTM. Our aims are to explain possible translational gaps and provide methodological considerations for future experimental research and clinical trials.

Published
2016
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25. Galectin-3 released in response to traumatic brain injury acts as an alarmin orchestrating brain immune response and promoting neurodegeneration

Author

Yip, PK, Carrillo-Jimenez, A, King, P, Vilalta, A, Nomura, K, Chau, CC, Egerton, AMS, Liu, Z-H, Shetty, AJ, Tremoleda, JL, Davies, M, Deierborg, T, Priestley, JV, Brown, GC, Michael-Titus, AT, Venero, JL, and Burguillos, MA

Subjects
Mice, Knockout, Neurons, Galectin 3, Immunity, Brain, Gene Expression, Cell Count, Hippocampus, 3. Good health, Disease Models, Animal, Mice, Brain Injuries, Traumatic, otorhinolaryngologic diseases, Animals, Microglia, Biomarkers
Abstract

Traumatic brain injury (TBI) is currently a major cause of morbidity and poor quality of life in Western society, with an estimate of 2.5 million people affected per year in Europe, indicating the need for advances in TBI treatment. Within the first 24 h after TBI, several inflammatory response factors become upregulated, including the lectin galectin-3. In this study, using a controlled cortical impact (CCI) model of head injury, we show a large increase in the expression of galectin-3 in microglia and also an increase in the released form of galectin-3 in the cerebrospinal fluid (CSF) 24 h after head injury. We report that galectin-3 can bind to TLR-4, and that administration of a neutralizing antibody against galectin-3 decreases the expression of IL-1β, IL-6, TNFα and NOS2 and promotes neuroprotection in the cortical and hippocampal cell populations after head injury. Long-term analysis demonstrated a significant neuroprotection in the cortical region in the galectin-3 knockout animals in response to TBI. These results suggest that following head trauma, released galectin-3 may act as an alarmin, binding, among other proteins, to TLR-4 and promoting inflammation and neuronal loss. Taking all together, galectin-3 emerges as a clinically relevant target for TBI therapy.

26. Hyperinflammation and Fibrosis in Severe COVID-19 Patients: Galectin-3, a Target Molecule to Consider

Author

Garcia-Revilla, Juan, Deierborg, Tomas, Venero, Jose Luis, Boza-Serrano, Antonio, [Garcia-Revilla,J, Venero,JL, Boza-Serrano,A] Departamento de Bioquímica y Biología Molecular, Facultad de Farmacia and Instituto de Biomedicina de Sevilla (IBiS), Hospital Universitario Virgen del Rocío/CSIC/Universidad de Sevilla, Seville, Spain. [Deierborg,T] Department of Experimental Medical Science, Experimental Neuroinflammation Laboratory, BMC, Lund University, Lund, Sweden. [Boza-Serrano,A] Department of Experimental Medical Sciences, Experimental Dementia Research Laboratory, BMC, Lund University, Lund, Sweden., This work was supported by grants from the Swedish Research Council (2019-06333, AB-S), and the Strong Research Environment MultiPark (Multidisciplinary Research in Parkinson’s and Alzheimer’s Disease at Lund University), Bagadilico (Linné consortium sponsored by the Swedish Research Council), the Swedish Alzheimer’s Foundation, Swedish Brain Foundation, A.E. Berger Foundation, Gyllenstiern-ska Krapperup Foundation, the Royal Physiographic Society, Crafoord Foundation, Olle Engkvist Byggmästare Foundation, Wiberg Foundation, G&J Kock Foundation, Stohnes Foundation, and Swedish Dementia Association and the Medical Faculty at Lund University. This perspective was also funded by the Spanish Ministerio de Ciencia, Innovación y Universidades/FEDER/UE RTI2018-098645-B-100, FEDER I+D+i-USE US-1265062, and US-1264806. JG-R has been funded by a grant from the Spanish Ministerio de Economia y Competitividad SAF2015-64171-R (MINECO/FEDER, EU)., Universidad de Sevilla. Departamento de Bioquímica y Biología Molecular, Swedish Research Council, Lund University, Swedish Alzheimer Foundation, Swedish Brain Foundation, Royal Physiographic Society of Lund, Crafoord Foundation, Olle Engkvist Foundation, Ake Wiberg Foundation, Gun and Bertil Stohnes Foundation, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), European Commission, and Ministerio de Economía y Competitividad (España)

Subjects
Galectina 3, Galectin 3, Galectins, Pulmonary Fibrosis, Infecciones por coronavirus, Immunology, Pneumonia, Viral, Peptidyl-Dipeptidase A, Cytokine storm, Severity of Illness Index, Betacoronavirus, Animals, Humans, Galectin-3, Molecular Targeted Therapy, Diseases::Respiratory Tract Diseases::Lung Diseases::Pulmonary Fibrosis [Medical Subject Headings], Pandemics, Inflammation, Chemicals and Drugs::Amino Acids, Peptides, and Proteins::Peptides::Intercellular Signaling Peptides and Proteins::Cytokines [Medical Subject Headings], Inflamación, Chemicals and Drugs::Amino Acids, Peptides, and Proteins::Proteins::Lectins::Galectins::Galectin 3 [Medical Subject Headings], SARS-CoV-2, COVID-19, Citocinas, Blood Proteins, Biomarker, Prognosis, Fibrosis, Diseases::Respiratory Tract Diseases::Lung Diseases::Pneumonia [Medical Subject Headings], Diseases::Virus Diseases::RNA Virus Infections::Nidovirales Infections::Coronaviridae Infections::Coronavirus Infections [Medical Subject Headings], Perspective, Host-Pathogen Interactions, Spike Glycoprotein, Coronavirus, Disease Progression, biomarker, Cytokines, Angiotensin-Converting Enzyme 2, Biomarcadores ambientales, Coronavirus Infections, Chemicals and Drugs::Biological Factors::Biological Markers::Biomarkers, Pharmacological [Medical Subject Headings], Diseases::Pathological Conditions, Signs and Symptoms::Pathologic Processes::Inflammation [Medical Subject Headings], Biomarkers
Abstract

COVID-19 disease have become so far the most important sanitary crisis in the XXI century. In light of the events, any clinical resource should be considered to alleviate this crisis. Severe COVID-19 cases present a so-called cytokine storm as the most life-threatening symptom accompanied by lung fibrosis. Galectin-3 has been widely described as regulator of both processes. Hereby, we present compelling evidences on the potential role of galectin-3 in COVID-19 in the regulation of the inflammatory response, fibrosis and infection progression. Moreover, we provide a strong rationale of the utility of measuring plasma galectin-3 as a prognosis biomarker for COVID-19 patients and propose that inhibition of galectin-3 represents a feasible and promising new therapeutical approach., This work was supported by grants from the Swedish Research Council (2019-06333, AB-S), and the Strong Research Environment MultiPark (Multidisciplinary Research in Parkinson’s and Alzheimer’s Disease at Lund University), Bagadilico (Linné consortium sponsored by the Swedish Research Council), the Swedish Alzheimer’s Foundation, Swedish Brain Foundation, A.E. Berger Foundation, Gyllenstiern-ska Krapperup Foundation, the Royal Physiographic Society, Crafoord Foundation, Olle Engkvist Byggmästare Foundation, Wiberg Foundation, G&J Kock Foundation, Stohnes Foundation, and Swedish Dementia Association and the Medical Faculty at Lund University. This perspective was also funded by the Spanish Ministerio de Ciencia, Innovación y Universidades/FEDER/UE RTI2018-098645-B-100, FEDER ICDCi-USE US-1265062, and US-1264806. JG-R has been funded by a grant from the Spanish Ministerio de Economia y Competitividad SAF2015-64171-R (MINECO/FEDER, EU).

Published
2020

27. Dopaminergic neurons lacking Caspase-3 avoid apoptosis but undergo necrosis after MPTP treatment inducing a Galectin-3-dependent selective microglial phagocytic response.

Author

García-Revilla J, Ruiz R, Espinosa-Oliva AM, Santiago M, García-Domínguez I, Camprubí-Ferrer L, Bachiller S, Deierborg T, Joseph B, de Pablos RM, Rodríguez-Gómez JA, and Venero JL

Subjects
Animals, Mice, Mice, Knockout, 1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine pharmacology, Mice, Inbred C57BL, Male, Dopaminergic Neurons metabolism, Dopaminergic Neurons drug effects, Dopaminergic Neurons pathology, Microglia metabolism, Microglia pathology, Microglia drug effects, Apoptosis drug effects, Galectin 3 metabolism, Galectin 3 genetics, Caspase 3 metabolism, Phagocytosis drug effects, Necrosis
Abstract

Parkinson's Disease (PD) is a progressive neurodegenerative disorder characterized by the loss of dopaminergic neurons in the Substantia nigra pars compacta (SNpc). Apoptosis is thought to play a critical role in the progression of PD, and thus understanding the effects of antiapoptotic strategies is crucial for developing potential therapies. In this study, we developed a unique genetic model to selectively delete Casp3, the gene encoding the apoptotic protein caspase-3, in dopaminergic neurons (TH-C3KO) and investigated its effects in response to a subacute regime of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) administration, which is known to trigger apoptotic loss of SNpc dopaminergic neurons. We found that Casp3 deletion did not protect the dopaminergic system in the long term. Instead, we observed a switch in the cell death pathway from apoptosis in wild-type mice to necrosis in TH-C3KO mice. Notably, we did not find any evidence of necroptosis in our model or in in vitro experiments using primary dopaminergic cultures exposed to 1-methyl-4-phenylpyridinium in the presence of pan-caspase/caspase-8 inhibitors. Furthermore, we detected an exacerbated microglial response in the ventral mesencephalon of TH-C3KO mice in response to MPTP, which mimicked the microglia neurodegenerative phenotype (MGnD). Under these conditions, it was evident the presence of numerous microglial phagocytic cups wrapping around apparently viable dopaminergic cell bodies that were inherently associated with galectin-3 expression. We provide evidence that microglia exhibit phagocytic activity towards both dead and stressed viable dopaminergic neurons through a galectin-3-dependent mechanism. Overall, our findings suggest that inhibiting apoptosis is not a beneficial strategy for treating PD. Instead, targeting galectin-3 and modulating microglial response may be more promising approaches for slowing PD progression., (© 2024. The Author(s).)

Published
2024
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28. Extracellular vesicles released from microglia after palmitate exposure impact brain function.

Author

De Paula GC, Aldana BI, Battistella R, Fernández-Calle R, Bjure A, Lundgaard I, Deierborg T, and Duarte JMN

Subjects
Animals, Mice, Male, Brain drug effects, Brain metabolism, Diet, High-Fat adverse effects, Cytokines metabolism, Microglia drug effects, Microglia metabolism, Extracellular Vesicles drug effects, Extracellular Vesicles metabolism, Palmitates toxicity, Palmitates pharmacology, Mice, Inbred C57BL
Abstract

Dietary patterns that include an excess of foods rich in saturated fat are associated with brain dysfunction. Although microgliosis has been proposed to play a key role in the development of brain dysfunction in diet-induced obesity (DIO), neuroinflammation with cytokine over-expression is not always observed. Thus, mechanisms by which microglia contribute to brain impairment in DIO are uncertain. Using the BV2 cell model, we investigated the gliosis profile of microglia exposed to palmitate (200 µmol/L), a saturated fatty acid abundant in high-fat diet and in the brain of obese individuals. We observed that microglia respond to a 24-hour palmitate exposure with increased proliferation, and with a metabolic network rearrangement that favors energy production from glycolysis rather than oxidative metabolism, despite stimulated mitochondria biogenesis. In addition, while palmitate did not induce increased cytokine expression, it modified the protein cargo of released extracellular vesicles (EVs). When administered intra-cerebroventricularly to mice, EVs secreted from palmitate-exposed microglia in vitro led to memory impairment, depression-like behavior, and glucose intolerance, when compared to mice receiving EVs from vehicle-treated microglia. We conclude that microglia exposed to palmitate can mediate brain dysfunction through the cargo of shed EVs., (© 2024. The Author(s).)

Published
2024
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29. Galectin-3 depletion tames pro-tumoural microglia and restrains cancer cells growth.

Author

Rivera-Ramos A, Cruz-Hernández L, Talaverón R, Sánchez-Montero MT, García-Revilla J, Mulero-Acevedo M, Deierborg T, Venero JL, and Sarmiento Soto M

Subjects
Animals, Humans, Mice, Blood Proteins metabolism, Breast Neoplasms pathology, Breast Neoplasms metabolism, Breast Neoplasms genetics, Breast Neoplasms immunology, Cell Line, Tumor, Galectins metabolism, Galectins genetics, Gene Expression Regulation, Neoplastic, Macrophages metabolism, Macrophages immunology, Neoplasm Invasiveness, Signal Transduction, Tumor-Associated Macrophages metabolism, Tumor-Associated Macrophages immunology, Brain Neoplasms pathology, Brain Neoplasms metabolism, Brain Neoplasms genetics, Brain Neoplasms immunology, Cell Movement, Cell Proliferation, Galectin 3 metabolism, Galectin 3 genetics, Glioblastoma pathology, Glioblastoma metabolism, Glioblastoma genetics, Glioblastoma immunology, Microglia metabolism, Microglia pathology, Tumor Microenvironment
Abstract

Galectin-3 (Gal-3) is a multifunctional protein that plays a pivotal role in the initiation and progression of various central nervous system diseases, including cancer. Although the involvement of Gal-3 in tumour progression, resistance to treatment and immunosuppression has long been studied in different cancer types, mainly outside the central nervous system, its elevated expression in myeloid and glial cells underscores its profound impact on the brain's immune response. In this context, microglia and infiltrating macrophages, the predominant non-cancerous cells within the tumour microenvironment, play critical roles in establishing an immunosuppressive milieu in diverse brain tumours. Through the utilisation of primary cell cultures and immortalised microglial cell lines, we have elucidated the central role of Gal-3 in promoting cancer cell migration, invasion, and an immunosuppressive microglial phenotypic activation. Furthermore, employing two distinct in vivo models encompassing primary (glioblastoma) and secondary brain tumours (breast cancer brain metastasis), our histological and transcriptomic analysis show that Gal-3 depletion triggers a robust pro-inflammatory response within the tumour microenvironment, notably based on interferon-related pathways. Interestingly, this response is prominently observed in tumour-associated microglia and macrophages (TAMs), resulting in the suppression of cancer cells growth., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper. Manuel Sarmiento Soto reports financial support was provided by Ministry of Scientific Research and Innovation. If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published
2024
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30. Galectin-3 is upregulated in frontotemporal dementia patients with subtype specificity.

Author

Borrego-Écija S, Pérez-Millan A, Antonell A, Fort-Aznar L, Kaya-Tilki E, León-Halcón A, Lladó A, Molina-Porcel L, Balasa M, Juncà-Parella J, Vitorica J, Venero JL, Deierborg T, Boza-Serrano A, and Sánchez-Valle R

Subjects
Humans, Galectin 3 genetics, Galectin 3 metabolism, tau Proteins cerebrospinal fluid, Brain pathology, Biomarkers cerebrospinal fluid, C9orf72 Protein genetics, Mutation genetics, Frontotemporal Dementia genetics, Frontotemporal Dementia diagnosis
Abstract

Introduction: Neuroinflammation is a major contributor to the progression of frontotemporal dementia (FTD). Galectin-3 (Gal-3), a microglial activation regulator, holds promise as a therapeutic target and potential biomarker. Our study aimed to investigate Gal-3 levels in patients with FTD and assess its diagnostic potential., Methods: We examined Gal-3 levels in brain, serum, and cerebrospinal fluid (CSF) samples of patients with FTD and controls. Multiple linear regressions between Gal-3 levels and other FTD markers were explored., Results: Gal-3 levels were increased significantly in patients with FTD, mainly across brain tissue and CSF, compared to controls. Remarkably, Gal-3 levels were higher in cases with tau pathology than TAR-DNA Binding Protein 43 (TDP-43) pathology. Only MAPT mutation carriers displayed increased Gal-3 levels in CSF samples, which correlated with total tau and 14-3-3., Discussion: Our findings underscore the potential of Gal-3 as a diagnostic marker for FTD, particularly in MAPT cases, and highlights the relation of Gal-3 with neuronal injury markers., (© 2023 The Authors. Alzheimer's & Dementia published by Wiley Periodicals LLC on behalf of Alzheimer's Association.)

Published
2024
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31. Inflammatory bowel disease induces pathological α-synuclein aggregation in the human gut and brain.

Author

Espinosa-Oliva AM, Ruiz R, Soto MS, Boza-Serrano A, Rodriguez-Perez AI, Roca-Ceballos MA, García-Revilla J, Santiago M, Serres S, Economopoulus V, Carvajal AE, Vázquez-Carretero MD, García-Miranda P, Klementieva O, Oliva-Martín MJ, Deierborg T, Rivas E, Sibson NR, Labandeira-García JL, Machado A, Peral MJ, Herrera AJ, Venero JL, and de Pablos RM

Subjects
Humans, Rats, Animals, alpha-Synuclein metabolism, Brain pathology, Inflammation pathology, Dopaminergic Neurons metabolism, Parkinson Disease pathology, Inflammatory Bowel Diseases pathology
Abstract

Aims: According to Braak's hypothesis, it is plausible that Parkinson's disease (PD) originates in the enteric nervous system (ENS) and spreads to the brain through the vagus nerve. In this work, we studied whether inflammatory bowel diseases (IBDs) in humans can progress with the emergence of pathogenic α-synuclein (α-syn) in the gastrointestinal tract and midbrain dopaminergic neurons., Methods: We have analysed the gut and the ventral midbrain from subjects previously diagnosed with IBD and form a DSS-based rat model of gut inflammation in terms of α-syn pathology., Results: Our data support the existence of pathogenic α-syn in both the gut and the brain, thus reinforcing the potential role of the ENS as a contributing factor in PD aetiology. Additionally, we have analysed the effect of a DSS-based rat model of gut inflammation to demonstrate (i) the appearance of P-α-syn inclusions in both Auerbach's and Meissner's plexuses (gut), (ii) an increase in α-syn expression in the ventral mesencephalon (brain) and (iii) the degeneration of nigral dopaminergic neurons, which all are considered classical hallmarks in PD., Conclusion: These results strongly support the plausibility of Braak's hypothesis and emphasise the significance of peripheral inflammation and the gut-brain axis in initiating α-syn aggregation and transport to the substantia nigra, resulting in neurodegeneration., (© 2024 The Authors. Neuropathology and Applied Neurobiology published by John Wiley & Sons Ltd on behalf of British Neuropathological Society.)

Published
2024
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32. Add-on pramipexole for anhedonic depression: study protocol for a randomised controlled trial and open-label follow-up in Lund, Sweden.

Author

Lindahl J, Asp M, Ståhl D, Tjernberg J, Eklund M, Björkstrand J, van Westen D, Jensen J, Månsson K, Tornberg Å, Svensson M, Deierborg T, Ventorp F, and Lindqvist D

Subjects
Humans, Pramipexole therapeutic use, Sweden, Follow-Up Studies, Randomized Controlled Trials as Topic, Depression drug therapy, Anhedonia
Abstract

Introduction: Many depressed patients do not achieve remission with available treatments. Anhedonia is a common residual symptom associated with treatment resistance as well as low function and quality of life. There are currently no specific and effective treatments for anhedonia. Some trials have shown that dopamine agonist pramipexole is efficacious for treating depression, but more data is needed before it could become ready for clinical prime time. Given its mechanism of action, pramipexole might be a useful treatment for a depression subtype characterised by significant anhedonia and lack of motivation-symptoms associated with dopaminergic hypofunction. We recently showed, in an open-label pilot study, that add-on pramipexole is a feasible treatment for depression with significant anhedonia, and that pramipexole increases reward-related activity in the ventral striatum. We will now confirm or refute these preliminary results in a randomised controlled trial (RCT) and an open-label follow-up study., Methods and Analysis: Eighty patients with major depression (bipolar or unipolar) or dysthymia and significant anhedonia according to the Snaith Hamilton Pleasure Scale (SHAPS) are randomised to either add-on pramipexole or placebo for 9 weeks. Change in anhedonia symptoms per the SHAPS is the primary outcome, and secondary outcomes include change in core depressive symptoms, apathy, sleep problems, life quality, anxiety and side effects. Accelerometers are used to assess treatment-associated changes in physical activity and sleep patterns. Blood and brain biomarkers are investigated as treatment predictors and to establish target engagement. After the RCT phase, patients continue with open-label treatment in a 6-month follow-up study aiming to assess long-term efficacy and tolerability of pramipexole., Ethics and Dissemination: The study has been approved by the Swedish Ethical Review Authority and the Swedish Medical Products Agency. The study is externally monitored according to Good Clinical Practice guidelines. Results will be disseminated via conference presentations and peer-reviewed publications., Trial Registration Number: NCT05355337 and NCT05825235., Competing Interests: Competing interests: MA has received speaking honorarium from H. Lundbeck AB. DL has received speaking honorarium from H. Lundbeck AB and Janssen-Cilag AB, (© Author(s) (or their employer(s)) 2023. Re-use permitted under CC BY. Published by BMJ.)

Published
2023
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33. Editorial: Present and future of biological fluid biomarkers in dementia.

Author

Frontiñán-Rubio J, Rabanal-Ruiz Y, Peinado JR, and Deierborg T

Abstract

Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision.

Published
2023
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34. A mixture of Nordic berries improves cognitive function, metabolic function and alters the gut microbiota in C57Bl/6J male mice.

Author

Huang F, Marungruang N, Martinsson I, Camprubí Ferrer L, Nguyen TD, Gondo TF, Karlsson EN, Deierborg T, Öste R, and Heyman-Lindén L

Abstract

Our diets greatly influence our health. Multiple lines of research highlight the beneficial properties of eating berries and fruits. In this study, a berry mixture of Nordic berries previously identified as having the potential to improve memory was supplemented to young C57Bl/6J male mice to investigate effects on cognition function, metabolic health, markers of neuroinflammation, and gut microbiota composition. C57Bl/6J male mice at the age of 8 weeks were given standard chow, a high-fat diet (HF, 60%E fat), or a high-fat diet supplemented with freeze-dried powder (20% dwb) of a mixture of Nordic berries and red grape juice (HF + Berry) for 18 weeks ( n = 12 animals/diet group). The results show that supplementation with the berry mixture may have beneficial effects on spatial memory, as seen by enhanced performance in the T-maze and Barnes maze compared to the mice receiving the high-fat diet without berries. Additionally, berry intake may aid in counteracting high-fat diet induced weight gain and could influence neuroinflammatory status as suggested by the increased levels of the inflammation modifying IL-10 cytokine in hippocampal extracts from berry supplemented mice. Furthermore, the 4.5-month feeding with diet containing berries resulted in significant changes in cecal microbiota composition. Analysis of cecal bacterial 16S rRNA revealed that the chow group had significantly higher microbial diversity, as measured by the Shannon diversity index and total operational taxonomic unit richness, than the HF group. The HF diet supplemented with berries resulted in a strong trend of higher total OTU richness and significantly increased the relative abundance of Akkermansia muciniphila , which has been linked to protective effects on cognitive decline. In conclusion, the results of this study suggest that intake of a Nordic berry mixture is a valuable strategy for maintaining and improving cognitive function, to be further evaluated in clinical trials., Competing Interests: FH was an industrial Ph.D. student at Lund University and employed by Aventure AB. NM and LH-L are employed by Berry Lab AB, which is a subsidiary of Aventure AB. RÖ was the founder of Aventure AB and Berry Lab AB. The authors declare that this study received funding from Berry Lab AB and Aventure AB. The funder had the following involvement in the study: conception or design of the work, collection, analysis, interpretation of data, the critical review of this article, and the decision to submit it for publication. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (Copyright © 2023 Huang, Marungruang, Martinsson, Camprubí Ferrer, Nguyen, Gondo, Karlsson, Deierborg, Öste and Heyman-Lindén.)

Published
2023
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35. LPS priming before plaque deposition impedes microglial activation and restrains Aβ pathology in the 5xFAD mouse model of Alzheimer's disease.

Author

Yang Y, García-Cruzado M, Zeng H, Camprubí-Ferrer L, Bahatyrevich-Kharitonik B, Bachiller S, and Deierborg T

Subjects
Mice, Animals, Lipopolysaccharides pharmacology, Microglia, Mice, Transgenic, Proteomics, Amyloid beta-Peptides, Disease Models, Animal, Alzheimer Disease pathology
Abstract

Microglia have an innate immunity memory (IIM) with divergent functions in different animal models of neurodegenerative diseases, including Alzheimer's disease (AD). AD is characterized by chronic neuroinflammation, neurodegeneration, tau tangles and β-amyloid (Aβ) deposition. Systemic inflammation has been implicated in contributing to the progression of AD. Multiple reports have demonstrated unique microglial signatures in AD mouse models and patients. However, the proteomic profiles of microglia modified by IIM have not been well-documented in an AD model. Therefore, in the present study, we investigate whether lipopolysaccharide (LPS)-induced IIM in the pre-clinical stage of AD alters the microglial responses and shapes the neuropathology. We accomplished this by priming 5xFAD and wild-type (WT) mice with an LPS injection at 6 weeks (before the robust development of plaques). 140 days later, we evaluated microglial morphology, activation, the microglial barrier around Aβ, and Aβ deposition in both 5xFAD primed and unprimed mice. Priming induced decreased soma size of microglia and reduced colocalization of PSD95 and Synaptophysin in the retrosplenial cortex. Priming appeared to increase phagocytosis of Aβ, resulting in fewer Thioflavin S + Aβ fibrils in the dentate gyrus. RIPA-soluble Aβ 40 and 42 were significantly reduced in Primed-5xFAD mice leading to a smaller size of MOAB2 + Aβ plaques in the prefrontal cortex. We also found that Aβ-associated microglia in the Primed-5xFAD mice were less activated and fewer in number. After priming, we also observed improved memory performance in 5xFAD. To further elucidate the molecular mechanism underlying these changes, we performed quantitative proteomic analysis of microglia and bone marrow monocytes. A specific pattern in the microglial proteome was revealed in primed 5xFAD mice. These results suggest that the imprint signatures of primed microglia display a distinctive phenotype and highlight the potential for a beneficial adaption of microglia when intervention occurs in the pre-clinical stage of AD., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2023
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37. Galectin-3 shapes toxic alpha-synuclein strains in Parkinson's disease.

Author

García-Revilla J, Boza-Serrano A, Jin Y, Vadukul DM, Soldán-Hidalgo J, Camprubí-Ferrer L, García-Cruzado M, Martinsson I, Klementieva O, Ruiz R, Aprile FA, Deierborg T, and Venero JL

Subjects
Animals, Humans, Mice, alpha-Synuclein metabolism, Dopaminergic Neurons metabolism, Lewy Bodies metabolism, Galectin 3 metabolism, Parkinson Disease metabolism
Abstract

Parkinson's Disease (PD) is a neurodegenerative and progressive disorder characterised by intracytoplasmic inclusions called Lewy bodies (LB) and degeneration of dopaminergic neurons in the substantia nigra (SN). Aggregated α-synuclein (αSYN) is known to be the main component of the LB. It has also been reported to interact with several proteins and organelles. Galectin-3 (GAL3) is known to have a detrimental function in neurodegenerative diseases. It is a galactose-binding protein without known catalytic activity and is expressed mainly by activated microglial cells in the central nervous system (CNS). GAL3 has been previously found in the outer layer of the LB in post-mortem brains. However, the role of GAL3 in PD is yet to be elucidated. In post-mortem samples, we identified an association between GAL3 and LB in all the PD subjects studied. GAL3 was linked to less αSYN in the LB outer layer and other αSYN deposits, including pale bodies. GAL3 was also associated with disrupted lysosomes. In vitro studies demonstrate that exogenous recombinant Gal3 is internalised by neuronal cell lines and primary neurons where it interacts with endogenous αSyn fibrils. In addition, aggregation experiments show that Gal3 affects spatial propagation and the stability of pre-formed αSyn fibrils resulting in short, amorphous toxic strains. To further investigate these observations in vivo, we take advantage of WT and Gal3KO mice subjected to intranigral injection of adenovirus overexpressing human αSyn as a PD model. In line with our in vitro studies, under these conditions, genetic deletion of GAL3 leads to increased intracellular αSyn accumulation within dopaminergic neurons and remarkably preserved dopaminergic integrity and motor function. Overall, our data suggest a prominent role for GAL3 in the aggregation process of αSYN and LB formation, leading to the production of short species to the detriment of larger strains which triggers neuronal degeneration in a mouse model of PD., (© 2023. The Author(s).)

Published
2023
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38. A comparison of machine learning approaches for the quantification of microglial cells in the brain of mice, rats and non-human primates.

Author

Anwer DM, Gubinelli F, Kurt YA, Sarauskyte L, Jacobs F, Venuti C, Sandoval IM, Yang Y, Stancati J, Mazzocchi M, Brandi E, O'Keeffe G, Steece-Collier K, Li JY, Deierborg T, Manfredsson FP, Davidsson M, and Heuer A

Subjects
Mice, Rats, Animals, Reproducibility of Results, Brain, Primates, Machine Learning, Mammals, Microglia metabolism, Parkinson Disease metabolism
Abstract

Microglial cells are brain-specific macrophages that swiftly react to disruptive events in the brain. Microglial activation leads to specific modifications, including proliferation, morphological changes, migration to the site of insult, and changes in gene expression profiles. A change in inflammatory status has been linked to many neurodegenerative diseases such as Parkinson's disease and Alzheimer's disease. For this reason, the investigation and quantification of microglial cells is essential for better understanding their role in disease progression as well as for evaluating the cytocompatibility of novel therapeutic approaches for such conditions. In the following study we implemented a machine learning-based approach for the fast and automatized quantification of microglial cells; this tool was compared with manual quantification (ground truth), and with alternative free-ware such as the threshold-based ImageJ and the machine learning-based Ilastik. We first trained the algorithms on brain tissue obtained from rats and non-human primate immunohistochemically labelled for microglia. Subsequently we validated the accuracy of the trained algorithms in a preclinical rodent model of Parkinson's disease and demonstrated the robustness of the algorithms on tissue obtained from mice, as well as from images provided by three collaborating laboratories. Our results indicate that machine learning algorithms can detect and quantify microglial cells in all the three mammalian species in a precise manner, equipotent to the one observed following manual counting. Using this tool, we were able to detect and quantify small changes between the hemispheres, suggesting the power and reliability of the algorithm. Such a tool will be very useful for investigation of microglial response in disease development, as well as in the investigation of compatible novel therapeutics targeting the brain. As all network weights and labelled training data are made available, together with our step-by-step user guide, we anticipate that many laboratories will implement machine learning-based quantification of microglial cells in their research., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Anwer et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2023
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39. Correction to: Galectin-3, a novel endogenous TREM2 ligand, detrimentally regulates inflammatory response in Alzheimer's disease.

Author

Boza-Serrano A, Ruiz R, Sanchez-Varo R, García-Revilla J, Yang Y, Jimenez-Ferrer I, Paulus A, Wennström M, Vilalta A, Allendorf D, Davila JC, Stegmayr J, Jiménez S, Roca-Ceballos MA, Navarro-Garrido V, Swanberg M, Hsieh CL, Real LM, Englund E, Linse S, Leffler H, Nilsson UJ, Brown GC, Gutierrez A, Vitorica J, Venero JL, and Deierborg T

Published
2023
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40. Targeting galectin-3 to counteract spike-phase uncoupling of fast-spiking interneurons to gamma oscillations in Alzheimer's disease.

Author

Arroyo-García LE, Bachiller S, Ruiz R, Boza-Serrano A, Rodríguez-Moreno A, Deierborg T, Andrade-Talavera Y, and Fisahn A

Subjects
Mice, Animals, Galectin 3 genetics, Galectin 3 therapeutic use, Mice, Transgenic, Neuroinflammatory Diseases, Amyloid beta-Peptides metabolism, Interneurons metabolism, Interneurons pathology, Plaque, Amyloid, Alzheimer Disease drug therapy, Alzheimer Disease genetics, Alzheimer Disease pathology
Abstract

Background: Alzheimer's disease (AD) is a progressive multifaceted neurodegenerative disorder for which no disease-modifying treatment exists. Neuroinflammation is central to the pathology progression, with evidence suggesting that microglia-released galectin-3 (gal3) plays a pivotal role by amplifying neuroinflammation in AD. However, the possible involvement of gal3 in the disruption of neuronal network oscillations typical of AD remains unknown., Methods: Here, we investigated the functional implications of gal3 signaling on experimentally induced gamma oscillations ex vivo (20-80 Hz) by performing electrophysiological recordings in the hippocampal CA3 area of wild-type (WT) mice and of the 5×FAD mouse model of AD. In addition, the recorded slices from WT mice under acute gal3 application were analyzed with RT-qPCR to detect expression of some neuroinflammation-related genes, and amyloid-β (Aβ) plaque load was quantified by immunostaining in the CA3 area of 6-month-old 5×FAD mice with or without Gal3 knockout (KO)., Results: Gal3 application decreased gamma oscillation power and rhythmicity in an activity-dependent manner, which was accompanied by impairment of cellular dynamics in fast-spiking interneurons (FSNs) and pyramidal cells. We found that the gal3-induced disruption was mediated by the gal3 carbohydrate-recognition domain and prevented by the gal3 inhibitor TD139, which also prevented Aβ42-induced degradation of gamma oscillations. Furthermore, the 5×FAD mice lacking gal3 (5×FAD-Gal3KO) exhibited WT-like gamma network dynamics and decreased Aβ plaque load., Conclusions: We report for the first time that gal3 impairs neuronal network dynamics by spike-phase uncoupling of FSNs, inducing a network performance collapse. Moreover, our findings suggest gal3 inhibition as a potential therapeutic strategy to counteract the neuronal network instability typical of AD and other neurological disorders encompassing neuroinflammation and cognitive decline., (© 2023. The Author(s).)

Published
2023
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41. A physically active lifestyle is associated with lower long-term incidence of bipolar disorder in a population-based, large-scale study.

Author

Svensson M, Erhardt S, Hållmarker U, James S, and Deierborg T

Abstract

Background: Physical activity has been proposed to be beneficial for the symptomatic control of bipolar disorder, but the duration of the effects, sex-specific mechanisms, and impact of exercise intensity are not known., Method: With an observational study design, we followed skiers and age and sex-matched non-skiers from the general population to investigate if participation in a long-distance cross-country ski race (Vasaloppet) was associated with a lower risk of getting diagnosed with bipolar disorder. Using the Swedish population and patient registries, skiers in Vasaloppet and age and sex-matched non-skiers from the general population were analyzed for any diagnosis of bipolar disorder after participation in the race. Additionally, we used finishing time of the ski race as a proxy for intensity levels to investigate if exercise intensity impacts the risk of bipolar disorder among the physically active skiers., Results: Previous participation in a long distance ski race (n = 197,685, median age 36 years, 38% women) was associated with a lower incidence of newly diagnosed bipolar compared to an age and sex-matched general population (n = 197,684) during the up to 21 years follow-up (adjusted hazard ratio, HR = 0.48). The finishing time of the race did not significantly impact the risk of bipolar disorder in men. Among women, high performance (measured as the finishing time to complete the race, a proxy for higher exercise dose) was associated with an increased risk of bipolar disorder compared to slower skiing women (HR = 2.07)., Conclusions: Our results confirm that a physically active lifestyle is associated with a lower risk of developing bipolar disorder. Yet, to elucidate the direction of causality in this relationship requires complementary study designs. And the influence of physical performance level on the risk of bipolar disorder warrants further examinations among women., (© 2022. The Author(s).)

Published
2022
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42. Galectin-3 is elevated in CSF and is associated with Aβ deposits and tau aggregates in brain tissue in Alzheimer's disease.

Author

Boza-Serrano A, Vrillon A, Minta K, Paulus A, Camprubí-Ferrer L, Garcia M, Andreasson U, Antonell A, Wennström M, Gouras G, Dumurgier J, Cognat E, Molina-Porcel L, Balasa M, Vitorica J, Sánchez-Valle R, Paquet C, Venero JL, Blennow K, and Deierborg T

Subjects
Amyloid beta-Peptides metabolism, Animals, Biomarkers cerebrospinal fluid, Brain pathology, Chitinase-3-Like Protein 1 metabolism, GAP-43 Protein metabolism, Galectin 3, Humans, Mice, Neurogranin, Plaque, Amyloid pathology, beta-Galactosidase metabolism, tau Proteins metabolism, Alzheimer Disease pathology
Abstract

Galectin-3 (Gal-3) is a beta-galactosidase binding protein involved in microglial activation in the central nervous system (CNS). We previously demonstrated the crucial deleterious role of Gal-3 in microglial activation in Alzheimer's disease (AD). Under AD conditions, Gal-3 is primarily expressed by microglial cells clustered around Aβ plaques in both human and mouse brain, and knocking out Gal-3 reduces AD pathology in AD-model mice. To further unravel the importance of Gal-3-associated inflammation in AD, we aimed to investigate the Gal-3 inflammatory response in the AD continuum. First, we measured Gal-3 levels in neocortical and hippocampal tissue from early-onset AD patients, including genetic and sporadic cases. We found that Gal-3 levels were significantly higher in both cortex and hippocampus in AD subjects. Immunohistochemistry revealed that Gal-3+ microglial cells were associated with amyloid plaques of a larger size and more irregular shape and with neurons containing tau-inclusions. We then analyzed the levels of Gal-3 in cerebrospinal fluid (CSF) from AD patients (n = 119) compared to control individuals (n = 36). CSF Gal-3 levels were elevated in AD patients compared to controls and more strongly correlated with tau (p-Tau181 and t-tau) and synaptic markers (GAP-43 and neurogranin) than with amyloid-β. Lastly, principal component analysis (PCA) of AD biomarkers revealed that CSF Gal-3 clustered and associated with other CSF neuroinflammatory markers, including sTREM-2, GFAP, and YKL-40. This neuroinflammatory component was more highly expressed in the CSF from amyloid-β positive (A+), CSF p-Tau181 positive (T+), and biomarker neurodegeneration positive/negative (N+/-) (A + T + N+/-) groups compared to the A + T-N- group. Overall, Gal-3 stands out as a key pathological biomarker of AD pathology that is measurable in CSF and, therefore, a potential target for disease-modifying therapies involving the neuroinflammatory response., (© 2022. The Author(s).)

Published
2022
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43. APOE in the bullseye of neurodegenerative diseases: impact of the APOE genotype in Alzheimer's disease pathology and brain diseases.

Author

Fernández-Calle R, Konings SC, Frontiñán-Rubio J, García-Revilla J, Camprubí-Ferrer L, Svensson M, Martinson I, Boza-Serrano A, Venero JL, Nielsen HM, Gouras GK, and Deierborg T

Subjects
Humans, Amyloid beta-Peptides metabolism, Apolipoprotein E2 genetics, Apolipoprotein E3 genetics, Apolipoprotein E4 genetics, Apolipoproteins E metabolism, Genotype, Plaque, Amyloid pathology, tau Proteins genetics, Alzheimer Disease metabolism, Neurodegenerative Diseases genetics
Abstract

ApoE is the major lipid and cholesterol carrier in the CNS. There are three major human polymorphisms, apoE2, apoE3, and apoE4, and the genetic expression of APOE4 is one of the most influential risk factors for the development of late-onset Alzheimer's disease (AD). Neuroinflammation has become the third hallmark of AD, together with Amyloid-β plaques and neurofibrillary tangles of hyperphosphorylated aggregated tau protein. This review aims to broadly and extensively describe the differential aspects concerning apoE. Starting from the evolution of apoE to how APOE's single-nucleotide polymorphisms affect its structure, function, and involvement during health and disease. This review reflects on how APOE's polymorphisms impact critical aspects of AD pathology, such as the neuroinflammatory response, particularly the effect of APOE on astrocytic and microglial function and microglial dynamics, synaptic function, amyloid-β load, tau pathology, autophagy, and cell-cell communication. We discuss influential factors affecting AD pathology combined with the APOE genotype, such as sex, age, diet, physical exercise, current therapies and clinical trials in the AD field. The impact of the APOE genotype in other neurodegenerative diseases characterized by overt inflammation, e.g., alpha- synucleinopathies and Parkinson's disease, traumatic brain injury, stroke, amyotrophic lateral sclerosis, and multiple sclerosis, is also addressed. Therefore, this review gathers the most relevant findings related to the APOE genotype up to date and its implications on AD and CNS pathologies to provide a deeper understanding of the knowledge in the APOE field., (© 2022. The Author(s).)

Published
2022
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44. Galectin-3, a rising star in modulating microglia activation under conditions of neurodegeneration.

Author

García-Revilla J, Boza-Serrano A, Espinosa-Oliva AM, Soto MS, Deierborg T, Ruiz R, de Pablos RM, Burguillos MA, and Venero JL

Subjects
Galectin 3 genetics, Humans, Microglia, Alzheimer Disease genetics, Parkinson Disease
Abstract

The advent of high-throughput single-cell transcriptomic analysis of microglia has revealed different phenotypes that are inherently associated with disease conditions. A common feature of some of these activated phenotypes is the upregulation of galectin-3. Representative examples of these phenotypes include disease-associated microglia (DAM) and white-associated microglia (WAM), whose role(s) in neuroprotection/neurotoxicity is a matter of high interest in the microglia community. In this review, we summarise the main findings that demonstrate the ability of galectin-3 to interact with key pattern recognition receptors, including, among others, TLR4 and TREM2 and the importance of galectin-3 in the regulation of microglia activation. Finally, we discuss increasing evidence supporting the involvement of this lectin in the main neurodegenerative diseases, including Alzheimer's disease, Parkinson's disease, Huntington's disease, amyotrophic lateral sclerosis, multiple sclerosis, traumatic brain injury, and stroke., (© 2022. The Author(s).)

Published
2022
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45. Aβ/Amyloid Precursor Protein-Induced Hyperexcitability and Dysregulation of Homeostatic Synaptic Plasticity in Neuron Models of Alzheimer's Disease.

Author

Martinsson I, Quintino L, Garcia MG, Konings SC, Torres-Garcia L, Svanbergsson A, Stange O, England R, Deierborg T, Li JY, Lundberg C, and Gouras GK

Abstract

Alzheimer's disease (AD) is increasingly seen as a disease of synapses and diverse evidence has implicated the amyloid-β peptide (Aβ) in synapse damage. The molecular and cellular mechanism(s) by which Aβ and/or its precursor protein, the amyloid precursor protein (APP) can affect synapses remains unclear. Interestingly, early hyperexcitability has been described in human AD and mouse models of AD, which precedes later hypoactivity. Here we show that neurons in culture with either elevated levels of Aβ or with human APP mutated to prevent Aβ generation can both induce hyperactivity as detected by elevated calcium transient frequency and amplitude. Since homeostatic synaptic plasticity (HSP) mechanisms normally maintain a setpoint of activity, we examined whether HSP was altered in AD transgenic neurons. Using methods known to induce HSP, we demonstrate that APP protein levels are regulated by chronic modulation of activity and that AD transgenic neurons have an impaired adaptation of calcium transients to global changes in activity. Further, AD transgenic compared to WT neurons failed to adjust the length of their axon initial segments (AIS), an adaptation known to alter excitability. Thus, we show that both APP and Aβ influence neuronal activity and that mechanisms of HSP are disrupted in primary neuron models of AD., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Martinsson, Quintino, Garcia, Konings, Torres-Garcia, Svanbergsson, Stange, England, Deierborg, Li, Lundberg and Gouras.)

Published
2022
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46. Correlative imaging to resolve molecular structures in individual cells: Substrate validation study for super-resolution infrared microspectroscopy.

Author

Paulus A, Yogarasa S, Kansiz M, Martinsson I, Gouras GK, Deierborg T, Engdahl A, Borondics F, and Klementieva O

Subjects
Microscopy, Fluorescence, Molecular Structure, Spectrophotometry, Infrared methods
Abstract

Light microscopy has been a favorite tool of biological studies for almost a century, recently producing detailed images with exquisite molecular specificity achieving spatial resolution at nanoscale. However, light microscopy is insufficient to provide chemical information as a standalone technique. An increasing amount of evidence demonstrates that optical photothermal infrared microspectroscopy (O-PTIR) is a valuable imaging tool that can extract chemical information to locate molecular structures at submicron resolution. To further investigate the applicability of sub-micron infrared microspectroscopy for biomedical applications, we analyzed the contribution of substrate chemistry to the infrared spectra acquired from individual neurons grown on various imaging substrates. To provide an example of correlative immunofluorescence/O-PTIR imaging, we used immunofluorescence to locate specific organelles for O-PTIR measurement, thus capturing molecular structures at the sub-cellular level directly in cells, which is not possible using traditional infrared microspectroscopy or immunofluorescence microscopy alone., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2022
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47. Galectin-3 ablation does not affect infarct size or inflammatory cytokines after experimental stroke in 24-month-old female mice.

Author

Manouchehrian O, Andersson E, Eriksson-Hallberg B, and Deierborg T

Subjects
Animals, Disease Models, Animal, Female, Infarction, Middle Cerebral Artery metabolism, Mice, Mice, Inbred C57BL, Mice, Knockout, Cytokines metabolism, Galectin 3 genetics, Stroke metabolism
Abstract

Background: The tissue damage following a focal stroke causes an inflammatory response that is thought to aggravate the disease state. Galectin-3 is a proinflammatory molecule that has been shown to play a significant role in the inflammatory responses in brain diseases and following experimental stroke. In most animal experiments, young animals are used, although attempts are often made to model diseases that affect the elderly. Therefore, in this project, we intended to investigate the role of Galectin-3 in experimental stroke in older mice., Methods: In this project, 24-month-old (aged) female mice were subjected to an experimental stroke (permanent middle cerebral artery occlusion) 7 days before sacrifice. We wanted to investigate whether the absence of the inflammatory protein Galectin-3 could affect motor phenotype, neuroinflammation and infarct size. Number of mice without Galectin-3 (Galectin-3 KO) = 9, number of wildtype controls of the same age = 6., Results: In our aged female mice, we could not observe any significant differences between Galectin-3 KO and wildtype regarding the inclined plane test or cylinder test. We could not observe different infarct sizes between the two genotypes. In brain homogenates, we measured levels of 10 inflammatory cytokines, but we could not see any significant differences in any of them., Conclusion: In summary, it can be said that the absence of the inflammatory mediator Galectin-3 does not seem to have a strong poststroke effect in aged females. Unfortunately, we could not analyze these mice with immunohistochemistry, which limited our study., (Copyright © 2022 The Author(s). Published by Wolters Kluwer Health, Inc.)

Published
2022
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48. Neuronal spreading and plaque induction of intracellular Aβ and its disruption of Aβ homeostasis.

Author

Roos TT, Garcia MG, Martinsson I, Mabrouk R, Israelsson B, Deierborg T, Kobro-Flatmoen A, Tanila H, and Gouras GK

Subjects
Alzheimer Disease etiology, Animals, Disease Models, Animal, Mice, Mice, Inbred C57BL, Mice, Transgenic, Plaque, Amyloid metabolism, Alzheimer Disease metabolism, Alzheimer Disease pathology, Amyloid beta-Peptides metabolism, Homeostasis physiology, Plaque, Amyloid etiology, Plaque, Amyloid pathology
Abstract

The amyloid-beta peptide (Aβ) is thought to have prion-like properties promoting its spread throughout the brain in Alzheimer's disease (AD). However, the cellular mechanism(s) of this spread remains unclear. Here, we show an important role of intracellular Aβ in its prion-like spread. We demonstrate that an intracellular source of Aβ can induce amyloid plaques in vivo via hippocampal injection. We show that hippocampal injection of mouse AD brain homogenate not only induces plaques, but also damages interneurons and affects intracellular Aβ levels in synaptically connected brain areas, paralleling cellular changes seen in AD. Furthermore, in a primary neuron AD model, exposure of picomolar amounts of brain-derived Aβ leads to an apparent redistribution of Aβ from soma to processes and dystrophic neurites. We also observe that such neuritic dystrophies associate with plaque formation in AD-transgenic mice. Finally, using cellular models, we propose a mechanism for how intracellular accumulation of Aβ disturbs homeostatic control of Aβ levels and can contribute to the up to 10,000-fold increase of Aβ in the AD brain. Our data indicate an essential role for intracellular prion-like Aβ and its synaptic spread in the pathogenesis of AD., (© 2021. The Author(s).)

Published
2021
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49. Physical Activity Is Associated With Lower Long-Term Incidence of Anxiety in a Population-Based, Large-Scale Study.

Author

Svensson M, Brundin L, Erhardt S, Hållmarker U, James S, and Deierborg T

Abstract

Physical activity may prevent anxiety, but the importance of exercise intensity, sex-specific mechanisms, and duration of the effects remains largely unknown. We used an observational study design to follow 395,369 individuals for up to 21 years to investigate if participation in an ultralong-distance cross-country ski race (Vasaloppet, up to 90 km) was associated with a lower risk of developing anxiety. Skiers in the race and matched non-skiers from the general population were studied after participation in the race using the Swedish population and patient registries. Skiers ( n = 197,685, median age 36 years, 38% women) had a significantly lower risk of developing anxiety during the follow-up compared to non-skiers (adjusted hazard ratio, HR 0.42). However, among women, higher physical performance (measured as the finishing time to complete the race, a proxy for higher exercise dose) was associated with an increased risk of anxiety compared to slower skiing women (HR 2.00). For men, the finishing time of the race did not significantly impact the risk of anxiety. Our results support the recommendations of engaging in physical activity to decrease the risk of anxiety in both men and women. The impact of physical performance level on the risk of anxiety requires further investigations among women., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Svensson, Brundin, Erhardt, Hållmarker, James and Deierborg.)

Published
2021
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50. Correlative optical photothermal infrared and X-ray fluorescence for chemical imaging of trace elements and relevant molecular structures directly in neurons.

Author

Gustavsson N, Paulus A, Martinsson I, Engdahl A, Medjoubi K, Klementiev K, Somogyi A, Deierborg T, Borondics F, Gouras GK, and Klementieva O

Abstract

Alzheimer's disease (AD) is the most common cause of dementia, costing about 1% of the global economy. Failures of clinical trials targeting amyloid-β protein (Aβ), a key trigger of AD, have been explained by drug inefficiency regardless of the mechanisms of amyloid neurotoxicity, which are very difficult to address by available technologies. Here, we combine two imaging modalities that stand at opposite ends of the electromagnetic spectrum, and therefore, can be used as complementary tools to assess structural and chemical information directly in a single neuron. Combining label-free super-resolution microspectroscopy for sub-cellular imaging based on novel optical photothermal infrared (O-PTIR) and synchrotron-based X-ray fluorescence (S-XRF) nano-imaging techniques, we capture elemental distribution and fibrillary forms of amyloid-β proteins in the same neurons at an unprecedented resolution. Our results reveal that in primary AD-like neurons, iron clusters co-localize with elevated amyloid β-sheet structures and oxidized lipids. Overall, our O-PTIR/S-XRF results motivate using high-resolution multimodal microspectroscopic approaches to understand the role of molecular structures and trace elements within a single neuronal cell., (© 2021. The Author(s).)

Published
2021
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