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2. The History in DNA: A Proposal to Generate a Change of Vision of Science in School

Author

Cortez, Leonardo A., Latorre, Nubia P., and Hernández, Rubinsten

Abstract

Currently, in science teaching and in particular, natural science teaching there are concepts in the school that have a high level of abstraction. Concepts, such as atom, gene, mole and energy, among others are difficult to explain in an understanding manner to students. This situation requires the teacher to design alternative strategies to promote meaningful learning. Give priority to teaching concepts in science promotes the conception of science as a finished, infallible construct outside the context and does not evolve; turning science learning into something monotonous and uninteresting for students. According to some researches in the line of history and epistemology of sciences, its importance and advantages are recognized to promote not only a conceptual and formal education, but also to broaden the spectrum of possibilities that allow the students to transform conceptions of science into a more dynamic and participatory paradigm. Recognizing the benefits of the use of history in science teaching, a proposal is made for the DNA structure teaching in secondary school students within the framework of the Master in Teaching of Sciences of the Fundación Universidad Autónoma de Colombia, under this perspective.

Published
2016

5. Rational design of structure‐based vaccines targeting misfolded alpha‐synuclein conformers of Parkinson's disease and related disorders.

Author

Flores‐Fernandez, Jose Miguel, Pesch, Verena, Sriraman, Aishwarya, Chimal‐Juarez, Enrique, Amidian, Sara, Wang, Xiongyao, Duckering, Caleb, Fang, Andrew, Reithofer, Sara, Ma, Liang, Cortez, Leonardo M., Sim, Valerie L., Tamgüney, Gültekin, and Wille, Holger

Subjects
LEWY body dementia, MULTIPLE system atrophy, FUNGAL proteins, SCAFFOLD proteins, PARKINSON'S disease
Abstract

Synucleinopathies, including Parkinson's disease (PD), multiple system atrophy (MSA), and dementia with Lewy bodies (DLB), are neurodegenerative disorders caused by the accumulation of misfolded alpha‐synuclein protein. Developing effective vaccines against synucleinopathies is challenging due to the difficulty of stimulating an immune‐specific response against alpha‐synuclein without causing harmful autoimmune reactions, selectively targeting only pathological forms of alpha‐synuclein. Previous attempts using linear peptides and epitopes without control of the antigen structure failed in clinical trials. The immune system was unable to distinguish between native alpha‐synuclein and its amyloid form. The prion domain of the fungal HET‐s protein was selected as a scaffold to introduce select epitopes from the surface of alpha‐synuclein fibrils. Four vaccine candidates were generated by introducing specific amino acid substitutions onto the surface of the scaffold protein. The approach successfully mimicked the stacking of the parallel in‐register beta‐sheet structure seen in alpha‐synuclein fibrils. All vaccine candidates induced substantial levels of IgG antibodies that recognized pathological alpha‐synuclein fibrils derived from a synucleinopathy mouse model. Furthermore, the antisera recognized pathological alpha‐synuclein aggregates in brain lysates from patients who died from DLB, MSA, or PD, but did not recognize linear alpha‐synuclein peptides. Our approach, based on the rational design of vaccines using the structure of alpha‐synuclein amyloid fibrils and strict control over the exposed antigen structure used for immunization, as well as the ability to mimic aggregated alpha‐synuclein, provides a promising avenue toward developing effective vaccines against alpha‐synuclein fibrils. [ABSTRACT FROM AUTHOR]

Published
2024
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7. In Vitro and In Vivo Evidence towards Fibronectin's Protective Effects against Prion Infection.

Author

Garza, M. Carmen, Kang, Sang-Gyun, Kim, Chiye, Monleón, Eva, van der Merwe, Jacques, Kramer, David A., Fahlman, Richard, Sim, Valerie L., Aiken, Judd, McKenzie, Debbie, Cortez, Leonardo M., and Wille, Holger

Subjects
SCRAPIE, PRION diseases, FIBRONECTINS, PRIONS, EXTRACELLULAR matrix, CENTRAL nervous system
Abstract

A distinctive signature of the prion diseases is the accumulation of the pathogenic isoform of the prion protein, PrPSc, in the central nervous system of prion-affected humans and animals. PrPSc is also found in peripheral tissues, raising concerns about the potential transmission of pathogenic prions through human food supplies and posing a significant risk to public health. Although muscle tissues are considered to contain levels of low prion infectivity, it has been shown that myotubes in culture efficiently propagate PrPSc. Given the high consumption of muscle tissue, it is important to understand what factors could influence the establishment of a prion infection in muscle tissue. Here we used in vitro myotube cultures, differentiated from the C2C12 myoblast cell line (dC2C12), to identify factors affecting prion replication. A range of experimental conditions revealed that PrPSc is tightly associated with proteins found in the systemic extracellular matrix, mostly fibronectin (FN). The interaction of PrPSc with FN decreased prion infectivity, as determined by standard scrapie cell assay. Interestingly, the prion-resistant reserve cells in dC2C12 cultures displayed a FN-rich extracellular matrix while the prion-susceptible myotubes expressed FN at a low level. In agreement with the in vitro results, immunohistopathological analyses of tissues from sheep infected with natural scrapie demonstrated a prion susceptibility phenotype linked to an extracellular matrix with undetectable levels of FN. Conversely, PrPSc deposits were not observed in tissues expressing FN. These data indicate that extracellular FN may act as a natural barrier against prion replication and that the extracellular matrix composition may be a crucial feature determining prion tropism in different tissues. [ABSTRACT FROM AUTHOR]

Published
2023
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11. Probing the origin of prion protein misfolding via reconstruction of ancestral proteins.

Author

Cortez, Leonardo M., Morrison, Anneliese J., Garen, Craig R., Patterson, Sawyer, Uyesugi, Toshi, Petrosyan, Rafayel, Sekar, Rohith Vedhthaanth, Harms, Michael J., Woodside, Michael T., and Sim, Valerie L.

Abstract

Prion diseases are fatal neurodegenerative diseases caused by pathogenic misfolding of the prion protein, PrP. They are transmissible between hosts, and sometimes between different species, as with transmission of bovine spongiform encephalopathy to humans. Although PrP is found in a wide range of vertebrates, prion diseases are seen only in certain mammals, suggesting that infectious misfolding was a recent evolutionary development. To explore when PrP acquired the ability to misfold infectiously, we reconstructed the sequences of ancestral versions of PrP from the last common primate, primate‐rodent, artiodactyl, placental, bird, and amniote. Recombinant ancestral PrPs were then tested for their ability to form β‐sheet aggregates, either spontaneously or when seeded with infectious prion strains from human, cervid, or rodent species. The ability to aggregate developed after the oldest ancestor (last common amniote), and aggregation capabilities diverged along evolutionary pathways consistent with modern‐day susceptibilities. Ancestral bird PrP could not be seeded with modern‐day prions, just as modern‐day birds are resistant to prion disease. Computational modeling of structures suggested that differences in helix 2 could account for the resistance of ancestral bird PrP to seeding. Interestingly, ancestral primate PrP could be converted by all prion seeds, including both human and cervid prions, raising the possibility that species descended from an ancestral primate have retained the susceptibility to conversion by cervid prions. More generally, the results suggest that susceptibility to prion disease emerged prior to ~100 million years ago, with placental mammals possibly being generally susceptible to disease. [ABSTRACT FROM AUTHOR]

Published
2022
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14. Distinctive Toll-like Receptors Gene Expression and Glial Response in Different Brain Regions of Natural Scrapie.

Author

García-Martínez, Mirta, Cortez, Leonardo M., Otero, Alicia, Betancor, Marina, Serrano-Pérez, Beatriz, Bolea, Rosa, Badiola, Juan J., and Garza, María Carmen

Subjects
*SCRAPIE, *MICROGLIA, *TOLL-like receptors, *PRION diseases, *GENE expression, *GENE expression profiling, *ALZHEIMER'S disease
Abstract

Prion diseases are chronic and fatal neurodegenerative diseases characterized by the accumulation of disease-specific prion protein (PrPSc), spongiform changes, neuronal loss, and gliosis. Growing evidence shows that the neuroinflammatory response is a key component of prion diseases and contributes to neurodegeneration. Toll-like receptors (TLRs) have been proposed as important mediators of innate immune responses triggered in the central nervous system in other human neurodegenerative diseases, including Alzheimer's disease, Parkinson's disease, and amyotrophic lateral sclerosis. However, little is known about the role of TLRs in prion diseases, and their involvement in the neuropathology of natural scrapie has not been studied. We assessed the gene expression of ovine TLRs in four anatomically distinct brain regions in natural scrapie-infected sheep and evaluated the possible correlations between gene expression and the pathological hallmarks of prion disease. We observed significant changes in TLR expression in scrapie-infected sheep that correlate with the degree of spongiosis, PrPSc deposition, and gliosis in each of the regions studied. Remarkably, TLR4 was the only gene upregulated in all regions, regardless of the severity of neuropathology. In the hippocampus, we observed milder neuropathology associated with a distinct TLR gene expression profile and the presence of a peculiar microglial morphology, called rod microglia, described here for the first time in the brain of scrapie-infected sheep. The concurrence of these features suggests partial neuroprotection of the hippocampus. Finally, a comparison of the findings in naturallyinfected sheep versus an ovinized mouse model (tg338 mice) revealed distinct patterns of TLRgene expression. [ABSTRACT FROM AUTHOR]

Published
2022
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16. Asymmetric-flow field-flow fractionation of prions reveals a strain-specific continuum of quaternary structures with protease resistance developing at a hydrodynamic radius of 15 nm.

Author

Cortez, Leonardo M., Nemani, Satish K., Duque Velásquez, Camilo, Sriraman, Aishwarya, Wang, YongLiang, Wille, Holger, McKenzie, Debbie, and Sim, Valerie L.

Subjects
*QUATERNARY structure, *PRIONS, *BOVINE spongiform encephalopathy, *FIELD-flow fractionation, *CHRONIC wasting disease, *PARTICLE size determination
Abstract

Prion diseases are transmissible neurodegenerative disorders that affect mammals, including humans. The central molecular event is the conversion of cellular prion glycoprotein, PrPC, into a plethora of assemblies, PrPSc, associated with disease. Distinct phenotypes of disease led to the concept of prion strains, which are associated with distinct PrPSc structures. However, the degree to which intra- and inter-strain PrPSc heterogeneity contributes to disease pathogenesis remains unclear. Addressing this question requires the precise isolation and characterization of all PrPSc subpopulations from the prion-infected brains. Until now, this has been challenging. We used asymmetric-flow field-flow fractionation (AF4) to isolate all PrPSc subpopulations from brains of hamsters infected with three prion strains: Hyper (HY) and 263K, which produce almost identical phenotypes, and Drowsy (DY), a strain with a distinct presentation. In-line dynamic and multi-angle light scattering (DLS/MALS) data provided accurate measurements of particle sizes and estimation of the shape and number of PrPSc particles. We found that each strain had a continuum of PrPSc assemblies, with strong correlation between PrPSc quaternary structure and phenotype. HY and 263K were enriched with large, protease-resistant PrPSc aggregates, whereas DY consisted primarily of smaller, more protease-sensitive aggregates. For all strains, a transition from protease-sensitive to protease-resistant PrPSc took place at a hydrodynamic radius (Rh) of 15 nm and was accompanied by a change in glycosylation and seeding activity. Our results show that the combination of AF4 with in-line MALS/DLS is a powerful tool for analyzing PrPSc subpopulations and demonstrate that while PrPSc quaternary structure is a major contributor to PrPSc structural heterogeneity, a fundamental change, likely in secondary/tertiary structure, prevents PrPSc particles from maintaining proteinase K resistance below an Rh of 15 nm, regardless of strain. This results in two biochemically distinctive subpopulations, the proportion, seeding activity, and stability of which correlate with prion strain phenotype. Author summary: Prion diseases are neurodegenerative diseases that include bovine spongiform encephalopathy (BSE or mad cow disease) in cattle, chronic wasting disease (CWD) in cervids and Creutzfeldt-Jakob disease (CJD) in humans. These diseases are caused by self-propagated misfolding and aggregation of the naturally occurring prion protein. Variations in the structure of prion aggregates are associated with distinct disease phenotypes, but how this prion structural heterogeneity translates into clinical presentation has been difficult to determine, largely because it is technically difficult to isolate and characterize the full range of prion structures from prion-infected brain. Here, we overcame this challenge by using a versatile fractionation technique, one that is strikingly unexplored in neurodegenerative research, and present the most detailed description, to date, of strain-specific prion subpopulations. We found that prion quaternary structure was a major contributor to structural heterogeneity. We also discovered that all prion strains studied underwent a significant structural change resulting in two distinctive subpopulations whose proportions correlated with the strain phenotype. Our work provides new insights into the molecular basis of prion strain variation and is a proof of concept that can be applied to other protein misfolding neurodegenerative disorders. [ABSTRACT FROM AUTHOR]

Published
2021
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17. Quaternary Structure Changes for PrPSc Predate PrPC Downregulation and Neuronal Death During Progression of Experimental Scrapie Disease.

Author

Eskandari-Sedighi, Ghazaleh, Cortez, Leonardo M., Yang, Jing, Daude, Nathalie, Shmeit, Klinton, Sim, Valerie, and Westaway, David

Abstract

Prion diseases are fatal neurodegenerative diseases in mammals with the unique characteristics of misfolding and aggregation of the cellular prion protein (PrPC) to the scrapie prion (PrPSc). Although neuroinflammation and neuronal loss feature within the disease process, the details of PrPC/PrPSc molecular transition to generate different aggregated species, and the correlation between each species and sequence of cellular events in disease pathogenesis are not fully understood. In this study, using mice inoculated with the RML isolate of mouse-adapted scrapie as a model, we applied asymmetric flow field-flow fractionation to monitor PrPC and PrPSc particle sizes and we also measured seeding activity and resistance to proteases. For cellular analysis in brain tissue, we measured inflammatory markers and synaptic damage, and used the isotropic fractionator to measure neuronal loss; these techniques were applied at different timepoints in a cross-sectional study of disease progression. Our analyses align with previous reports defining significant decreases in PrPC levels at pre-clinical stages of the disease and demonstrate that these decreases become significant before neuronal loss. We also identified the earliest PrPSc assemblies at a timepoint equivalent to 40% elapsed time for the disease incubation period; we propose that these assemblies, mostly composed of proteinase K (PK)–sensitive species, play an important role in triggering disease pathogenesis. Lastly, we show that the PK-resistant assemblies of PrPSc that appear at timepoints close to the terminal stage have similar biophysical characteristics, and hence that preparative use of PK-digestion selects for this specific subpopulation. In sum, our data argue that qualitative, as well as quantitative, changes in PrP conformers occur at the midpoint of subclinical phase; these changes affect quaternary structure and may occur at the threshold where adaptive responses become inadequate to deal with pathogenic processes. [ABSTRACT FROM AUTHOR]

Published
2021
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20. Bile Acids Reduce Prion Conversion, Reduce Neuronal Loss, and Prolong Male Survival in Models of Prion Disease.

Author

Cortez, Leonardo M., Campeau, Jody, Norman, Grant, Kalayil, Marian, Van der Merwe, Jacques, McKenzie, Debbie, and Sim, Valerie L.

Subjects
*BILE acids, *PRION genetics, *PRION diseases, *SURVIVAL, *TAUROURSODEOXYCHOLIC acid
Abstract

Prion diseases are fatal neurodegenerative disorders associated with the conversion of cellular prion protein (PrPC) into its aberrant infectious form (PrPSc). There is no treatment available for these diseases. The bile acids tauroursodeoxycholic acid (TUDCA) and ursodeoxycholic acid (UDCA) have been recently shown to be neuroprotective in other protein misfolding disease models, including Parkinson's, Huntington's and Alzheimer's diseases, and also in humans with amyotrophic lateral sclerosis. Here, we studied the therapeutic efficacy of these compounds in prion disease. We demonstrated that TUDCA and UDCA substantially reduced PrP conversion in cell-free aggregation assays, as well as in chronically and acutely infected cell cultures. This effect was mediated through reduction of PrPSc seeding ability, rather than an effect on PrPC. We also demonstrated the ability of TUDCA and UDCA to reduce neuronal loss in prion-infected cerebellar slice cultures. UDCA treatment reduced astrocytosis and prolonged survival in RML prion-infected mice. Interestingly, these effects were limited to the males, implying a genderspecific difference in drug metabolism. Beyond effects on PrPSc, we found that levels of phosphorylated eIF2α were increased at early time points, with correlated reductions in postsynaptic density protein 95. As demonstrated for other neurodegenerative diseases, we now show that TUDCA and UDCA may have a therapeutic role in prion diseases, with effects on both prion conversion and neuroprotection. Our findings, together with the fact that these natural compounds are orally bioavailable, permeable to the blood-brain barrier, and U.S. Food and Drug Administration-approved for use in humans, make these compounds promising alternatives for the treatment of prion diseases. IMPORTANCE: Prion diseases are fatal neurodegenerative diseases that are transmissible to humans and other mammals. There are no diseasemodifying therapies available, despite decades of research. Treatment targets have included inhibition of protein accumulation, clearance of toxic aggregates, and prevention of downstream neurodegeneration. No one target may be sufficient; rather, compounds which have a multimodal mechanism, acting on different targets, would be ideal. TUDCA and UDCA are bile acids that may fulfill this dual role. Previous studies have demonstrated their neuroprotective effects in several neurodegenerative disease models, and we now demonstrate that this effect occurs in prion disease, with an added mechanistic target of upstream prion seeding. Importantly, these are natural compounds which are orally bioavailable, permeable to the blood-brain barrier, and U.S. Food and Drug Administration-approved for use in humans with primary biliary cirrhosis. They have recently been proven efficacious in human amyotrophic lateral sclerosis. Therefore, these compounds are promising options for the treatment of prion diseases. [ABSTRACT FROM AUTHOR]

Published
2015
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23. Using a Blackboard Architecture in a Web Application.

Author

Metzner, Christiane, Cortez, Leonardo, and Chacín, Doritza

Subjects
*WORLD Wide Web, *APPLICATION software, *BLACKBOARD systems (Computer science), *ARTIFICIAL intelligence software, *COMPUTER architecture
Abstract

In this work we discuss the development of a web application in the domain of movie chains using a Blackboard architecture, which is a well-established style for solving the problem of control, communication and collaboration in a system; it has traditionally been accepted as adequate for heuristic problem solving though not generally used for web applications. We present and discuss how the Blackboard architecture is used as the style for a graduate course project in Software Engineering. Issues about the implementation of the architecture are described and an assessment using some software metrics is presented. [ABSTRACT FROM AUTHOR]

Published
2005
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25. Amyloid Detection Using a Peltier-Based Device [Retrospectroscope].

Author

Cabrera, Miguel, Ferreyra, Martin, Cortez, Leonardo, Grupalli, Silvina, Alvarez, L., Chehin, Rosana, and Valentinuzzi, Max

Subjects
AMYLOID, PATHOLOGY, FOURIER transform infrared spectroscopy, TEMPERATURE control, FOURIER transforms, SPECTRUM analysis
Abstract

Amyloid aggregation of polypeptides is related to a growing number of pathologic states known as amyloid disorders. At present, it is clear that any proteins submitted to appropriate physicochemical environment can acquire fibrilar conformation. Fourier transform infrared spectroscopy (FTIR) has been a widely used technique to study temperature- induced amyloid-fibrils formation in vitro. In this way, strict changes and temperature controls are required to characterize the physicochemical basis of the amyloid-fibrils formation. In this article, the development of a highly efficient and accurate Peltier-based system to improve FTIR measurements is presented (see An Old Physics Phenomenon Applied to a Serious Biomedical Pathology. The accuracy of the thermostatic control was tested with biophysical parameters on biological samples probing its reproducibility. The design of the present device contributes to maintain the FTIR environment stable, which represents a real contribution to improve the spectral quality and thus, the reliability of the results. [ABSTRACT FROM AUTHOR]

Published
2012
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26. Ensuring sexual and reproductive healthcare services amidst a pandemic: Experiences from health workers in Lima, Peru.

Author

Gianella C, Cortez L, Beran D, and Pesantes MA

Abstract

Nowadays there is an emerging interest on health system resilience capacity during emergencies as the one created by the COVID-19 Pandemic. This article contributes to this emerging field of studies by analysing the impact of the state´s policy responses COVID-19 (as lockdowns) on the Peruvian health system, specifically on the delivery of non-covid services, sexual and reproductive health services, and describe the strategies deployed by health workers to adapt to the COVID-19 crisis in Peru, a country that have been dramatically impacted by the pandemic. The article, based on the analysis of depth interviews with 11 health workers and one health supervisor working at sexual and reproductive health services at public health services Lima during 2020 and 2021, describe how pre-existing conditions of the health system (as poor infrastructure and deficit of human resources) magnified the negative effects of the measures taken to control de pandemic, undermining the "resilience" of the health system., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Gianella 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
2024
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27. Probing the origin of prion protein misfolding via reconstruction of ancestral proteins.

Author

Cortez LM, Morrison AJ, Garen CR, Patterson S, Uyesugi T, Petrosyan R, Sekar RV, Harms MJ, Woodside MT, and Sim VL

Subjects
Pregnancy, Animals, Cattle, Female, Humans, Prion Proteins chemistry, Placenta metabolism, Mammals, Prions metabolism, Prion Diseases genetics, Prion Diseases metabolism
Abstract

Prion diseases are fatal neurodegenerative diseases caused by pathogenic misfolding of the prion protein, PrP. They are transmissible between hosts, and sometimes between different species, as with transmission of bovine spongiform encephalopathy to humans. Although PrP is found in a wide range of vertebrates, prion diseases are seen only in certain mammals, suggesting that infectious misfolding was a recent evolutionary development. To explore when PrP acquired the ability to misfold infectiously, we reconstructed the sequences of ancestral versions of PrP from the last common primate, primate-rodent, artiodactyl, placental, bird, and amniote. Recombinant ancestral PrPs were then tested for their ability to form β-sheet aggregates, either spontaneously or when seeded with infectious prion strains from human, cervid, or rodent species. The ability to aggregate developed after the oldest ancestor (last common amniote), and aggregation capabilities diverged along evolutionary pathways consistent with modern-day susceptibilities. Ancestral bird PrP could not be seeded with modern-day prions, just as modern-day birds are resistant to prion disease. Computational modeling of structures suggested that differences in helix 2 could account for the resistance of ancestral bird PrP to seeding. Interestingly, ancestral primate PrP could be converted by all prion seeds, including both human and cervid prions, raising the possibility that species descended from an ancestral primate have retained the susceptibility to conversion by cervid prions. More generally, the results suggest that susceptibility to prion disease emerged prior to ~100 million years ago, with placental mammals possibly being generally susceptible to disease., (© 2022 The Protein Society.)

Published
2022
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28. Implications of exosomes derived from cholesterol-accumulated astrocytes in Alzheimer's disease pathology.

Author

Wu Q, Cortez L, Kamali-Jamil R, Sim V, Wille H, and Kar S

Subjects
Amyloid beta-Peptides metabolism, Androstenes pharmacology, Animals, Astrocytes drug effects, Astrocytes ultrastructure, Autophagy drug effects, Cathepsin D metabolism, Cell Survival drug effects, Cells, Cultured, Exosomes drug effects, Exosomes ultrastructure, Female, Lysosomal-Associated Membrane Protein 1, Lysosomes drug effects, Lysosomes metabolism, Lysosomes ultrastructure, Mice, Inbred BALB C, Microtubule-Associated Proteins, Neurons drug effects, Neurons metabolism, Rats, Mice, Alzheimer Disease metabolism, Alzheimer Disease pathology, Astrocytes metabolism, Cholesterol metabolism, Exosomes metabolism
Abstract

Amyloid β (Aβ) peptides generated from the amyloid precursor protein (APP) play a critical role in the development of Alzheimer's disease (AD) pathology. Aβ-containing neuronal exosomes, which represent a novel form of intercellular communication, have been shown to influence the function/vulnerability of neurons in AD. Unlike neurons, the significance of exosomes derived from astrocytes remains unclear. In this study, we evaluated the significance of exosomes derived from U18666A-induced cholesterol-accumulated astrocytes in the development of AD pathology. Our results show that cholesterol accumulation decreases exosome secretion, whereas lowering cholesterol increases exosome secretion, from cultured astrocytes. Interestingly, exosomes secreted from U18666A-treated astrocytes contain higher levels of APP, APP-C-terminal fragments, soluble APP, APP secretases and Aβ1-40 than exosomes secreted from control astrocytes. Furthermore, we show that exosomes derived from U18666A-treated astrocytes can lead to neurodegeneration, which is attenuated by decreasing Aβ production or by neutralizing exosomal Aβ peptide with an anti-Aβ antibody. These results, taken together, suggest that exosomes derived from cholesterol-accumulated astrocytes can play an important role in trafficking APP/Aβ peptides and influencing neuronal viability in the affected regions of the AD brain., Competing Interests: Competing interests The authors declare no competing or financial interests., (© 2021. Published by The Company of Biologists Ltd.)

Published
2021
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29. Aggregation state and neurotoxic properties of alzheimer β-amyloid peptide.

Author

Mohamed A, Cortez L, and de Chaves EP

Subjects
Humans, Neurons drug effects, Protein Folding, Proteostasis Deficiencies physiopathology, Alzheimer Disease physiopathology, Amyloid beta-Peptides chemistry, Amyloid beta-Peptides physiology, Amyloid beta-Peptides toxicity
Abstract

Alzheimer's disease (AD) represents the most common form of senile dementia and represents a tremendous health problem as the world population is aging. AD is characterized by the accumulation of amyloid β-peptide (Aβ) in the brain and the loss of cholinergic neurons in the basal forebrain. Accumulation of soluble and insoluble assemblies of Aβ in the brain is a crucial event in AD pathogenesis and the presence of amyloid plaques in the brain is required for definitive identification of AD. Yet, there is no correlation between amyloid plaques and the degree of dementia. In the past two decades researchers have devoted their effort to study and explain the mechanisms involved in the pathology of this devastating disease. Studies from different areas of the natural and medical sciences have provided important information towards the elucidation of some of the pathological processes that take place in AD. An aspect of crucial importance is the aggregation state of Aβ peptide and its role in neuropathology. Here, we discuss recent studies aimed at the identification of Aβ protein aggregates, the characterization of their toxic potential and the development of therapeutic strategies that target Aβ aggregation.

Published
2011
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