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1.
Brain ; 2024 May 02.
Artigo em Inglês | MEDLINE | ID: mdl-38696728

RESUMO

Multiple System Atrophy is characterized pathologically by the accumulation of alpha-synuclein (aSyn) into glial cytoplasmic inclusions (GCIs). The mechanism underlying the formation of GCIs is not well understood. In this study, correlative light and electron microscopy was employed to investigate aSyn pathology in the substantia nigra and putamen of post-mortem multiple system atrophy brain donors. Three distinct types of aSyn immuno-positive inclusions were identified in oligodendrocytes, neurons and dark cells presumed to be dark microglia. Oligodendrocytes contained fibrillar GCIs that were consistently enriched with lysosomes and peroxisomes, supporting the involvement of the autophagy pathway in aSyn aggregation in multiple system atrophy. Neuronal cytoplasmic inclusions exhibited ultrastructural heterogeneity resembling both fibrillar and membranous inclusions, linking multiple systems atrophy and Parkinson's disease. The novel aSyn pathology identified in the dark cells, displayed GCI-like fibrils or non-GCI-like ultrastructures suggesting various stages of aSyn accumulation in these cells. The observation of GCI-like fibrils within dark cells suggests these cells may be an important contributor to the origin or spread of pathological aSyn in multiple system atrophy. Our results suggest a complex interplay between multiple cell types that may underlie the formation of aSyn pathology in multiple system atrophy brain and highlight the need for further investigation into cell-specific disease pathologies in multiple system atrophy.

2.
EMBO Rep ; 22(12): e53877, 2021 12 06.
Artigo em Inglês | MEDLINE | ID: mdl-34806807

RESUMO

Morphologically distinct TDP-43 aggregates occur in clinically different FTLD-TDP subtypes, yet the mechanism of their emergence and contribution to clinical heterogeneity are poorly understood. Several lines of evidence suggest that pathological TDP-43 follows a prion-like cascade, but the molecular determinants of this process remain unknown. We use advanced microscopy techniques to compare the seeding properties of pathological FTLD-TDP-A and FTLD-TDP-C aggregates. Upon inoculation of patient-derived aggregates in cells, FTLD-TDP-A seeds amplify in a template-dependent fashion, triggering neoaggregation more efficiently than those extracted from FTLD-TDP-C patients, correlating with the respective disease progression rates. Neoaggregates are sequentially phosphorylated with N-to-C directionality and with subtype-specific timelines. The resulting FTLD-TDP-A neoaggregates are large and contain densely packed fibrils, reminiscent of the pure compacted fibrils present within cytoplasmic inclusions in postmortem brains. In contrast, FTLD-TDP-C dystrophic neurites show less dense fibrils mixed with cellular components, and their respective neoaggregates are small, amorphous protein accumulations. These cellular seeding models replicate aspects of the patient pathological diversity and will be a useful tool in the quest for subtype-specific therapeutics.


Assuntos
Demência Frontotemporal , Príons , Encéfalo/metabolismo , Demência Frontotemporal/metabolismo , Humanos , Corpos de Inclusão/metabolismo , Príons/metabolismo
3.
Neuron ; 112(17): 2886-2909.e16, 2024 Sep 04.
Artigo em Inglês | MEDLINE | ID: mdl-39079530

RESUMO

The heterogeneity of protein-rich inclusions and its significance in neurodegeneration is poorly understood. Standard patient-derived iPSC models develop inclusions neither reproducibly nor in a reasonable time frame. Here, we developed screenable iPSC "inclusionopathy" models utilizing piggyBac or targeted transgenes to rapidly induce CNS cells that express aggregation-prone proteins at brain-like levels. Inclusions and their effects on cell survival were trackable at single-inclusion resolution. Exemplar cortical neuron α-synuclein inclusionopathy models were engineered through transgenic expression of α-synuclein mutant forms or exogenous seeding with fibrils. We identified multiple inclusion classes, including neuroprotective p62-positive inclusions versus dynamic and neurotoxic lipid-rich inclusions, both identified in patient brains. Fusion events between these inclusion subtypes altered neuronal survival. Proteome-scale α-synuclein genetic- and physical-interaction screens pinpointed candidate RNA-processing and actin-cytoskeleton-modulator proteins like RhoA whose sequestration into inclusions could enhance toxicity. These tractable CNS models should prove useful in functional genomic analysis and drug development for proteinopathies.


Assuntos
Corpos de Inclusão , Células-Tronco Pluripotentes Induzidas , alfa-Sinucleína , Células-Tronco Pluripotentes Induzidas/metabolismo , alfa-Sinucleína/metabolismo , alfa-Sinucleína/genética , Humanos , Corpos de Inclusão/metabolismo , Corpos de Inclusão/patologia , Sinucleinopatias/metabolismo , Sinucleinopatias/patologia , Sinucleinopatias/genética , Neurônios/metabolismo , Neurônios/patologia , Encéfalo/metabolismo , Encéfalo/patologia
4.
Front Neurosci ; 14: 570019, 2020.
Artigo em Inglês | MEDLINE | ID: mdl-33324142

RESUMO

Gaining insight to pathologically relevant processes in continuous volumes of unstained brain tissue is important for a better understanding of neurological diseases. Many pathological processes in neurodegenerative disorders affect myelinated axons, which are a critical part of the neuronal circuitry. Cryo ptychographic X-ray computed tomography in the multi-keV energy range is an emerging technology providing phase contrast at high sensitivity, allowing label-free and non-destructive three dimensional imaging of large continuous volumes of tissue, currently spanning up to 400,000 µm3. This aspect makes the technique especially attractive for imaging complex biological material, especially neuronal tissues, in combination with downstream optical or electron microscopy techniques. A further advantage is that dehydration, additional contrast staining, and destructive sectioning/milling are not required for imaging. We have developed a pipeline for cryo ptychographic X-ray tomography of relatively large, hydrated and unstained biological tissue volumes beyond what is typical for the X-ray imaging, using human brain tissue and combining the technique with complementary methods. We present four imaged volumes of a Parkinson's diseased human brain and five volumes from a non-diseased control human brain using cryo ptychographic X-ray tomography. In both cases, we distinguish neuromelanin-containing neurons, lipid and melanic pigment, blood vessels and red blood cells, and nuclei of other brain cells. In the diseased sample, we observed several swellings containing dense granular material resembling clustered vesicles between the myelin sheaths arising from the cytoplasm of the parent oligodendrocyte, rather than the axoplasm. We further investigated the pathological relevance of such swollen axons in adjacent tissue sections by immunofluorescence microscopy for phosphorylated alpha-synuclein combined with multispectral imaging. Since cryo ptychographic X-ray tomography is non-destructive, the large dataset volumes were used to guide further investigation of such swollen axons by correlative electron microscopy and immunogold labeling post X-ray imaging, a possibility demonstrated for the first time. Interestingly, we find that protein antigenicity and ultrastructure of the tissue are preserved after the X-ray measurement. As many pathological processes in neurodegeneration affect myelinated axons, our work sets an unprecedented foundation for studies addressing axonal integrity and disease-related changes in unstained brain tissues.

5.
Curr Opin Struct Biol ; 58: 138-148, 2019 10.
Artigo em Inglês | MEDLINE | ID: mdl-31349127

RESUMO

Electron microscopy imaging of post-mortem human brain (PMHB) comes with a unique set of challenges due to numerous parameters beyond the researcher's control. Nevertheless, the wealth of information provided by the ultrastructural analysis of PMHB is proving crucial in our understanding of neurodegenerative diseases. This review highlights the importance of such studies and covers challenges, limitations and recent developments in the application of current EM imaging, including cryo-ET and correlative hybrid techniques, on PMHB.


Assuntos
Encéfalo/citologia , Encéfalo/ultraestrutura , Microscopia Eletrônica/métodos , Artefatos , Humanos , Raios X
6.
Nat Neurosci ; 22(7): 1099-1109, 2019 07.
Artigo em Inglês | MEDLINE | ID: mdl-31235907

RESUMO

Parkinson's disease, the most common age-related movement disorder, is a progressive neurodegenerative disease with unclear etiology. Key neuropathological hallmarks are Lewy bodies and Lewy neurites: neuronal inclusions immunopositive for the protein α-synuclein. In-depth ultrastructural analysis of Lewy pathology is crucial to understanding pathogenesis of this disease. Using correlative light and electron microscopy and tomography on postmortem human brain tissue from Parkinson's disease brain donors, we identified α-synuclein immunopositive Lewy pathology and show a crowded environment of membranes therein, including vesicular structures and dysmorphic organelles. Filaments interspersed between the membranes and organelles were identifiable in many but not all α-synuclein inclusions. Crowding of organellar components was confirmed by stimulated emission depletion (STED)-based super-resolution microscopy, and high lipid content within α-synuclein immunopositive inclusions was corroborated by confocal imaging, Fourier-transform coherent anti-Stokes Raman scattering infrared imaging and lipidomics. Applying such correlative high-resolution imaging and biophysical approaches, we discovered an aggregated protein-lipid compartmentalization not previously described in the Parkinsons' disease brain.


Assuntos
Membranas Intracelulares/ultraestrutura , Corpos de Lewy/ultraestrutura , Doença por Corpos de Lewy/patologia , Lipídeos de Membrana/análise , Organelas/ultraestrutura , Doença de Parkinson/patologia , alfa-Sinucleína/análise , Doença de Alzheimer/metabolismo , Doença de Alzheimer/patologia , Hipocampo/química , Hipocampo/ultraestrutura , Humanos , Imageamento Tridimensional , Corpos de Lewy/química , Doença por Corpos de Lewy/metabolismo , Mesencéfalo/química , Mesencéfalo/ultraestrutura , Microscopia Confocal , Microscopia Eletrônica/métodos , Microscopia de Fluorescência , Doença de Parkinson/metabolismo , Substância Negra/química , Substância Negra/ultraestrutura , Sequenciamento do Exoma
7.
Sci Rep ; 8(1): 18046, 2018 12 21.
Artigo em Inglês | MEDLINE | ID: mdl-30575769

RESUMO

Corpora amylacea are cell-derived structures that appear physiologically in the aged human brain. While their histological identification is straightforward, their ultrastructural composition and microenvironment at the nanoscale have remained unclear so far, as has their relevance to aging and certain disease states that involve the sequestration of toxic cellular metabolites. Here, we apply correlative serial block-face scanning electron microscopy and transmission electron tomography to gain three-dimensional insight into the ultrastructure and surrounding microenvironment of cerebral Corpora amylacea in the human brainstem and hippocampal region. We find that cerebral Corpora amylacea are composed of dense labyrinth-like sheets of lipid membranes, contain vesicles as well as morphologically preserved mitochondria, and are in close proximity to blood vessels and the glymphatic system, primarily within the cytoplasm of perivascular glial cells. Our results clarify the nature of cerebral Corpora amylacea and provide first hints on how they may arise and develop in the aging brain.


Assuntos
Encéfalo/patologia , Encéfalo/ultraestrutura , Corpos de Inclusão/patologia , Organelas/patologia , Idoso , Idoso de 80 Anos ou mais , Autopsia , Encéfalo/diagnóstico por imagem , Tronco Encefálico/diagnóstico por imagem , Tronco Encefálico/patologia , Região CA2 Hipocampal/diagnóstico por imagem , Região CA2 Hipocampal/patologia , Humanos , Imageamento Tridimensional , Microscopia Eletrônica/métodos , Doença de Parkinson/patologia , Parte Compacta da Substância Negra/patologia
8.
Psychon Bull Rev ; 24(2): 436-446, 2017 04.
Artigo em Inglês | MEDLINE | ID: mdl-27535753

RESUMO

How do we select behaviourally important information from cluttered visual environments? Previous research has shown that both top-down, goal-driven factors and bottom-up, stimulus-driven factors determine which stimuli are selected. However, it is still debated when top-down processes modulate visual selection. According to a feedforward account, top-down processes modulate visual processing even before the appearance of any stimuli, whereas others claim that top-down processes modulate visual selection only at a late stage, via feedback processing. In line with such a dual stage account, some studies found that eye movements to an irrelevant onset distractor are not modulated by its similarity to the target stimulus, especially when eye movements are launched early (within 150-ms post stimulus onset). However, in these studies the target transiently changed colour due to a colour after-effect that occurred during premasking, and the time course analyses were incomplete. The present study tested the feedforward account against the dual stage account in two eye tracking experiments, with and without colour after-effects (Exp. 1), as well when the target colour varied randomly and observers were informed of the target colour with a word cue (Exp. 2). The results showed that top-down processes modulated the earliest eye movements to the onset distractors (<150-ms latencies), without incurring any costs for selection of target matching distractors. These results unambiguously support a feedforward account of top-down modulation.


Assuntos
Atenção , Percepção de Cores , Aprendizagem por Discriminação , Área de Dependência-Independência , Objetivos , Motivação , Reconhecimento Visual de Modelos , Adulto , Movimentos Oculares , Feminino , Humanos , Masculino , Mascaramento Perceptivo , Queensland , Tempo de Reação , Adulto Jovem
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