Regulation of isoform-specific sodium channel expression at nodes of Ranvier /

Luo, Songjiang.

January 2007

Thesis (Ph.D. in Physiology & Biophysics) -- University of Colorado Denver, 2007. / Typescript. Includes bibliographical references (leaves 125-138). Free to UCD affiliates. Online version available via ProQuest Digital Dissertations;

Development of a microfluidic based microvascular model towards a complete blood brain barrier (BBB) mimic /

Genes-Hernandez, Luiza I.

January 2008

Thesis (Ph. D.)--Michigan State University. Dept. of Chemistry, 2008. / Title from PDF t.p. (viewed on Aug. 20, 2009) Includes bibliographical references. Also issued in print.

The oligodendrocyte progenitor response to demyelination /

Vana, Adam C

January 2006

Thesis (Ph.D.)--Uniformed Services University of the Health Sciences, 2006 / Typescript (photocopy)

Image-processing of MRI for measuring brain injury, repair and degeneration in patients with multiple sclerosis

Chen, Jacqueline T., 1973-

January 2008

No description available.

Multiple Sclerosis -- pathology.

Image Processing, Computer-Assisted.

Myelin Sheath -- pathology.

Magnetic Resonance Imaging -- methods.

Flexing the innate immune arm within the human central nervous system : implications for multiple sclerosis

Jack, Carolyn Sarah.

January 2007

No description available.

Myelin Sheath -- metabolism.

Oligodendroglia -- metabolism.

Multiple Sclerosis -- physiopathology.

Nitric Oxide -- metabolism.

Microglia -- metabolism.

Peroxynitrous Acid -- metabolism.

The Type IV Oligodendrocyte : experimental studies on chicken white matter /

Anderson, Emma S.

January 2002

Diss. (sammanfattning) Linköping : Univ., 2002. / Härtill 4 uppsatser.

As características microestruturais do tecido neural e o grau de atrofia cerebral nos estágios iniciais da esclerose múltipla remitente-recorrente / The microstructural changes in the neural tissue and the degree of cortical atrophy in the initial stages of relapsing remitting multiple sclerosis

Rimkus, Carolina de Medeiros

05 February 2013

Introdução: Os processos degenerativos vêm sendo considerados determinantes da progressão do déficit neurológico na esclerose múltipla (EM) e são associados sobretudo à perda neuronal e axonal. A patologia na substância branca (SB) manifesta-se pela quebra de membranas e perda da complexidade microestrutural dos tratos cerebrais, o que pode ser estudado indiretamente pelas alterações nos índices de fração de anisotropia (FA) e difusividade média (DM), obtidos por meio das análises das imagens por tensores de difusão (diffusion tensor imaging - DTI). Essa técnica oferece outros dois índices mais específicos, a difusividade axial () e difusividade radial (), que são associados aos processos de perda axonal e desmielinização, respectivamente. A perda neuronal na substância cinzenta (SC) pode ser avaliada pelo grau de atrofia do córtex cerebral. Este estudo tem como objetivos mensurar os índices de DTI na maior comissura cerebral, o corpo caloso (CC), e o grau e distribuição da atrofia cortical em indivíduos com EM remitente-recorrente (EMRR) e baixos escores de incapacidade funcional, correlacionando essas alterações com o volume de lesões macroscópicas e os principais parâmetros clínicos. Método: 31 indivíduos (22 mulheres, idade média 30,5 anos ± 8,7) com EMRR e um grupo controle (GC) composto por 34 indivíduos saudáveis (27 mulheres, idade média 32,3 anos ± 7,8) realizaram exames de crânio em aparelho de ressonância magnética de 3 Tesla (3T), sendo adquiridas imagens de DTI com 32 direções de gradiente, obtendo-se os índices de FA, DM, e de cinco segmentos na secção sagital do corpo caloso (CC). Através da segmentação de imagens volumétricas ponderadas em T1 foram obtidas as espessuras corticais regionais nos grupos. Esses resultados foram correlacionados com os volumes lesionais de imagens ponderadas em T1 e T2/FLAIR e os escores da escala expandida do estado de incapacidade (Expanded Disability Status Scale - EDSS), considerando-se significativos resultados com p< 0,05. Resultados: Os índices de FA, DM e do CC estavam difusamente alterados no grupo EMRR e a , alterada significativamente no esplênio, tronco médio anterior e tronco médio posterior do CC. Observou-se atrofia cortical significativa no terço anterior dos lobos temporais, bilateralmente, e nas regiões parietal inferior, insular e fronto-orbitária direitas, com uma tendência à atrofia no giro frontal superior esquerdo. As FA, DM e correlacionaram-se com os volumes lesionais T1 e, mais significativamente, com os volumes lesionais T2/FLAIR, porém não houve correlação entre os volumes lesionais e a . A espessura cortical no grupo EMRR apresentou correlações com ambos os volumes lesionais, mais significativamente com as lesões em T1. O escore médio da EDSS era 1,1 ± 0,9 (variando de 0-3), apresentando correlações com a DM e a no esplênio, tronco médio anterior e posterior do CC, com uma correlação com a no tronco médio posterior. O EDSS correlacionou-se com a espessura cortical na topografia do giro frontal superior esquerdo. Discussão e conclusão: Houve alteração difusa nos índices de FA, DM e nos segmentos do CC, com acometimento mais localizado, predominantemente médio posterior, da , o que pode sugerir desmielinização difusa do CC, porém axonopatia ou degeneração mais acentuada em algumas regiões da SB. A atrofia cortical também apresentou uma distribuição regional característica, afetando sobretudo as regiões temporais, bilateralmente, parietal inferior, insular e fronto-orbitária direitas. As correlações encontradas entre os índices de DTI e a espessura cortical e os volumes lesionais demonstraram que, ao menos em parte, as degenerações das SB e SC podem ser relacionadas à degeneração Walleriana, secundária ao acúmulo de placas lesionais. As correlações entre a DM, de alguns segmentos do CC e a espessura cortical do giro frontal superior com os escores da EDSS favoreceram à hipótese de que a degeneração tecidual na EM foi um fator preponderante na progressão do déficit neurológico na EMRR / Introduction: The degenerative processes are gaining attention as predictors of the neurological deficit in multiple sclerosis (MS), being reflected by the degree of axon loss and central nervous system atrophy. The white matter pathology (WM) is characterized by cellular membranes disruption and loss of the microstructural complexity, which can be accessed by the diffusion tensor imaging (DTI) indices of fractional anisotropy (FA) and mean diffusivity (MD). This imaging technique also offers two more specific indices: the axial diffusivity () and radial diffusivity (), which are useful to differentiate between axon loss and demyelination, respectively. The gray matter (GM) neuronal loss can be accessed by the degree of cortical atrophy. The aim of this study is to measure the DTI indices in the greatest WM commisure, the corpus callosum (CC), and the degree and distribution of cortical atrophy in patients with relapsing remitting MS (RRMS) and low disability scores, correlating them to the macroscopic lesion load and the main clinical scores. Method: 31 RRMS patients (22 women, mean age 30.5 years ± 8.7) and 34 healthy control (HC) subjects (27 women, mean age 32.3 years ± 7.8) were submitted to brain examinations in a 3T magnetic resonance image scanner. From DTI with 32 gradient encoding directions were extracted the indices of FA, MD, and , which were measured in 5 segments of the mid-sagital section of the corpus callosum (CC). The cortical thickness was obtained from the segmentation of volumetric T1 images. These results were correlated with the macroscopic lesion loads in the T1 and T2/FLAIR images and the scores in the Expanded Disability Status Scale EDSS, considering significant the results with p< 0.05. Results: The FA, MD and were diffusively abnormal in all 5 segments of the CC in the RRMS group and the was abnormal only in the splenium, anterior midbody and posterior mid-body. The anterior area of the both temporal lobes and right inferior parietal, some orbital-frontal and insular regions showed significant atrophy, with a tendency of atrophy in the superior frontal gyrus. The FA, MD and correlated with the T1 lesion load and, more significantly, with the T2/FLAIR lesion load. The cortical thickness correlated with T1 and T2/FLAIR lesion loads, more significantly with the T1 lesion load. The mean EDSS in the RRMS group was 1.1 ± 0.9 (range 0-3), correlating with the MD and of the splenium, anterior and posterior mid-body of the CC. The EDSS correlated to cortical thickness in the topography of the superior frontal gyrus. Discussion and conclusion: The FA, MD and are diffusively abnormal in the CC, with abnormalities in the , restricted to the medial and posterior segments. These results can be interpreted as signs of diffuse demyelination in the CC and a predominance of axonopathy or more advanced degeneration in some segments. The cortical atrophy also followed a characteristic regional distribution, affecting predominantly the bilateral temporal lobes, and inferior parietal, orbital-frontal and insular regions, in the right hemisphere. The correlations found between the DTI indices and the cortical thickness and the macroscopic lesion loads show that, at least partially, the WM and GM degeneration can be related to Wallerian degeneration secondary to macroscopic lesion accumulation. The correlations between the DM, , in some of the CC segments, and cortical thickness, in the superior frontal gyrus, and the EDSS scores reinforces the hypothesis that the degenerative processes in MS can play a role in the disability status of the patients

Bainha de mielina

Degeneração neural

Diffusion tensor imaging

Esclerose múltipla

Imagem de tensor de difusão

Imagem por ressonância magnética

Magnetic resonance imaging

Multiple sclerosis

Myelin sheath

Nerve degeneration

Desenvolvimento de nanoimunossensores de microscopia de força atômica para estudo da esclerose múltipla / Development of atomic force microscopy nanoimmunosensor applied to the survey of multiple sclerosis

Garcia, Pâmela Soto

13 December 2018

A glicoproteína oligodendrocítica da mielina (MOG) e proteína básica da mielina (MBP) têm sido implicadas como os antígenos-alvo mais importantes nos processos desmielinizantes do sistema nervoso central (SNC), e mais importantes autoantígenos que surgiram dos estudos com o modelo animal para a esclerose múltipla (EM), a encefalomielite autoimune experimental (EAE). Os primeiros autoanticorpos detectados no soro e liquido cefalorraquidiano (LCR) de pacientes com EM foram anticorpos contra antígenos da mielina. O diagnóstico diferencial da EM inclui a presença de bandas oligoclonais (BOCs) no LCR e ausência no soro, demonstrando dessa forma síntese intratecal de imunoclobulinas G (IgG). As técnicas de detecção de anticorpos mais utilizadas atualmente são ELISA, ensaio baseado em células e western blot (WB). Neste contexto, o estudo da anti-MOG e anti-MBP e seu papel na EM podem ser estudados através da técnica de espectroscopia de força atômica (AFS). Esta é uma técnica altamente sensível que permite a detecção molecular, com a interação de uma ponta funcionalizada de microscópio de força atômica (AFM) com uma amostra, a qual fornece desta forma a força de adesão (Fad) específica para o sistema. Nesta pesquisa, foi inserido na ponta de AFM funcionalizada os peptídeos encefalitogênicos MOG92-106 e MBP85-99, para detectar e estudar os anticorpos específicos IgG anti- MOG92-106 e MBP85-99, no soro e LCR de pacientes na amostra, utilizando a técnica AFS. Sendo assim, este estudo foi realizado de forma inédita utilizando a AFS, auxiliando diretamente na investigação da EM e doenças desmielinizantes relacionadas. / Myelin oligodendrocyte glycoprotein (MOG) and myelin basic protein (MBP) have been implied as the most important target antigens in demyelinating processes of central nervous system (CNS) and the most important antigens candidates whom arised from the animal model for multiple sclerosis (MS), the experimental autoimmune encephalomyelitis (EAE). The first autoantibodies detected in serum and cerebrospinal fluid (CSF) of MS patients were antibodies against myelin antigens. Differential diagnostic to MS includes the presence of oligoclonal bands (OCBs) in CSF and absence in serum, which demonstrate intrathecal IgG synthesis. Most applied techniques to detection of antibodies nowadays are ELISA, cell-based assay and western blot (WB). In this context, the study of anti-MOG role in e disease may be supported through its detection by atomic force spectroscopy (AFS) technique. AFS is a highly sensitive technique that allows molecular detection as a functionalized atomic force microscope (AFM) tip interacts with the sample, providing the system specific adhesion force (Fad). In this research, it was attached in the functionalized AFM tip the notable encephalitogenic peptides MOG92-106 and MBP85-99 to detect and study the specific antibodies anti-MOG92-106 and anti-MBP85-99 on the sample with AFS technique. Thus, this study was applied for the first time in research with AFS, assisting directly to MS and other demyelinating diseases investigation.

Atomic force microscopy

Bainha de mielina

Central nervous system

Esclerose múltipla

Espectroscopia atômica

Force spectroscopy

Microscopia de força atômica

Multiple sclerosis

Myelin sheath

Sensor

Sensor

Sistema nervoso central

Novel Insights into Schwann Cell Dynamics in Peripheral Nervous System Myelination: a dissertation

Gatto, Cheryl Lynn

07 April 2004

This body of work details the exploitation of an incredibly powerful neural culture system, which enables the in vitrostudy of events involved in peripheral nervous system (PNS) development. Using a myelinating dorsal root ganglion (DRG) explant culture system, node of Ranvier formation and maintenance and the associated generation and maturation of myelin segments was examined. In addition, Schwann cell (SC) development, dynamics, and migration were extensively studied. First, in characterizing these cultures, the discrete axonal localization of specific ankyrin isoforms was revealed. Ankyrins are peripheral membrane proteins that immobilize classes of integral membrane proteins to the spectrin based-membrane skeleton. Ankyrins interact with proteins such as the voltage-dependent/gated sodium channel (vgsc) and members of the L1 family of cell adhesion molecules. These interactions are physiologically relevant to the formation of membrane specializations involved in axon guidance and the initiation and propagation of action potentials. We examined ankyrinB and ankyrinG expression in cultured DRG explants, which allowed visualization of individual axons. AnkyrinB and ankyrinG exhibited differential localizations to specific axonal populations. This was evident as early as one day in vitro and persisted over time. In mature pre-myelinated cultures, axons having an apparent diameter of less than 1 µm predominantly expressed ankyrinB, whereas axons having a diameter greater than or equal to 1 µm predominantly expressed ankyrinG (based on immunocytochemical reactivity). When myelination was induced, ankyrinGwas appropriately localized to sites of nodal development flanked by myelinating glial processes in the large caliber axons. These observations suggest that axons destined for myelination may express a distinct complement of peripheral, and perhaps integral, membrane proteins as compared to those observed in non-myelinated axons. These distinguishing features may play a role in the selection of axons for myelination. This work was followed with defining the role axo-glial interactions play in organizing domains along the axon being myelinated. Nodes of Ranvier are specialized, highly polarized axonal domains crucial to the propagation of saltatory action potentials. In the PNS, axon-glial cell contacts have been implicated in SC differentiation and the formation of nodes of Ranvier. SC microvilli establish axonal contact at mature nodes, and their components have been observed to localize early to sites of developing nodes. However, a role for these contacts in node formation remains controversial. Using the myelinating explant culture system, we observed that SCs reorganize and polarize microvillar components, such as the ezrin-binding phosphoprotein 50kDa (EBP50)/regulatory co-factor of the sodium-hydrogen exchanger isoform 3 (NHERF-1), actin, and the activated ezrin, radixin, and moesin (ERM) family of proteins, concomitant with myelination in response to inductive signals. These components were targeted to the SC distal tips where live cell imaging revealed novel, dynamic growth cone-like behavior. Further, localized activation of the Rho signaling pathway at SC tips gave rise to these microvillar component-enriched “caps” and influenced the efficiency of node formation. Extending these findings, a more profound examination of SC dynamics was undertaken. This was a particularly important experimental transition, as SC motility is crucial in the development and regeneration of the PNS. The seemingly equivalent bipolarity of mature SCs represents a conundrum in terms of directed motility. Fluorescence time-lapse microscopy of transfected SCs within the myelinating DRG explants revealed a novel cycling of these cells between static, bipolar and motile, unipolar morphologies via asymmetric process retraction and extension. Concentrations of PIP2 (phosphatidylinositol (4,5)-bisphosphate), activated ERMs, and EBP50 delineated the transitory asymmetry associated with the generation and neuron-like migration of the unipolar cell. EBP50 over-expression enhanced unipolar SC migration, suggesting a new role for this adaptor protein in cell motility. Further, the ERMs themselves were found to be essential to both motility and process dynamics with ERM disruption yielding a dysfunctional, multipolar SC phenotype. We propose this novel form of motility may be associated with the correct alignment and spacing of SCs along axons prior to elaboration of the myelin sheath. These compiled studies present significant advances in understanding and examining axo-glial interactions in the PNS. This work establishes the foundation for further, novel exploration of normal PNS development and the regeneration and repair mechanisms involved in PNS injury and disease states.

Peripheral Nervous System

Ankyrins

Ganglia

Spinal

Myelin Sheath

Ranvier's Nodes

Schwann Cells

Amino Acids, Peptides, and Proteins

Cells

Nervous System

Neuroscience and Neurobiology

Tissues

As características microestruturais do tecido neural e o grau de atrofia cerebral nos estágios iniciais da esclerose múltipla remitente-recorrente / The microstructural changes in the neural tissue and the degree of cortical atrophy in the initial stages of relapsing remitting multiple sclerosis

Carolina de Medeiros Rimkus

05 February 2013

Introdução: Os processos degenerativos vêm sendo considerados determinantes da progressão do déficit neurológico na esclerose múltipla (EM) e são associados sobretudo à perda neuronal e axonal. A patologia na substância branca (SB) manifesta-se pela quebra de membranas e perda da complexidade microestrutural dos tratos cerebrais, o que pode ser estudado indiretamente pelas alterações nos índices de fração de anisotropia (FA) e difusividade média (DM), obtidos por meio das análises das imagens por tensores de difusão (diffusion tensor imaging - DTI). Essa técnica oferece outros dois índices mais específicos, a difusividade axial () e difusividade radial (), que são associados aos processos de perda axonal e desmielinização, respectivamente. A perda neuronal na substância cinzenta (SC) pode ser avaliada pelo grau de atrofia do córtex cerebral. Este estudo tem como objetivos mensurar os índices de DTI na maior comissura cerebral, o corpo caloso (CC), e o grau e distribuição da atrofia cortical em indivíduos com EM remitente-recorrente (EMRR) e baixos escores de incapacidade funcional, correlacionando essas alterações com o volume de lesões macroscópicas e os principais parâmetros clínicos. Método: 31 indivíduos (22 mulheres, idade média 30,5 anos ± 8,7) com EMRR e um grupo controle (GC) composto por 34 indivíduos saudáveis (27 mulheres, idade média 32,3 anos ± 7,8) realizaram exames de crânio em aparelho de ressonância magnética de 3 Tesla (3T), sendo adquiridas imagens de DTI com 32 direções de gradiente, obtendo-se os índices de FA, DM, e de cinco segmentos na secção sagital do corpo caloso (CC). Através da segmentação de imagens volumétricas ponderadas em T1 foram obtidas as espessuras corticais regionais nos grupos. Esses resultados foram correlacionados com os volumes lesionais de imagens ponderadas em T1 e T2/FLAIR e os escores da escala expandida do estado de incapacidade (Expanded Disability Status Scale - EDSS), considerando-se significativos resultados com p< 0,05. Resultados: Os índices de FA, DM e do CC estavam difusamente alterados no grupo EMRR e a , alterada significativamente no esplênio, tronco médio anterior e tronco médio posterior do CC. Observou-se atrofia cortical significativa no terço anterior dos lobos temporais, bilateralmente, e nas regiões parietal inferior, insular e fronto-orbitária direitas, com uma tendência à atrofia no giro frontal superior esquerdo. As FA, DM e correlacionaram-se com os volumes lesionais T1 e, mais significativamente, com os volumes lesionais T2/FLAIR, porém não houve correlação entre os volumes lesionais e a . A espessura cortical no grupo EMRR apresentou correlações com ambos os volumes lesionais, mais significativamente com as lesões em T1. O escore médio da EDSS era 1,1 ± 0,9 (variando de 0-3), apresentando correlações com a DM e a no esplênio, tronco médio anterior e posterior do CC, com uma correlação com a no tronco médio posterior. O EDSS correlacionou-se com a espessura cortical na topografia do giro frontal superior esquerdo. Discussão e conclusão: Houve alteração difusa nos índices de FA, DM e nos segmentos do CC, com acometimento mais localizado, predominantemente médio posterior, da , o que pode sugerir desmielinização difusa do CC, porém axonopatia ou degeneração mais acentuada em algumas regiões da SB. A atrofia cortical também apresentou uma distribuição regional característica, afetando sobretudo as regiões temporais, bilateralmente, parietal inferior, insular e fronto-orbitária direitas. As correlações encontradas entre os índices de DTI e a espessura cortical e os volumes lesionais demonstraram que, ao menos em parte, as degenerações das SB e SC podem ser relacionadas à degeneração Walleriana, secundária ao acúmulo de placas lesionais. As correlações entre a DM, de alguns segmentos do CC e a espessura cortical do giro frontal superior com os escores da EDSS favoreceram à hipótese de que a degeneração tecidual na EM foi um fator preponderante na progressão do déficit neurológico na EMRR / Introduction: The degenerative processes are gaining attention as predictors of the neurological deficit in multiple sclerosis (MS), being reflected by the degree of axon loss and central nervous system atrophy. The white matter pathology (WM) is characterized by cellular membranes disruption and loss of the microstructural complexity, which can be accessed by the diffusion tensor imaging (DTI) indices of fractional anisotropy (FA) and mean diffusivity (MD). This imaging technique also offers two more specific indices: the axial diffusivity () and radial diffusivity (), which are useful to differentiate between axon loss and demyelination, respectively. The gray matter (GM) neuronal loss can be accessed by the degree of cortical atrophy. The aim of this study is to measure the DTI indices in the greatest WM commisure, the corpus callosum (CC), and the degree and distribution of cortical atrophy in patients with relapsing remitting MS (RRMS) and low disability scores, correlating them to the macroscopic lesion load and the main clinical scores. Method: 31 RRMS patients (22 women, mean age 30.5 years ± 8.7) and 34 healthy control (HC) subjects (27 women, mean age 32.3 years ± 7.8) were submitted to brain examinations in a 3T magnetic resonance image scanner. From DTI with 32 gradient encoding directions were extracted the indices of FA, MD, and , which were measured in 5 segments of the mid-sagital section of the corpus callosum (CC). The cortical thickness was obtained from the segmentation of volumetric T1 images. These results were correlated with the macroscopic lesion loads in the T1 and T2/FLAIR images and the scores in the Expanded Disability Status Scale EDSS, considering significant the results with p< 0.05. Results: The FA, MD and were diffusively abnormal in all 5 segments of the CC in the RRMS group and the was abnormal only in the splenium, anterior midbody and posterior mid-body. The anterior area of the both temporal lobes and right inferior parietal, some orbital-frontal and insular regions showed significant atrophy, with a tendency of atrophy in the superior frontal gyrus. The FA, MD and correlated with the T1 lesion load and, more significantly, with the T2/FLAIR lesion load. The cortical thickness correlated with T1 and T2/FLAIR lesion loads, more significantly with the T1 lesion load. The mean EDSS in the RRMS group was 1.1 ± 0.9 (range 0-3), correlating with the MD and of the splenium, anterior and posterior mid-body of the CC. The EDSS correlated to cortical thickness in the topography of the superior frontal gyrus. Discussion and conclusion: The FA, MD and are diffusively abnormal in the CC, with abnormalities in the , restricted to the medial and posterior segments. These results can be interpreted as signs of diffuse demyelination in the CC and a predominance of axonopathy or more advanced degeneration in some segments. The cortical atrophy also followed a characteristic regional distribution, affecting predominantly the bilateral temporal lobes, and inferior parietal, orbital-frontal and insular regions, in the right hemisphere. The correlations found between the DTI indices and the cortical thickness and the macroscopic lesion loads show that, at least partially, the WM and GM degeneration can be related to Wallerian degeneration secondary to macroscopic lesion accumulation. The correlations between the DM, , in some of the CC segments, and cortical thickness, in the superior frontal gyrus, and the EDSS scores reinforces the hypothesis that the degenerative processes in MS can play a role in the disability status of the patients

Bainha de mielina

Degeneração neural

Esclerose múltipla

Imagem de tensor de difusão

Imagem por ressonância magnética

Diffusion tensor imaging

Magnetic resonance imaging

Multiple sclerosis

Myelin sheath

Nerve degeneration