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1.
Acta Anatomica Sinica ; (6): 241-246, 2024.
Artigo em Chinês | WPRIM | ID: wpr-1018775

RESUMO

Neurodevelopment and neuronal function are modulated by multiple factors including environment,genetics and epigenetics.As a post-translational modification,N-glycosylation is catalyzed by glycosyltransferase and involves in diverse biological processes.N-glycosylation is abundant in neuronal system,regulates the development and maturation of synapse,and inflammatory response of glial cells.The dysregulation of N-glycosylation induces neurological disorders including Alzheimer's disease,congenital disorders of glycosylation,schizophrenia and epilepsy.In the present review,we have summarized the progresses of N-glycosylation in regulating neuronal and astrocytic function,and its roles in neurological disorders and related mechanisms.

2.
Artigo em Chinês | WPRIM | ID: wpr-1039111

RESUMO

Exosome is a kind of extracellular vesicles secreted by cells to the outside. Biogenesis mainly involves two invaginations of the cytoplasmic membrane, the formation of multivesicular bodies, and the release of exosomes. Exosomes have abundant and diverse inclusions—including landmark membrane proteins, soluble proteins, various RNA molecules and DNA fragments, etc. Cells can achieve intercellular signal communication by secreting and receiving exosomes. Through interaction of ligand molecules on the exosome membrane with receptors on the surface of other cytoplasmic membranes, exosomes can activate cell signal transduction or fuse with the cell membrane to release its contents into the cytoplasm to exert regulatory functions. In the central nervous system, exosomes secreted by neurons and various glial cells can mediate wired synaptic signal transmission, but mainly play a role similar to neuromodulator by way of volume transmission. In this paper, the biogenesis of exosomes and important functional components are described in detail, and the characteristics of neural exosomes in the biogenesis, content sorting and controlled release are compared with those of synaptic vesicles. We further review the research progress on the physiological functions of neural exosomes on the central nervous system and their roles in the occurrence and development of neurodegenerative diseases and major depressive disorder. We also prospect the application of exosomes in the early diagnosis and targeted therapy of nervous system diseases.

3.
Neuroscience Bulletin ; (6): 1-16, 2024.
Artigo em Inglês | WPRIM | ID: wpr-1010677

RESUMO

Astrocytes are the largest glial population in the mammalian brain. However, we have a minimal understanding of astrocyte development, especially fate specification in different regions of the brain. Through lineage tracing of the progenitors of the third ventricle (3V) wall via in-utero electroporation in the embryonic mouse brain, we show the fate specification and migration pattern of astrocytes derived from radial glia along the 3V wall. Unexpectedly, radial glia located in different regions along the 3V wall of the diencephalon produce distinct cell types: radial glia in the upper region produce astrocytes and those in the lower region produce neurons in the diencephalon. With genetic fate mapping analysis, we reveal that the first population of astrocytes appears along the zona incerta in the diencephalon. Astrogenesis occurs at an early time point in the dorsal region relative to that in the ventral region of the developing diencephalon. With transcriptomic analysis of the region-specific 3V wall and lateral ventricle (LV) wall, we identified cohorts of differentially-expressed genes in the dorsal 3V wall compared to the ventral 3V wall and LV wall that may regulate astrogenesis in the dorsal diencephalon. Together, these results demonstrate that the generation of astrocytes shows a spatiotemporal pattern in the developing mouse diencephalon.


Assuntos
Camundongos , Animais , Astrócitos , Neuroglia/fisiologia , Diencéfalo , Encéfalo , Neurônios , Mamíferos
4.
Protein & Cell ; (12): 21-35, 2024.
Artigo em Inglês | WPRIM | ID: wpr-1010788

RESUMO

The seat of human intelligence is the human cerebral cortex, which is responsible for our exceptional cognitive abilities. Identifying principles that lead to the development of the large-sized human cerebral cortex will shed light on what makes the human brain and species so special. The remarkable increase in the number of human cortical pyramidal neurons and the size of the human cerebral cortex is mainly because human cortical radial glial cells, primary neural stem cells in the cortex, generate cortical pyramidal neurons for more than 130 days, whereas the same process takes only about 7 days in mice. The molecular mechanisms underlying this difference are largely unknown. Here, we found that bone morphogenic protein 7 (BMP7) is expressed by increasing the number of cortical radial glial cells during mammalian evolution (mouse, ferret, monkey, and human). BMP7 expression in cortical radial glial cells promotes neurogenesis, inhibits gliogenesis, and thereby increases the length of the neurogenic period, whereas Sonic Hedgehog (SHH) signaling promotes cortical gliogenesis. We demonstrate that BMP7 signaling and SHH signaling mutually inhibit each other through regulation of GLI3 repressor formation. We propose that BMP7 drives the evolutionary expansion of the mammalian cortex by increasing the length of the neurogenic period.


Assuntos
Animais , Camundongos , Humanos , Células Ependimogliais/metabolismo , Proteínas Hedgehog/metabolismo , Furões/metabolismo , Córtex Cerebral , Neurogênese , Mamíferos/metabolismo , Neuroglia/metabolismo , Proteína Morfogenética Óssea 7/metabolismo
5.
Neuroscience Bulletin ; (6): 425-439, 2023.
Artigo em Inglês | WPRIM | ID: wpr-971574

RESUMO

Chronic pain is challenging to treat due to the limited therapeutic options and adverse side-effects of therapies. Astrocytes are the most abundant glial cells in the central nervous system and play important roles in different pathological conditions, including chronic pain. Astrocytes regulate nociceptive synaptic transmission and network function via neuron-glia and glia-glia interactions to exaggerate pain signals under chronic pain conditions. It is also becoming clear that astrocytes play active roles in brain regions important for the emotional and memory-related aspects of chronic pain. Therefore, this review presents our current understanding of the roles of astrocytes in chronic pain, how they regulate nociceptive responses, and their cellular and molecular mechanisms of action.


Assuntos
Humanos , Astrócitos/patologia , Dor Crônica/patologia , Neuroglia/fisiologia , Neurônios/fisiologia , Transmissão Sináptica , Doença Crônica
6.
Neuroscience Bulletin ; (6): 519-530, 2023.
Artigo em Inglês | WPRIM | ID: wpr-971575

RESUMO

Cerebral small vessel disease (CSVD) is one of the most prevalent pathologic processes affecting 5% of people over 50 years of age and contributing to 45% of dementia cases. Increasing evidence has demonstrated the pathological roles of chronic hypoperfusion, impaired cerebral vascular reactivity, and leakage of the blood-brain barrier in CSVD. However, the pathogenesis of CSVD remains elusive thus far, and no radical treatment has been developed. NG2 glia, also known as oligodendrocyte precursor cells, are the fourth type of glial cell in addition to astrocytes, microglia, and oligodendrocytes in the mammalian central nervous system. Many novel functions for NG2 glia in physiological and pathological states have recently been revealed. In this review, we discuss the role of NG2 glia in CSVD and the underlying mechanisms.


Assuntos
Animais , Neuroglia/metabolismo , Sistema Nervoso Central/metabolismo , Astrócitos/metabolismo , Oligodendroglia/metabolismo , Doenças de Pequenos Vasos Cerebrais/metabolismo , Antígenos/metabolismo , Mamíferos/metabolismo
7.
Neuroscience Bulletin ; (6): 531-540, 2023.
Artigo em Inglês | WPRIM | ID: wpr-971577

RESUMO

Glial cells, consisting of astrocytes, oligodendrocyte lineage cells, and microglia, account for >50% of the total number of cells in the mammalian brain. They play key roles in the modulation of various brain activities under physiological and pathological conditions. Although the typical morphological features and characteristic functions of these cells are well described, the organization of interconnections of the different glial cell populations and their impact on the healthy and diseased brain is not completely understood. Understanding these processes remains a profound challenge. Accumulating evidence suggests that glial cells can form highly complex interconnections with each other. The astroglial network has been well described. Oligodendrocytes and microglia may also contribute to the formation of glial networks under various circumstances. In this review, we discuss the structure and function of glial networks and their pathological relevance to central nervous system diseases. We also highlight opportunities for future research on the glial connectome.


Assuntos
Animais , Neuroglia/fisiologia , Neurônios/fisiologia , Astrócitos , Microglia/fisiologia , Oligodendroglia , Mamíferos
8.
Acta Anatomica Sinica ; (6): 484-489, 2023.
Artigo em Chinês | WPRIM | ID: wpr-1015205

RESUMO

[Abstract] Blinding eye diseases caused by retinal degeneration have a detrimental effect on human health. Mammalian retina exhibits very limited capacity for self-repair after degenerative disease or injury. In contrast, zebrafish retina possesses a robust regenerative response that regenerates all types of retinal neurons and restores vision. Retina regeneration in zebrafish depends on a type of glia cells called Müller glia. Following retinal injury, zebrafish Müller glia undergo a reprogramming process and proliferate into multipotent progenitor cells that further differentiate into newborn retinal neurons. In recent years, significant progress has been made in the field of Müller glia-based retina regeneration. Here we summarize the mechanisms governing zebrafish retina regeneration and the recent advances in mammalian Müller glia reprogramming.

9.
Rev. bras. pesqui. méd. biol ; Braz. j. med. biol. res;56: e12391, 2023. graf
Artigo em Inglês | LILACS-Express | LILACS | ID: biblio-1513881

RESUMO

Rupture of Achilles tendon is a common accident affecting professional and recreational athletes. Acute and chronic pain are symptoms commonly observed in patients with rupture. However, few studies have investigated whether Achilles tendon rupture is able to promote disorders in the central nervous system (CNS). Therefore, the current study aimed to evaluate nociceptive alterations and inflammatory response in the L5 lumbar segment of Balb/c mice spinal cord after Achilles tendon rupture. We found increased algesia in the paw of the ruptured group on the 7th and 14th days post-tenotomy compared with the control group. This phenomenon was accompanied by overexpression of cyclooxygenase-2 (COX-2) and inducible nitric oxide synthase-2 (NOS-2) as well as hyperactivation of astrocytes and microglia in nociceptive areas of L5 spinal cord as evidenced by intense GFAP and IBA-1 immunostaining, respectively. Biochemical studies also demonstrated increased levels of nitrite in the L5 spinal cord of tenotomized animals compared with the control group. Thus, we have demonstrated for the first time that total rupture of the Achilles tendon induced inflammatory response and nitrergic and glial activation in the CNS in the L5 spinal cord region.

10.
JOURNAL OF RARE DISEASES ; (4): 196-198, 2022.
Artigo em Chinês | WPRIM | ID: wpr-1005001

RESUMO

Adult-onset leukoencephalopathy with axonal spheroids and pigmented glia (ALSP) is a rare autosomal-dominant progressive leukodystrophy, caused by mutations of colony stimulating factor-1 receptor (CSF1R) gene. Age of onset is usually between 40 and 50 years old and the clinical presentations include dementia, apraxia, behavioral changes, pyramidal and extrapyramidal signs. Varying clinical manifestations have led to misdiagnoses. Magnetic resonance imaging (MRI) typically reveals white matter changes with T2-Flair/DWI hyperintensity and atrophy especially for thinning of the corpus callosum. Here, we report a young woman experiencing hypomnesia for 2 years with lower extremities weakness and rigidity for 1 month. Considering the evidence of clinical manifestations, imaging and genetic test, this patient was diagnosed with ALSP.

11.
Clin. biomed. res ; 41(2): 157-166, 2021. tab
Artigo em Português | LILACS | ID: biblio-1341979

RESUMO

Introdução: A neuroinflamação associada às células gliais é um elemento importante do processo patológico da doença de Alzheimer (DA). Este estudo apresenta uma revisão dos marcadores gliais quitinase 3-like 1 (YKL-40), do receptor desencadeado expresso nas células mieloides 2 (Triggering receptor expressed on myeloid cells 2 ­ TREM2), da proteína acídica fibrilar glial (GFAP) e da proteína B S100 ligante de cálcio (S100B). Métodos: Nesta revisão são analisados os marcadores gliais YKL-40, TREM2, GFAP e S100B presentes em sangue e/ou líquido cefalorraquidiano (LCR), a partir de estudos publicados até 2020 nos bancos de dados do PubMed, Medline e Periódicos Capes. Resultados: Foram recuperados 233 documentos, dentre os quais foram incluídos 60. Todos os marcadores se encontram aumentados na DA em LCR ­ YKL-40 e TREM2 solúvel (sTREM2), já na fase pré-clínica ­, e em sangue, e estão correlacionados ao declínio cognitivo. No entanto, nenhum dos marcadores analisados apresentou grande potencial para o diagnóstico diferencial. Além da proteína TREM2 solúvel no LCR, no sangue também se pode identificar alteração nos níveis do RNAm de TREM2. GFAP sanguíneo mostra ser o melhor em distinguir controles de pacientes com Alzheimer. Há evidências de um efeito protetivo da ativação glial em reação ao acúmulo amiloide. Conclusão: Os marcadores gliais no geral têm pouca utilidade para o diagnóstico diferencial, mas podem auxiliar no prognóstico e como biomarcadores inespecíficos para doenças neurodegenerativas. (AU)


Introduction: Glial cell-associated neuroinflammation is a driving force for the pathological process of Alzheimer's disease (AD). This study is a systematic review aimed to analyze the following glial markers: chitinase-3-like protein 1 (YKL-40), triggering receptor expressed on myeloid cells 2 (TREM2), glial fibrillary acidic protein (GFAP) and S100 calcium-binding protein B (S100B). Methods: The PubMed, MEDLINE and CAPES Journals databases were searched for studies published until 2020 that addressed blood and/or cerebrospinal fluid (CSF) levels of YKL-40, TREM2, GFAP and S100B. Results: A total of 233 articles were retrieved, of which 60 were included in this study. All CSF ­ YKL-40 and soluble TREM2 (sTREM2) in preclinical stage ­ and blood biomarker levels were elevated for AD and were correlated to cognitive decline. None of the analyzed biomarkers showed promising results for differential diagnosis. Besides CSF sTREM2 levels, blood TREM2 mRNA levels were also altered in AD. Blood GFAP levels seem to be the best option for distinguishing controls from AD patients.' There is evidence of a protective role of glial activation in amyloid accumulation. Conclusion: Glial markers in general are of little use for differential diagnosis but can assist in prognosis and as nonspecific biomarkers of neurodegenerative diseases. (AU)


Assuntos
Biomarcadores , Neuroglia , Doença de Alzheimer/diagnóstico , Glicoproteínas de Membrana , Receptores Imunológicos , Subunidade beta da Proteína Ligante de Cálcio S100 , Proteína 1 Semelhante à Quitinase-3 , Proteína Glial Fibrilar Ácida
12.
Rev. méd. hondur ; 89(1, supl): 18-22, 2021. ilus
Artigo em Espanhol | LILACS | ID: biblio-1247576

RESUMO

Antecedentes: El Glioblastoma (GB) o astrocitoma grado IV, es un tumor agresivo que se origina de células gliales, con alto grado de malignidad, prevalencia menor al 1% en fosa posterior e incidencia menor al 0.5% de todos los GB. Actualmente se describen alrededor de 75 casos a nivel mundial. Descripción del caso clínico: Femenina, 24 años, referida a emergencia de Neurocirugía del Hospital Escuela Universitario, presentó cefalea holocraneana intensa, vómitos, náuseas, visión borrosa, vértigo y anorexia. Al examen neurológico mostró discreta adiadococinesia derecha y signos de papiledema. La tomografía axial computarizada cerebral evidenció lesión heterogénea en vermis extendido a hemisferio cerebeloso derecho, por lo que se realizó craniectomía suboccipital, abordaje transcerebelar, con citorreducción tumoral, encontrando masa vascularizada con componente quístico. Estudio anatomopatológico evidenció glioblastoma multiforme variante de células gigantes, confirmado con tinción de inmunohistoquímica (PFGA, CD34+ y vimentina). Paciente con buena evolución clínica postquirúrgica, egresada sin déficit neurológico. 16 meses después, presentó síndrome de recidiva tumoral y complicaciones, por lo que se reintervino en 4 ocasiones, posterior a recibir 30 dosis de radioterapia y 12 ciclos de quimioterapia, se reingresó con deterioro neurológico progresivo, signos meníngeos y síndrome de Parinaud, escala de Karnofsky (30 puntos), realizándose derivación ventrículo-peritoneal por compresión del IV ventrículo e hidrocefalia obstructiva secundaria, luego desarrolló neumonía intrahospitalaria, falleciendo a las dos semanas. Conclusiones: Es importante identificar la variante biológica del glioblastoma de forma temprana, para determinar pronóstico y acciones terapéuticas que influirán en la calidad de vida, así como la supervivencia...(AU)


Assuntos
Humanos , Feminino , Adulto , Neoplasias Encefálicas/complicações , Glioblastoma/diagnóstico , Ataxia Cerebelar , Proteína Glial Fibrilar Ácida
13.
Artigo em Chinês | WPRIM | ID: wpr-847683

RESUMO

BACKGROUND: Glial maturation factor-gamma (GMFG) is one of the members of the ADF/cofilin superfamily protein in the process of cytoskeleton remodeling. It can regulate the cell movement by regulating actin-mediated cytoskeleton reorganization. The authors previously found that the high expression of GMFG is associated with the clinicopathological features of colorectal cancer patients, but the specific upstream and downstream mechanisms need to be explored. OBJECTIVE: To study the effects of GMFG on cytoskeleton and LoVo cell proliferation. METHODS: (1) Human umbilical vein endothelial cells were inoculated in a laser confocal dish. After the cells grew stably, the correlation between the expression of GMFG and the expression of cytoskeletal protein F-actin was observed by immunofluorescence staining. Colchicine inhibited mitosis. The cells were divided into control group, 0.5 mg/L colchicine group and 1.0 mg/L colchicine group. The cell cycle was observed by flow cytometry and GMFG protein expression was observed by western blot assay. (2) Human colorectal cancer LoVo cells were inoculated in a laser confocal dish. After the cells grew stably, the correlation between GMFG expression and cell cycle was observed by immunofluorescence staining. Afterwards, siRNA was used to interfere the expression of GMFG in LoVo cells. The LoVo cells were divided into blank control group, empty transfer group and siRNA-GMFG group. The cell proliferation rate was detected by Edu assay. RESULTS AND CONCLUSION: (1) In human umbilical vein endothelial cells, the expression of GMFG was associated with the cytoskeletal motion of human umbilical vein endothelial cells, and the expression of GMFG increased when the cytoskeleton retracted. After colchicine inhibited the mitosis of human umbilical vein endothelial cells, the proportion of cells in G2/M phase increased and the expression of GMFG protein decreased with the increase of colchicine dosage. (2) In LoVo cells, the expression intensity of GMFG was associated with mitosis, and the expression of GMFG was enhanced in the middle and late stages of cell mitosis. (3) After siRNA interference with GMFG in LoVo cells, the cell proliferation rate was decreased. (4) Results verify that interference with GMFG can inhibit the proliferation rate of LoVo cells of human colorectal cancer, and there is a certain correlation between cytoskeletal motion and GMFG expression.

14.
Int. j. morphol ; 37(4): 1203-1209, Dec. 2019. graf
Artigo em Inglês | LILACS | ID: biblio-1040112

RESUMO

In vitro modeling of neurodegenerative diseases is now possible by using patient-derived induced pluripotent stem cells (iPS). Through them, it is nowadays conceivable to obtain human neurons and glia, and study diseases cellular and molecular mechanisms, an attribute that was previously unavailable to any human condition. Amyotrophic lateral sclerosis (ALS) is one of the diseases that has gained a rapid advance with iPS technology. By differentiating motor neurons from iPS cells of ALS- patients, we are studying the mechanisms underlying ALS- disease onset and progression. Here, we introduce a cellular platform to help maintain longevity of ALS iPS-motor neurons, a cellular feature relevant for most late-onset human diseases. Long term cultures of patient-derived iPS cells might prove to be critical for the development of personalized-drugs.


Actualmente es posible modelar in vitro enfermedades neurodegenerativas humanas mediante el uso de células madre pluripotentes inducidas (iPS) derivadas del paciente. A través de ellas, es hoy concebible obtener neuronas y glía humanas, y estudiar mecanismos celulares y moleculares de enfermedades, un atributo que anteriormente no era posible para ninguna condición humana. La esclerosis lateral amiotrófica (ELA) es una de las enfermedades que se ha beneficiado con la tecnología de iPS. Al diferenciar neuronas motoras de células iPS obtenidas de pacientes con ELA, hemos iniciado estudios sobre los mecanismos que subyacen a la aparición y progresión de la enfermedad. Aquí, presentamos el desarrollo de una plataforma celular que permite extender la longevidad de las neuronas motoras derivadas de iPS, una característica relevante para la mayoría de las enfermedades humanas de inicio tardío. Los cultivos a largo plazo de células iPS provenientes de pacientes pueden ser determinantes en el desarrollo de terapias asociadas a la medicina de precisión.


Assuntos
Humanos , Animais , Camundongos , Células-Tronco Pluripotentes Induzidas/citologia , Esclerose Lateral Amiotrófica/metabolismo , Imuno-Histoquímica , Linhagem Celular , Técnicas de Cocultura , Esclerose Lateral Amiotrófica/patologia , Esclerose Lateral Amiotrófica/terapia
15.
Artigo em Inglês | WPRIM | ID: wpr-739331

RESUMO

Recovery from central nervous system (CNS) injury, such as stroke or spinal cord injury (SCI), largely depends on axonal regeneration, and the neuronal and glial cells plasticity in the lesioned tissue. The lesioned tissue following CNS injury forms a scar that is composed of astrocytes and mixed with connective tissues. At the glial scar, the regenerating axon forms dystrophic endbulbs which do not regenerate and grow beyond the glial scar without a suitable environment. Along with the astrocytes, microglia are also suspected of being involved in necrotic and apoptotic neuronal cell death and the early response to axonal damage in CNS injury. The inflammatory response, a major component of secondary injury and controlled by the microglia, plays a pivotal role in nerve injury and control the regenerative response. As a result, it is very important to control the glial cell function in order to assure the recovery of the CNS injury. Studies have suggested that agmatine, a L-arginine derived primary amine, is a potential modulator of glial cell function after CNS injuries. Agmatine was found to possess anti-inflammatory and neuroprotective characteristics that benefited the rehabilitation process following CNS injury. In this review, we will discuss the effect of agmatine on glial cells in the process of recovery after CNS injury.


Assuntos
Agmatina , Arginina , Astrócitos , Axônios , Morte Celular , Sistema Nervoso Central , Cicatriz , Tecido Conjuntivo , Microglia , Neuroglia , Neurônios , Plásticos , Regeneração , Reabilitação , Traumatismos da Medula Espinal , Acidente Vascular Cerebral
16.
Experimental Neurobiology ; : 311-319, 2019.
Artigo em Inglês | WPRIM | ID: wpr-763773

RESUMO

Axon guidance molecules (AGMs), such as Netrins, Semaphorins, and Ephrins, have long been known to regulate axonal growth in the developing nervous system. Interestingly, the chemotactic properties of AGMs are also important in the postnatal period, such as in the regulation of immune and inflammatory responses. In particular, AGMs play pivotal roles in inflammation of the nervous system, by either stimulating or inhibiting inflammatory responses, depending on specific ligand-receptor combinations. Understanding such regulatory functions of AGMs in neuroinflammation may allow finding new molecular targets to treat neurodegenerative diseases, in which neuroinflammation underlies aetiology and progression.


Assuntos
Axônios , Efrinas , Inflamação , Sistema Nervoso , Doenças Neurodegenerativas , Neuroglia , Semaforinas
17.
Chinese Journal of Neurology ; (12): 967-973, 2019.
Artigo em Chinês | WPRIM | ID: wpr-801245

RESUMO

The myelin-associated protein Nogo-A was considered to be the axon growth inhibitory factor, which participates in a variety of pathophysiological regulation of nervous system. In recent years, a growing number of studies have shown that Nogo-A protein is closely related to epilepsy by regulating dendritic plasticity, mediating abnormal nerve migration and regulating glial cell activation, etc. This article will review the research progress of Nogo-A in epilepsy in recent years.

18.
Artigo em Inglês | WPRIM | ID: wpr-772942

RESUMO

Drosophila neural development undergoes extensive chromatin remodeling and precise epigenetic regulation. However, the roles of chromatin remodeling in establishment and maintenance of cell identity during cell fate transition remain enigmatic. Here, we compared the changes in gene expression, as well as the dynamics of nucleosome positioning and key histone modifications between the four major neural cell types during Drosophila neural development. We find that the neural progenitors can be separated from the terminally differentiated cells based on their gene expression profiles, whereas nucleosome distribution in the flanking regions of transcription start sites fails to identify the relationships between the progenitors and the differentiated cells. H3K27me3 signal in promoters and enhancers can not only distinguish the progenitors from the differentiated cells but also identify the differentiation path of the neural stem cells (NSCs) to the intermediate progenitor cells to the glial cells. In contrast, H3K9ac signal fails to identify the differentiation path, although it activates distinct sets of genes with neuron-specific and glia-related functions during the differentiation of the NSCs into neurons and glia, respectively. Together, our study provides novel insights into the crucial roles of chromatin remodeling in determining cell type during Drosophila neural development.

19.
São Paulo; s.n; s.n; 2019. 150 p. ilus, graf, tab.
Tese em Português | LILACS | ID: biblio-1007562

RESUMO

O Sistema Nervoso Central (SNC) humano é formado por cerca de 86,1 bilhões de neurônios entre o encéfalo e a medula espinhal. O desenvolvimento pré-natal humano (tempo da concepção ao nascimento) possui cerca de 38 semanas, e é dividido na fase embrionária que corresponde ao período das 8 semanas iniciais da gestação, seguido pela fase fetal. A fase embrionária é o período mais vulnerável à ocorrência de anormalidades congênitas. Por ser um órgão com grande período de desenvolvimento, o SNC está sujeito às alterações genéticas, epigenéticas e ambientais. Durante a fase de implantação do embrião, o DNA é mais vulnerável às influências externas, como à fumaça do cigarro, aumentando o risco de retardo do desenvolvimento fetal, o risco de morte súbita pós-natal e de anormalidades do sistema imune. Neste contexto, o objetivo deste trabalho é avaliar os efeitos da exposição à fumaça do cigarro sobre o processo de neuroinflamação da prole de camundongos C57BL/6 expostos à fumaça do cigarro durante a gestação e desafiados ou não com LPS. Para tanto, camundongos C57BL/6 fêmeas prenhes foram expostas à fumaça do cigarro desde o plug vaginal até o nascimento da prole. No 3º dia de vida, os filhotes foram separados para três linhas de trabalho: 1) in vivo: os animais foram desafiados com LPS pelo período de 4h, seguidos de eutanasia e análises de PCR Array do SNC. 2) in vitro: os encéfalos dissecados foram utilizados para a preparação de cultura mista de glia e da cultura enriquecida com neurônio. Após a maturação celular, as células foram estimuladas com LPS 100 ng/mL e, após 24h, foram realizados ensaios de CBA, citometria de fluxo, PCR, dosagem de NO, avaliação de morte celular e metilação global. 3) Encefalomielite Autoimune Experimental (EAE): após o desmame, os animais foram mantidos em suas caixas moradia por 8 semanas sem nenhum estímulo externo, e então foram imunizados com MOG35-55 para o desenvolvimento da EAE. Nos experimentos in vivo observamos o aumento da transcrição de genes relacionados ao processo inflamatório, como interleucinas e quimiocinas. Em relação aos experimentos in vitro observamos maior crescimento de células astrocitárias (astrogliose), e células da microglia com aumento de moléculas co-estimuladoras (CD80 e CD86) bem como da transcrição e concentração de citocinas pró-inflamatórias e produção de NO. Em cultura enriquecida de neurônio, foi observado aumento na porcentagem de células em apoptose no grupo exposto à fumaça do cigarro desafiados ou não com LPS. O bloqueio da atividade da microglia pela minociclina reverteu a apoptose e diminuiu a produção de NO minimizando a morte celular. Em relação aos experimentos de EAE, os animais expostos à fumaça do cigarro no período gestacional, quando imunizados na vida adulta apresentam aumento no grau da doença bem como maior persistência da mesma quando observado escore clínico, além de acompanhados de um grau maior de infiltrado celular e desmielinização. Desta forma podemos concluir que a exposição à fumaça do cigarro durante o período gestacional leva a uma programação fetal com aumento da resposta neuroinflamatória frente a um estimulo sistêmico, trazendo consequências na vida adulta


The human central nervous system (CNS) is made up of about 86.1 billion neurons between the brain and the spinal cord. The human prenatal development (time from conception to birth) is about 38 weeks, and is divided into the embryonic phase that corresponds to the period of the initial 8 weeks of gestation, followed by the fetal phase. The embryonic stage is the period most vulnerable to the occurrence of congenital abnormalities. Because it is an organ with a long period of development, the CNS is subject to genetic, epigenetic and environmental changes. During the embryo implantation phase, DNA is more vulnerable to external influences such as cigarette smoke, increasing the risk of delay on fetal development, risk of sudden postnatal death, and abnormalities of the immune system. In this context, the aim of this work is to evaluate the effects of exposure to cigarette smoke on the neuroinflammation process of offspring of C57BL/6 mice exposed to cigarette smoke during gestation and challenged or not with LPS. For this, pregnant female C57BL/6 mice were exposed to cigarette smoke from vaginal plug to offspring birth. On the 3rd day of life the offspring were separated into three lines of work: 1) in vivo: the animals were challenged with 1mg/Kg LPS and after 4h they followed to euthanasia; PCR analysis of the CNS was made in this period. 2) in vitro: dissected encephalons were used for the preparation of mixed culture of glia and the culture enriched with neuron. After cell maturation, the cells were stimulated with 100 ng/mL LPS and, after 24 hours, CBA, flow cytometry, PCR, NO assay, cell death and global methylation assays were performed. 3) Experimental Autoimmune Encephalomyelitis (EAE): After weaning, the animals were kept in their housing for 8 weeks without any external stimulus, and then were immunized with MOG35-55 for the development of EAE. In the in vivo experiments we observed increased transcription of genes related to the inflammatory process, such as interleukins and chemokines. In vitro experiments showed higher growth of astrocytes (astrogliosis) and microglia cells with increased stimulatory molecules (CD80 and CD86) as well as the transcription and concentration of proinflammatory cytokines and NO production. In the enriched neuron culture, an increase in the percentage of cells in apoptosis was observed in the group exposed to cigarette smoke challenged or not with LPS. Blocking microglial activity by minocycline reversed apoptosis and decreased NO production by minimizing cell death. The EAE experiments shows that the animals exposed to cigarette smoke in the gestational period, when immunized in adulthood, present an increase in the degree of the disease as well as a greater persistence of the disease; The higher as the clinical score higher is the degree of cellular infiltration and demyelination. In this way we can conclude that the exposure to cigarette smoke during the gestational period leads to a fetal programming with increased neuroinflammatory response to a systemic stimulus and that this is able to last until the adult stage


Assuntos
Animais , Feminino , Camundongos , Poluição por Fumaça de Tabaco/efeitos adversos , Tabagismo/complicações , Encefalomielite Autoimune Experimental/complicações , Cuidado Pré-Natal/classificação , Anormalidades Congênitas , Técnicas In Vitro , Sistema Nervoso Central
20.
Belo Horizonte; s.n; 2019. 100 p. ilus.
Tese em Português | LILACS, ColecionaSUS | ID: biblio-1416635

RESUMO

A lesão inflamatória de origem periférica aumenta a sensibilidade sensória a um estímulo mecânico de leve intensidade, provocando dor, um processo conhecido como alodinia. A recente descoberta de que astrócitos e micróglia da medula espinal tornam-se reativos devido à inflamação periférica, sugere que a glia deve estar envolvida na manifestação patológica da dor. Nesta tese, observou-se que a inflamação periférica, induzida pela injeção intraplantar do adjuvante completo de Freund (CFA), causa alodinia mecânica assim como mudanças na glia. Dentre essas mudanças destacamos o aumento de marcadores específicos da glia, aumento da proliferação de astrócitos assim como alterações morfológicas na micróglia, todas elas características do fenótipo reativo da glia. Além disso, este estudo descobriu que a injeção intratecal da toxina de aranha Phα1ß, um peptídeo com ação analgésica que bloqueia canais de cálcio dependente de voltagem (VGCC), reverte todas as alterações da glia da medula espinal causadas pela inflamação periférica. Essas observações, em resumo, sugerem que a toxina Phα1ß, além de sua já reconhecida ação analgésica, também possui efeitos anti-inflamatórios sobre a plasticidade glial.


A peripheral inflammatory injury increases the mechanical sensitivity in response to light-touch, also named as allodynia. The discovery that spinal astrocytes and microglia become reactive to the peripheral inflammation suggests that the glia presumably engage with the pain pathophysiology. Here, we found that the peripheral inflammation induced by intraplantar injection of complete Freund's adjuvant (CFA) produce mechanical allodynia and robust changes in the spinal glial. Among these changes we found an increase of specific glial markers, increment of astrocytes proliferation, elevation of microglia density and morphologic changes, all of them compatible with the glia reactive phenotype. Moreover, we found that intrathecal injection with the analgesic Phα1ß spider toxin, a voltage-gated calcium channel (VGCC) blocker, reverses all the glial pathological features of the peripheral inflammation. We therefore suggest that the Phα1ß toxin, apart from its notable analgesic effects, is also a potent anti-inflammatory compound acting on glial plasticity.


Assuntos
Venenos de Aranha , Neuroglia , Manejo da Dor , Analgésicos , Dor , Hiperalgesia , Inflamação
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