Global ETD Search

81	Estudo translacional sobre a qualidade do cuidado materno em resposta ao estresse neonatal, sua associação com ansiedade na vida adulta e investigação de potenciais mecanismos envolvidos Dalle Molle, Roberta January 2011 (has links) Introdução: Em humanos, sugere-se que um trauma precoce está relacionado com o desenvolvimento de transtornos de ansiedade na vida adulta. Essa relação poderia ser mediada pela resposta ao estresse, fator neurotrófico derivado do encéfalo (BDNF) e/ou óxido nítrico sintase neuronal (nNOS). O objetivo deste trabalho foi propor um modelo animal para o desenvolvimento de ansiedade, utilizando, como intervenção, um ambiente neonatal hostil que afeta o cuidado materno, além de verificar potenciais mecanismos relacionados ao desenvolvimento de ansiedade. Também objetivou-se investigar associações similares em humanos. Métodos: Ao segundo dia de vida, ninhadas de ratos Wistar e suas genitoras foram divididas em dois grupos: grupo intervenção, com redução do material disponível para a confecção do ninho, ou grupo controle. O comportamento materno foi observado do dia 1 ao dia 9 de vida. Após o desmame, o peso corporal e o consumo de ração padrão foram avaliados uma vez por semana. Na vida adulta, os ratos foram submetidos a testes comportamentais. Foram determinados os níveis plasmáticos de glicose e o perfil lipídico, além da quantidade de BDNF no plasma, hipocampo, amígdala e sustância cinzenta periaquedutal e de óxido nítrico no hipocampo. Um subgrupo de animais intactos foi submetido ao estresse por restrição para avaliação da curva de corticosterona. Em humanos, 129 adolescentes com sintomas ansiosos, avaliados pela escala Screen for Children and Anxiety Related Emotional Disorders (SCARED), responderam ao Parental Bonding Instrument (PBI), coletaram sangue para avaliação do BDNF e foram genotipados para o polimorfismo Val66Met do BDNF. Resultados: As genitoras do grupo intervenção apresentaram um maior contato de baixa qualidade com seus filhotes, comparadas às genitoras controles. O consumo alimentar de ração padrão foi menor no grupo intervenção. Não houve diferença entre os grupos no peso corporal, no consumo de alimento palatável, na hiperfagia de rebote, nem no teste do campo aberto. No teste do labirinto em cruz elevado, observou-se que a intervenção esteve associada a maior ansiedade, porém de forma diferenciada entre os sexos. Foram observados níveis maiores de BDNF plasmáticos no grupo intervenção e uma correlação positiva entre o contato de baixa qualidade e o BDNF periférico. Não houve diferença entre os grupos na quantidade de BDNF no hipocampo, amígdala e sustância cinzenta periaquedutal e, também, nos níveis de óxido nítrico no hipocampo. Machos do grupo intervenção levaram mais tempo para atingir o pico de corticosterona em resposta ao estresse. No estudo clínico, observaram-se correlações negativas entre o cuidado materno e sintomas ansiosos, assim como uma correlação positiva entre a superproteção materna e os níveis periféricos de BDNF apenas nos indivíduos portadores do alelo Met. Conclusão: O modelo animal proposto mostrou que o estresse precoce, capaz de alterar a relação mãe-filhote, tem impacto persistente sobre o comportamento do tipo ansioso e os níveis periféricos de BDNF. Estes achados são similares às associações descritas em humanos. A abordagem translacional da questão evidenciou que os efeitos do trauma no início da vida podem ser mediados pelo cuidado materno, sendo o aumento do BDNF periférico um marcador em potencial para esses indivíduos. / Introduction: In humans, there is the suggestion that an adverse early life environment is related to the development of anxiety disorders in adulthood. This association could potentially be mediated by stress responses, brain-derived neurotrophic factor (BDNF) and by neuronal nitric oxide synthase (nNOS). This study aimed at proposing an animal model for the development of adult anxiety-like behavior, using as intervention an adverse early life environment affecting matenal care, and verifies potencial mechanisms related to the development of anxiety-like behavior. Another aim was investigate similar associations in humans. Methodology: By the second day of life, litters of Wistar rats and their dams where divided in two groups: intervention, with limited access to nesting material, or control. Maternal behavior was observed from day 1 to day 9 of life. After weaning, animals’ weight and standard chow consumption were measured once a week. Starting on day 60 of life, rats were submitted to behavioral testing. Glucose and lipid profile were assessed. Plasma, hippocampus, amygdala and periaqueductal gray BDNF contents and hippocampus nitric oxide were also measured. A subgroup of naive animals was submitted to restraint stress for determination of corticosterone curve. In humans, 129 adolescents, screened for anxiety using the Screen for Children and Anxiety Related Emotional Disorders (SCARED) scale, responded to the Parental Bonding Instrument (PBI), collected blood for BDNF measurements and were genotyped for BDNF Val66Met polymorphism. Results: Intervention dams showed increased contact of low quality with their pups when compared to control dams. The intervention group consumed less standard chow than the control group. No differences in body weight gain, acute palatable food consumption, rebound hyperphagia and open field test were observed between groups. On plus maze test, the intervention was associated with higher anxiety-like behavior, however differently between the sexes. Higher plasma BDNF levels were found in the intervention group and low quality maternal care (pure contact) was positively correlated with adult peripheral BDNF. There were no differences in hippocampus, amygdala and periaqueductal gray BDNF contents, as hippocampus nitric oxide contents. Males of the intervention group took longer to reach the corticosterone peak. In humans, negative correlations between maternal care and anxiety symptoms were observed, as well as a positive correlation between overprotection and serum BDNF levels only among the Met carriers. Conclusion: The animal model proposed showed that an early life stress, able to alter the relationship between dam and pup, have a persistent impact on anxiety-like behavior and peripheral BDNF levels. These findings were similar to the associations described in humans. The translational approach to the question evidenced that the effects of early trauma may be mediated through maternal care, being the increased peripheral BDNF a potential relevant marker for these individuals. Comportamento materno Ansiedade Maternal behavior Anxiety Brain-derived neurotrophic factor
82	A associação entre o polimorfismo do gene do fator neurotrófico derivado do cérebro (BDNF) e seu nível sérico em pacientes com transtorno bipolar Tramontina, Juliana Fernandes January 2007 (has links) Introdução: Existem fortes evidências de um fator genético estar envolvido na etiologia do transtorno bipolar (TB), contudo a interação entre polimorfismos genéticos e alterações bioquímicas permanecem desconhecidas. O fator neurotrófico derivado do cérebro (BDNF) parece exercer um papel importante na patofisiologia do TB. Objetivos: O presente estudo tem por objetivo avaliar a associação do polimorfismo localizado no gene do fator neurotrófico derivado do cérebro (BDNF) e os níveis séricos desta substância em pacientes com transtorno bipolar. Material e Métodos: Foram selecionados 114 pacientes com TB tipo I de acordo com critério do DSMIV e 137 controles pareados por sexo, idade e anos de estudo para a análise do polimorfismo val66met do BDNF e do BDNF sérico. Suas associações foram medidas através da análise de variância (ANOVA).Resultados: Não houve diferenças significativas na freqüência dos genótipos do polimorfismo val66met do BDNF entre pacientes e controles (p>0.05; teste Qui-quadrado). Não foi encontrada associação entre o polimorfismo do gene do BDNF e o diagnósticode transtorno bipolar(eutímicos) nos níveis séricos de BDNF (p=0.34; ANOVA Fatorial) Conclusão: O polimorfismo do BDNF val66met parece não interferir no nível sérico de BDNF em pacientes bipolares em tratamento e controles sem TB, sugerindo que a variante BDNFMet não diminui a secreção constitutiva; possivelmente este polimorfismo do BDNF exerça alguma influencia nos níveis séricos do BDNF durante os episódios agudos da doença. / Introduction: There is strong evidence demonstrating that genetic inheritance is associated with higher susceptibility to bipolar disorder (BD) but the interaction between gene polymorphisms and biochemical changes remains largely unknown. The brainderived neurotrophic factor (BDNF) may play a role in the pathophysiology of BD. Objectives: The aim of the present study was to evaluate the association between BDNF polymorphism val66met and its serum levels in bipolar patients. Methods: One hundred and seven Caucasian type-I bipolar patients were recruited from the Bipolar Disorders Program and underwent Structured Clinical Interview for DSMIV- Axis I for diagnosis. The subjects were matched by age, gender and education with137 controls without BD. The association between BDNF serum levels and polymorphism was analysed by ANOVA. Results: No significant differences were found in the frequency of the BDNF val66met genotype or allele distribution between patients and controls (p>0.05; Chi-square test). We have found no significant interaction between BDNF polymorphism anddiagnostic status (bipolar disorder and controls) on serum BDNF levels (p=0.34; Factorial ANOVA) Conclusion: BDNF val66met polymorphism does not affect serum BDNF levels in a sample of mostly euthymic BD subjects currently on medication. Considering that the BDNFMet variant decreases only the activity-dependent but not the constitutive BDNF secretion, it is conceivable that BDNF polymorphism may exert some influence on serum BDNF levels during acute mood episodes. Transtorno bipolar Polimorfismo genético Fatores de crescimento neural Cérebro Bipolar disorder Brain-derived neurotrophic factor Genetic polymorphism
83	Propriedades funcionais do fator neurotrofico ciliar associado a um dominio de translocação de proteina : analise de seus efeitos sobre regioes hipotalamicas reguladoras do metabolismo energetico / Functional properties of the protein transduction domais associated ciliary neurotrophic factor : analysis of its effects on energy metabolism regulating hypothalamic regions Vieira, Andre Schwambach, 1982- 31 August 2007 (has links) Orientadores: Francesco Langone, Licio Augusto Velloso / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-09T03:39:03Z (GMT). No. of bitstreams: 1 Vieira_AndreSchwambach_M.pdf: 3969141 bytes, checksum: 53eff5b5bbec953a73e9ddc63cd3ea39 (MD5) Previous issue date: 2007 / Resumo: O Fator Neurotrófico Ciliar (CNTF) é uma neurocitocina com múltiplas atividades biológicas, sendo notável sua habilidade de proteger motoneurônios. Entretanto, a administração de CNTF leva à redução de peso corporal. Por outro lado, a administração do CNTF fusionado a um Domínio de Transdução de Proteínas (PTD), denominado TAT-CNTF, é capaz de proteger motoneurônios da medula espinhal axotomizados sem causar este efeito. O presente trabalho investigou se a administração intracerebroventricular (i.c.v.) de TAT-CNTF produz os conhecidos efeitos catabólicos do CNTF. Para isso, ratos Wistar machos, com uma cânula crônicamente implantada no ventrículo lateral, foram distribuídos em quatro grupos: TAT-CNTF (2,5µg/8µl), CNTF (2,5µg/8µl), Leptina (LEP) (5µg/8µl) e PBS, que receberam uma infusão i.c.v. a cada 12h por 4 dias. O grupo tratado com TAT-CNTF apresentou menor perda de peso quando comparado aos grupos CNTF e LEP. As infusões i.c.v. de TAT-CNTF não reduziram o peso das gorduras retroperitonial (RP), epididimal (EP) e marrom interescapular (GM). O grupo CNTF apresentou redução do peso destas gorduras. Os grupos CNTF e LEP apresentaram aumento da fragmentação do DNA nas gorduras RP e EP. Por outro lado, o grupo TAT-CNTF não apresentou aumento da fragmentação do DNA nas amostras de RP, EP e GM. Um padrão de degradação internucleossomal do DNA e a presença de células TUNEL positivas foram detectados apenas nas gorduras dos animais dos grupos CNTF e LEP. Estes grupos também apresentaram aumento da expressão da UCP1 na GM, ao passo que o grupo TAT-CNTF não apresentou tal resultado. A análise da fosforilação da STAT3 no hipotálamo após uma única infusão i.c.v. de TAT-CNTF demonstrou, após 20 minutos, um efeito menor que o observado após infusão de CNTF. Em conclusão, nossos dados sugerem que o TAT-CNTF possui ação diferente do CNTF nas áreas hipotalâmicas envolvidas no controle da ingesta e do metabolismo / Abstract: The Ciliary Neurotrophic Factor (CNTF) is a neurocitokine with multiple biological activities, being notable its ability to protect lesioned motoneurons. However, administration of CNTF leads to reduction of body mass, while administration of CNTF fusioned with a Protein Transduction Domain (PTD), named TAT-CNTF, protects lesioned spinal motoneurons with no effects on body weight. In the present work, we investigated whether intracerebroventricular (i.c.v.) administration of TAT-CNTF would produce CNTF known catabolic effects. Male Wistar rats with a canula chronically implanted in the lateral ventricle were randomly assigned to four treatment groups: TAT-CNTF (2,5µg/8µl), CNTF (2,5µg/8µl), Leptin (LEP) (5µg/8µl) and PBS, that received an i.c.v. infusion every 12h for 4 days. TAT-CNTF treated group had a reduced weight loss when compared with CNTF and LEP groups. TAT-CNTF i.c.v. infusions did not reduce the weights of retroperitoneal (RP) and epididimal (EP) white adipose tissue, as well as interescapular brown adipose tissue (BAT) while CNTF i.c.v. administration reduced the weight of all these tissues. CNTF and LEP groups showed an increase of DNA fragmentation in RP and EP. On the other hand, TAT-CNTF group had no increase in DNA fragmentation in RP, EP and GM. A DNA ladder pattern and TUNEL positive cells could only be detected in adipose tissues from CNTF and LEP groups. CNTF and LEP treated groups had an increase in the expression of UCP1 in BAT, while TAT-CNTF treatment had no effects on UCP1 expression. An acute i.c.v. administration demonstrated that after 20 minutes TAT-CNTF induced less intense STAT3 phosphorilation in the hypothalamus when compared with CNTF acute infusions. In conclusion these data suggest that TAT-CNTF has a different action on hypothalamic areas involved in the control of food intake and energy metabolism / Mestrado / Fisiologia / Mestre em Biologia Funcional e Molecular Fator neurotrofico ciliar Peso corporal Hipotálamo Gordura - Metabolismo Ciliary neurotrophic factor Body weight Hypothalamus Fat - Metabolism
84	The Effects Of Hypothalamic Brain-Derived Neurotrophic Factor On Catecholaminergic Regulation Of Cardiovascular Function. Cruickshank, Nicholas Christopher 01 January 2017 (has links) Considerable evidence supports the claim that a hyperactive sympathetic nervous system (SNS) is involved in most cases of human hypertension, and therefore a more thorough understanding of the central regulation of the SNS may help elucidate novel therapeutic options. The PVN is a key region in SNS regulation of blood pressure (BP) and heart rate (HR). Stimulation of the parvocellular PVN neurons has been shown to enhance sympathetic outflow and thereby increase BP. Brain-derived neurotrophic factor (BDNF), a modulator of neuronal activity is upregulated in the paraventricular nucleus of the hypothalamus (PVN) in response to several hypertensive stimuli such as stress and hyperosmolarity, and previous studies from our lab demonstrated that both acute injections or chronic overexpression of BDNF in the PVN elevate SNS activity and BP. However, the BDNF-mediated hypertensive mechanisms are not completely understood. PVN neurons are under tonic inhibition from NTS catecholaminergic projections under baseline condition as indicated by significant BP increase after selective lesioning of NTS NE-ergic neurons. In addition, BDNF has been shown to alter NE-ergic signaling in multiple brain regions raising the possibility that BDNF may increase SNS activity and BP by interfering with NE-ergic inhibition of PVN sympathoregulatory neurons. Therefore, we tested the hypothesis that BDNF increases SNS activity and BP in part by disabling inhibitory actions of NTS catecholaminergic projections to the PVN by altering the expression of adrenergic receptors and NET in the PVN. First, blood pressure was recorded using radiotelemetry in male Sprague-Dawley rats following bilateral microinjections of adeno-associated viral vectors expressing green fluorescent protein (GFP) or myc-tagged BDNF in the PVN and microinjections of phosphate saline buffer (PBS) or Anti-Dopaine Beta Hydroxylase (DBH)-conjugated saporin (DSAP), a catecholaminergic neuron-specific neurotoxin, into the NTS. Blood pressure was monitored both during resting conditions and during acute stress tests. A second group of rats received bilateral microinjections of adeno-associated viral vectors expressing GFP or myc-tagged BDNF in the PVN, and were sacrificed after 5 weeks. PVN and NTS samples were then selectively isolated using a brain punch tool, and expression of TH, DBH, 1a, 1b, 2a, 1, 2 receptors, and norepinephrine transporter (NET) was analyzed using quantitative RT-PCR. Our results show that BDNF overexpression in the PVN leads to increased expression of catecholamine synthesizing enzymes in the NTS. In addition, both BDNF overexpression in the PVN, and DSAP lesioning in the NTS increased MAP compared to control rats. However, combined treatment with BDNF and DSAP failed to have any additional hypertensive effects suggesting that BDNF treatment may abolish the inhibitory effect of NTS catecholaminergic projections. Lesioning the NTS catecholaminergic neurons didn’t appear to have a significant effect on mean arterial pressure response to the stress tests, although DSAP treatment appeared to decrease the initial heart rate response to acute stress, and this effect was most pronounced in GFP rats. These results indicate that BDNF overexpression in the PVN desensitizes sympathoregulatory neurons to inhibitory NTS catecholaminergic projections during baseline conditions. Blood Pressure Brain-Derived Neurotrophic Factor Catecholamines Stress Sympathetic Nervous System Pharmacology
85	THE EFFECTS OF MINDFULNESS TRAINING ON BDNF LEVELS, DEPRESSION, ANXIETY, AND STRESS LEVELS OF COLLEGE STUDENTS Unknown Date (has links) The purpose of this randomized control study was to examine the effects of the use of a mindfulness smartphone app on student self-reported levels of depression, anxiety, and stress, and serum levels of brain-derived neurotrophic factor (BDNF). The sample included college students enrolled in courses at a university in South Florida. Forty-four students were randomly allocated to either the mindfulness app group (n = 22) or the control group (n = 22). Participants in the mindfulness app group were instructed to complete a guided meditation on the app for 10 minutes per day for 5 weeks. Participants in the control group were offered the intervention after the 5-week protocol ended. A pretest-posttest design was used to investigate the effects of the mindfulness app intervention on self-reported levels of depression, anxiety, and stress, in addition to serum level BDNF. / Includes bibliography. / Dissertation (Ph.D.)--Florida Atlantic University, 2020. / FAU Electronic Theses and Dissertations Collection College students Mindfulness (Psychology) Brain-Derived Neurotrophic Factor Depression Anxiety Stress
86	Classifying the manner of death in drug/ethanol overdose in equivocal cases: a suggested future tool for medical examiners using neuroanatomical markers Soong, David 24 September 2015 (has links) The purpose of the present thesis was to propose a guideline to differentiate between an accidental or suicide manner of death when dealing with a drug/ethanol overdose in which all available medical and investigational evidence, including a psychological autopsy, is inconclusive, thereby resulting in an undetermined manner of death. An in-depth literature review was conducted in the field of neuroscience, psychiatry, and pharmacology to discover neuroanatomical markers indicative of suicidal behavior in the context of two major risk factors of suicide, stress and depression, and two hypotheses behind the cause of suicidal behavior, impulsive aggression and neuronal plasticity. The neuroanatomical markers of suicidal behavior, as indicated by the experimental evidence of various studies in suicide subjects, included serotonergic dysfunction, hypothalamic-pituitary-adrenal axis hyperactivity, brain-derived neurotrophic factor deficiency, and the associated anatomical changes in the brain. Upon consideration of the forensic applicability of analyzing these neuroanatomical markers indicative of suicidal behavior, a guideline was generated to differentiate between an accidental and suicide manner of death by showing suicide subjects had significantly decreased messenger ribonucleic acid and protein levels of presynaptic serotonin receptors along with significantly increased messenger ribonucleic acid and protein levels of postsynaptic serotonin receptors in the prefrontal cortex, significantly decreased serum brain-derived neurotrophic factor levels, and significantly decreased messenger ribonucleic acid and protein levels of brain-derived neurotrophic factor and tyrosine kinase B receptors in the prefrontal cortex and hippocampus when compared to the levels of both depressed non-suicidal individuals and healthy controls. Given the significant difference observed between suicide subjects and controls, these differences in neuroanatomical markers may play an important role in the pathophysiology of suicidal behavior and have the potential to be used in establishing the intention of an individual in an overdose death to distinguish between an accidental or suicidal manner of death. Neurosciences Brain-derived neurotrophic factor Depression Postmortem brain Serotonin Stress Suicide
87	Trafic neuronal de l’activateur tissulaire du plasminogène (tPA) / Neuronal trafficking of tissue-type plasminogen activator (tPA) Lenoir, Sophie 29 June 2018 (has links) L’activateur tissulaire du plasminogène est une sérine protéase initialement découverte dans le compartiment vasculaire et qui joue un rôle prépondérant dans le processus de fibrinolyse. De manière intéressante, le tPA est également présent dans le parenchyme cérébral, où il est notamment exprimé par les neurones. Le tPA est impliqué dans de nombreuses fonctions cérébrales dont la plasticité synaptique, les processus de mémoire et d’apprentissage ainsi que dans la survie et la mort neuronales. Le tPA est capable d’augmenter la signalisation calcique induite par une activation des récepteurs N-Méthyl-D-Aspartate (NMDAR) : un mécanisme à la base de la plasticité synaptique mais également de la mort neuronale excitotoxique. Cependant, il peut également activer les récepteurs du facteur de croissance épidermique (EGFR) pour induire un effet anti-apoptotique sur les neurones. Afin de mieux comprendre les différentes fonctions du tPA sur les neurones, nous nous sommes intéressés à la distribution et au trafic intracellulaire du tPA. Pour cela, nous avons créé un nouvel outil afin d’imager le tPA dans les neurones en temps réel: un plasmide codant pour une protéine fusion, le tPA-HaloTag®.Premièrement, nos résultats montrent que le tPA est présent dans les axones et les dendrites des neurones corticaux matures en culture et qu’il est majoritairement présent dans le compartiment post-synaptique. Cette étude a également permis de voir que le tPA est stocké et libéré par des vésicules d’exocytose VAMP2, qu’il peut être endocyté par des vésicules Rab5, recyclé par des vésicules Rab11 et dégradé par des vésicules Rab7. Deuxièmement, nous avons montré que le tPA est présent dans les mêmes vésicules synaptiques que le facteur neurotrophique issu du cerveau (BDNF) : une neurotrophine importante pour le bon fonctionnement cérébral et dont la maturation dépend de l’activité protéolytique du tPA. Ce travail fournit une meilleure compréhension du rôle et de la distribution du tPA dans les neurones et ouvre de nouvelles voies de recherche dans l’implication de du tPA et du BDNF dans la survie neuronale. / Tissue-type Plasminogen Activator (tPA) is a serine protease, firstly discovered for its fibrinolytic role in the vascular compartment. Interestingly, tPA is also present in the brain parenchyma, being notably expressed by neurons. tPA displays important roles in synaptic plasticity(Danny Baranes et al., 1998; Melchor and Strickland, 2006), learning, memory processes(R Madani et al., 1999; R Pawlak et al., 2002), neuronal survival and death. tPA is able to promote N-Methyl-D-Aspartate Receptors (NMDAR)-induced calcium influx, promoting synaptic plasticity or excitotoxic neuronal death. tPA is also able to activate Epidermal Growth Factor Receptors (EGFR), a mechanism mediating its anti-apoptotic effect. To better understand the different functions of tPA on neurons, we studied the pattern of distribution and trafficking of neuronal tPA. For that, we designed a new tool to image tPA in living neurons: a plasmid encoding for a tPA-HaloTag® fusion protein. We first found that tPA is present in both axons and dendrites of mature cultured cortical neurons and preferentially at the post-synaptic part. Our results also showed that tPA is stored and released by VAMP2 exocytotic vesicles, and can be endocytosed by Rab5 vesicles, recycled by Rab11 vesicles and degraded by Rab7 vesicles. Furthermore, tPA is localized and sorted in the same vesicles than Brain-Derived Neurotrophic Factor (BDNF), one of the most important neurotrophins, Interestingly, BDNF maturation is dependent of tPA proteolytic activity. This work provides a better understanding of the role and distribution of tPA in living neurons and opens new avenues into the involvement of tPA and BDNF in neuronal survival. TPA BDNF Trafic Tissue-type Plasminogen Activator Brain-Derived Neurotrophic Factor Neurons Vesicles Trafficking
88	THE ROLE OF ENDOPLASMIC RETICULUM STRESS IN ETHANOL-INDUCED NEURODEGENERATION Wang, Yongchao 01 January 2019 (has links) Heavy ethanol use causes neurodegeneration manifested by neuronal loss and dysfunction. It is becoming imperative to delineate the underlying mechanism to promote the treatment of ethanol-induced neurodegeneration. Endoplasmic reticulum (ER) stress is a hallmark and an underlying mechanism of many neurodegenerative diseases. This study aims to investigate the role of ER stress in ethanol-induced neurodegeneration. In experimental design, adult mice were exposed to binge ethanol drinking by daily gavage for 1, 5, or 10 days and the response of ER stress was examined. We found the induction of ER stress appeared at 5 days and remained at 10 days. Moreover, the induction of ER stress was accompanied by an increase in neurodegeneration. With cell culture, we demonstrated that ethanol exposure resulted in neuronal apoptosis and that blocking ER stress by sodium phenylbutyrate (4-PBA) abolished ethanol-induced neuronal apoptosis, suggesting that ER stress contributes to ethanol-induced neurodegeneration. Mesencephalic astrocyte-derived neurotrophic factor (MANF) responds to ER stress and has been identified as a protein upregulated in ethanol-exposed developmental mouse brains. To investigate its implication in ethanol-induced neurodegeneration, we established a central nervous system (CNS)-specific Manf knockout mouse model and examined the effects of MANF deficiency on ethanol-induced neuronal apoptosis and ER stress using a third-trimester equivalent mouse model. We found MANF deficiency worsened ethanol-induced neuronal apoptosis and ER stress and that blocking ER stress abrogated the harmful effects of MANF deficiency on ethanol-induced neuronal apoptosis. Moreover, a whole transcriptome RNA sequencing supported the involvement of MANF in ER stress modulation and revealed candidates that may mediate the ER stress-buffering capacity of MANF. Collectively, these data suggest that MANF is neuroprotective against ethanol-induced neurodegeneration via ameliorating ER stress. Because MANF is a neurotrophic factor, we also examined the effects of MANF deficiency on neurogenesis. We observed that MANF deficiency increased neurogenesis in the subgranular zone of the hippocampal dentate gyrus and subventricular zone of the lateral ventricles in the mouse brain. Mechanistically, this finding was supported by a decrease of cell cycle inhibitors (p15 and p27), an increase of G2/M marker (phospho-histone H3), and an increase of neural progenitor markers (Sox2 and NeuroD1) in the brain of conditional Manf knockout mice. Our in vitro studies demonstrated that the gain-of-function of MANF inhibited cell cycle progression, whereas the loss-of-function of MANF promoted cell cycle progression. Taken together, these data suggest that MANF may affect the process of neurogenesis through altering cell cycle progression. ER Stress Ethanol-induced Neurodegeneration Neurogenesis Molecular and Cellular Neuroscience
89	Deletion of Neurturin Impairs Development of Cholinergic Nerves and Heart Rate Control in Postnatal Mouse Hearts Downs, Anthony M., Jalloh, Hawa B., Prater, Kayla J., Fregoso, Santiago P., Bond, Cherie E., Hampton, Thomas G., Hoover, Donald B. 01 May 2016 (has links) The neurotrophic factor neurturin is required for normal cholinergic innervation of adult mouse heart and bradycardic responses to vagal stimulation. Our goals were to determine effects of neurturin deletion on development of cardiac chronotropic and dromotropic functions, vagal baroreflex response, and cholinergic nerve density in nodal regions of postnatal mice. Experiments were performed on postnatal C57BL/6 wild-type (WT) and neurturin knockout (KO) mice. Serial electrocardiograms were recorded noninvasively from conscious pups using an ECGenie apparatus. Mice were treated with atenolol to evaluate and block sympathetic effects on heart rate (HR) and phenylephrine (PE) to stimulate the baroreflex. Immunohistochemistry was used to label cholinergic nerves in paraffin sections. WT and KO mice showed similar age-dependent increases in HR and decreases in PR interval between postnatal days (P) 2.5 and 21. Treatment with atenolol reduced HR significantly in WT and KO pups at P7.5. PE caused a reflex bradycardia that was significantly smaller in KO pups. Cholinergic nerve density was significantly less in nodal regions of P7.5 KO mice. We conclude that cholinergic nerves have minimal influence on developmental changes in HR and PR, QRS, and QTc intervals in mouse pups. However, cholinergic nerves mediate reflex bradycardia by 1 week postnatally. Deletion of neurturin impairs cholinergic innervation of the heart and the vagal efferent component of the baroreflex early during postnatal development. autonomic development baroreflex cholinergic nerves heart rate neurotrophic factor Biomedical Sciences
90	A Systematic Review of Time-Restricted Eating's Effect on Gut Microbiota and How It May Contribute to Cognitive Function Lind, Susanne January 2021 (has links) Time-restricted eating is a fasting diet where the food intake is restricted to a short, typically eight-hour, window each day. It is associated with health benefits such as weight loss, improved sleep, protection against cognitive disorders, and improved cognitive function. The cognitive effects of time-restricted eating have primarily been explained by the production of ketogenesis – an alternative energy source produced when calories are restricted – and anti-inflammatory cytokines. The gut microbiota is the trillions of microorganisms inhabiting the intestinal tract and has also been associated with improved mental health through communication via the gut-brain axis. This review aims to investigate whether changes in the microbiota may mediate the effect of time-restricted eating on cognitive function. Studies investigating the effect of time-restricted eating on the microbiota were systematically reviewed. The results indicate that time-restricted eating may alter the microbiome composition and increase butyrate-producing bacteria. Butyrate is a short-chain fatty acid associated with the expression of genes involved in neural development and the reduction of neuroinflammation. Limited by the few studies reviewed, the results may indicate a possible link between time-restricted eating and cognitive function via the microbiota, although more research is needed. time-restricted eating microbiota gut-brain axis brain-derived neurotrophic factor butyrate Neurosciences Neurovetenskaper

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