Global ETD Search

11	Involvement of the Opioid System in High Alcohol Consumption : Environmental and Genetic Influences Ploj, Karolina January 2002 (has links) It is well accepted that both inherent and environmental factors influence the pathogenesis of alcohol dependence. This thesis investigates the role of the opioid system in the initiation and maintenance of high ethanol intake. Ethanol-preferring C57BL/6J mice differ from ethanol-avoiding DBA/2J mice in that they exhibit lower basal levels of the opioid peptides dynorphin B and Met-enkephalin-Arg6Phe7 (MEAP) in the nucleus accumbens, which may contribute to their divergent drug-taking behaviour. Chronic ethanol intake in C57BL/6J mice and repeated ethanol administration in Sprague-Dawley rats induce time-specific changes in dynorphin B and MEAP levels in regions, such as the nucleus accumbens and the ventral tegmental area, associated with reinforcing effects of drugs of abuse. Daily neonatal handling for 15 min (H15) and maternal separation for 360 min (MS360) during postnatal day 1-21 were used as models for environmental manipulation early in life. H15 in male rats results in decreased anxiety-like behaviour, whereas MS360 increases anxiety-like behaviour. Both H15 and MS360 induce changes in dynorphin B and MEAP levels especially in regions related to the hypothalamic-pituitary-adrenal (HPA) axis. In female rats, regions related to the HPA axis are unaffected by H15. This suggests a gender-specific involvement of opioids in the HPA axis response to stress. More rats in the MS360 group initiate ethanol consumption and have a higher ethanol intake later in life than the H15 group. The H15 group has particularly low ethanol intake and also differs with regard to neurochemistry compared to both MS360 and control groups, suggesting that H15 can induce long-term changes, protective against high ethanol intake. Specific changes in opioid receptor density are observed after chronic ethanol consumption, such as an increased κ-receptor density in several brain areas, as well as changes in δ-receptor density in the frontal cortex and the nucleus accumbens. Altogether, these results suggest that the opioid system plays an important role in the mechanisms underlying the initiation and maintenance of high ethanol intake. Pharmaceutical biosciences Opioids ethanol stress maternal separation neonatal handling Farmaceutisk biovetenskap Biopharmacy Biofarmaci
12	The Epigenome: Possible Mechanisms by which Early Life Stress May Prime Vulnerability towards Substance Use Disorder January 2015 (has links) abstract: Evidence from the 20th century demonstrated that early life stress (ELS) produces long lasting neuroendocrine and behavioral effects related to an increased vulnerability towards psychiatric illnesses such as major depressive disorder, post-traumatic stress disorder, schizophrenia, and substance use disorder. Substance use disorders (SUDs) are complex neurological and behavioral psychiatric illnesses. The development, maintenance, and relapse of SUDs involve multiple brain systems and are affected by many variables, including socio-economic and genetic factors. Pre-clinical studies demonstrate that ELS affects many of the same systems, such as the reward circuitry and executive function involved with addiction-like behaviors. Previous research has focused on cocaine, ethanol, opiates, and amphetamine, while few studies have investigated ELS and methamphetamine (METH) vulnerability. METH is a highly addictive psychostimulant that when abused, has deleterious effects on the user and society. However, a critical unanswered question remains; how do early life experiences modulate both neural systems and behavior in adulthood? The emerging field of neuroepigenetics provides a potential answer to this question. Methyl CpG binding protein 2 (MeCP2), an epigenetic tag, has emerged as one possible mediator between initial drug use and the transition to addiction. Additionally, there are various neural systems that undergo long lasting epigenetics changes after ELS, such as the response of the hypothalamo-pituitary-adrenal (HPA) axis to stressors. Despite this, little attention has been given to the interactions between ELS, epigenetics, and addiction vulnerability. The studies described herein investigated the effects of ELS on METH self-administration (SA) in adult male rats. Next, we investigated the effects of ELS and METH SA on MeCP2 expression in the nucleus accumbens and dorsal striatum. Additionally, we investigated the effects of virally-mediated knockdown of MeCP2 expression in the nucleus accumbens core on METH SA, motivation to obtain METH under conditions of increasing behavioral demand, and reinstatement of METH-seeking in rats with and without a history of ELS. The results of these studies provide insights into potential epigenetic mechanisms by which ELS can produce an increased vulnerability to addiction in adulthood. Moreover, these studies shed light on possible novel molecular targets for treating addiction in individuals with a history of ELS. / Dissertation/Thesis / Doctoral Dissertation Psychology 2015 Neurosciences Psychobiology Behavioral sciences early life stress epigenetics maternal separation mecp2 methamphetamine self administration
13	Efeitos da separação materna e do alcoolismo sobre a vesícula seminal e a galândula de coagulação de ratos UCh (bebedores voluntários de etanol a 10%) Marconsini, Fabiana [UNESP] 17 February 2009 (has links) (PDF) Made available in DSpace on 2014-06-11T19:23:01Z (GMT). No. of bitstreams: 0 Previous issue date: 2009-02-17Bitstream added on 2014-06-13T18:09:08Z : No. of bitstreams: 1 marconsini_f_me_botib.pdf: 330276 bytes, checksum: 4c8ef01035f29c6c208a8791410d1d6c (MD5) / Experiências adversas na infância estão associadas ao abuso de álcool e de outras drogas na adolescência e na vida adulta. Crianças e adolescentes maltratados manifestam distúrbios do sistema biológico de resposta ao estresse. A exposição crônica a fatores estressantes aumenta a atividade do eixo hipotálamo-hipófise-adrenal (HHA) e, concomitantemente, reduz a atividade do eixo hipotálamo-hipófise-gônada (HHG). Assim, sabe-se que estresses sociais e ambientais produzem os efeitos deletérios na função reprodutiva. No entanto, a maior parte dos trabalhos relacionando os efeitos deletérios do estresse sobre as funções reprodutivas masculinas está direcionada para a investigação de hormônios, raros são os relatos sobre aos efeitos do estresse sobre a vesícula seminal e glândula de coagulação. Pouco é conhecido sobre a complexa relação entre o estresse, o alcoolismo e as alterações dos genitais masculinos. Considerando as linhagens de ratos UCh, o conhecimento da alteração do eixo hipotálamo-hipófise-testículo e estresse durante a seleção das linhagens UCh, despertou-se interesse na investigação do estresse neonatal sobre a vesícula seminal e glândula de coagulação destas linhagens, já que as alterações morfofisiológicas sobre os sistemas genitais masculino e feminino foram confirmadas. Além do que, muitos fatores observados no alcoólico podem ser frutos do estresse vivido precocemente, os quais podem estar potencializados ou não no homem adulto. Dessa forma, o presente trabalho propõe investigar e avaliar se há interação entre a separação materna e o alcoolismo sobre a estrutura da vesícula seminal e glândula de coagulação de ratos machos UCh. Metodologia: avaliação hormonal das concentrações plasmáticas de testosterona e corticosterona, análise estrutural, morfométrica, da proliferação celular da vesícula seminal... / In childhood, traumatic experiences are associated with alcohol and other drugs dependence in adolescence and adult life. Maltreated children and teenagers display biological disturb related in response to stress. Chronic exposure to stressfull factors increases the activity of the hypothalamic-hypophyseal-adrenal (HHA) axis and also reduces the activity of the hypothalamic-hypophyseal-gonaldal (HHG) axis. Thus, it is know that social and environmental stressing factors produce impairing effects on reprodutive functions. However, the most part of studies related to the harmful effects of stress on the seminal vesicle and coagulating gland are quite rare. Little is known about the complex association among stress, alcoholism and male genital alterations. Considering the UCh rat lineage, the knowledge on its hypothalamic-hypophyseal-testicular axis alterations and the stress during UCh strain selections, there was an interest in investigating the effects of neonatal stress on the seminal vesicle and coagulating gland of this lineage, since morphophysiological alterations in both male and female genital tracts have already been reported. Futhermore, many of the factors seen in alcoholism may be a result of early stress, which can be potentialized or not in the adult man. Therefore, the present work has the purpose to investigate and evaluate whether maternal separation and the alcoholism interposes on the seminal vesicle and coagulanting gland of the UCh rats. Methods: plasmatic testosterone and corticosterone levels evaluation, morphometric analysis of the cell proliferation, p63 protein and androgen receptor immunohistochemistry. Concluded that there is an interaction between the maternal separation and ethanol consumption on the seminal vesicle and coagulating gland, acting on the HHG and HHA axis, which might it be leading to large response of the reproduction Stress (Fisiologia) Alcoolismo Coagulation gland Maternal separation
14	Neurogênese e plasticidade sináptica no Hipocampo de ratos submetidos à separação materna e enriquecimento ambiental / Neurogenesis and synaptic plasticity in the hippocampus of rats submitted to maternal separation and environmental enrichment Suélen Merlo 23 October 2014 (has links) Eventos estressantes durante a infância promovem alterações comportamentais e encefálicas persistentes, aumentando a predisposição para transtornos psiquiátricos. A separação materna tem sido utilizada como modelo de estresse pós-natal. Animais submetidos à separação materna apresentam uma resposta exacerbada do eixo hipotálamo-hipófise-adrenal ao estresse. Ao contrário, estudos sugerem que o ambiente enriquecido, por aumentar a neurogênese no giro denteado do hipocampo, pode ter efeitos benéficos sobre doenças de distúrbio comportamental. No presente projeto questionamos se o enriquecimento ambiental interfere com as alterações plásticas promovidas pela separação materna no hipocampo de ratos jovens. Utilizamos imunofluorescência, microscopia confocal, microscopia eletrônica e qRT- PCR de amostras coletadas por microdissecção a laser. A separação materna reduziu a neurogênese hipocampal, bem como a expressão de mRNA para os genes Nr3c1, codificador de receptores glicocorticóides, e Htr1a, codificador de receptores serotoninérgicos (5TH-1A). O enriquecimento ambiental reduziu a expressão de Htr1a. Além disso, aumentou a proporção de sinapses sobre espinhos dendríticos, sugerindo maior plasticidade sináptica. O enriquecimento ambiental, nos animais previamente submetidos à separação materna, aumentou a sobrevivência celular e a expressão de Nr3c1, mas não a diferenciação neuronal hipocampal. As alterações promovidas pela separação materna parecem ser persistentes, mas podem ser parcialmente revertidas pelo enriquecimento do ambiente. / Stressful events during childhood promote persistent behavioral and brain changes, increasing the predisposition to psychiatric disorders. The maternal separation has been used as postnatal stress model. Animals subjected to maternal separation exhibit an exaggerated response of the hypothalamus-pituitary-adrenal axis to stress. Instead, studies suggest that environmental enrichment, by increasing neurogenesis in the dentate gyrus of the hippocampus, has beneficial effects on behavioral disorders. In this project, we discuss whether the environmental enrichment interferes with plastic changes promoted by maternal separation in the hippocampus of young rats. We used immunofluorescence, confocal microscopy, electron microscopy and qRT-PCR of samples collected by a laser microdissection system. The maternal separation reduced hippocampal neurogenesis, as well as the mRNA expression for the genes Nr3c1, that codify glycocorticoid receptors, and Htr1a, that codify serotonin receptors (5HT-1A). Environmental enrichment reduced the expression of Htr1a. Furthermore, increases the proportion of synapses on dendritic spines, suggesting greater synaptic plasticity. The environment enrichment of the animals subjected to maternal separation increased cell survival and the expression of Nr3c1 mRNA, but not the neuronal differentiation in the hippocampus. The changes promoted by maternal separation are persistent, however may be partially reversed by the environmental enrichment. Enriquecimento ambiental Neurogênese Plasticidade sináptica Separação materna Environmental enrichment Maternal separation Neurogenesis Synaptic plasticity
15	Separação materna e enriquecimento ambiental: envolvimento de células da glia, transportadores e receptores de glutamato no hipocampo de ratos jovens / Maternal separation and environmental enrichment: involvement of glial cells, glutamate transporters and glutamate receptors in the hippocampus of young rats Priscila Mendes Comassio 09 May 2017 (has links) O desenvolvimento humano pode ser influenciado pelo ambiente. Estímulos recebidos ao longo da vida determinam seu progresso e sucesso. Estímulos positivos levam ao desenvolvimento de habilidades, melhorando funções cognitivas e da memória, enquanto estímulos negativos podem predispor a patologias como o estresse. Eventos estressantes durante a infância aumentam a predisposição para o desenvolvimento de transtornos psiquiátricos ao longo da vida. A separação materna, modelo animal de estresse pós-natal, promove diversas alterações comportamentais e encefálicas. Animais submetidos à separação materna apresentam comportamentos que mimetizam doenças psiquiátricas humanas. Por outro lado, diversos trabalhos sugerem que o enriquecimento ambiental pode ter efeito benéfico na reversão ou atenuação de modificações comportamentais e encefálicas promovidas por modelos animais de depressão, esquizofrenia, ansiedade e hiperatividade. Esses aspectos motivaram-nos a estudar se as alterações causadas por estresse podem ser revertidas ou atenuadas pelo enriquecimento do ambiente. Há evidências que sugerem um importante envolvimento de células gliais e de transportadores de glutamato presentes nessas células em modelos animais de transtornos psiquiátricos. Sendo assim, investigamos a expressão de mRNA e proteínas de dois transportadores de glutamato gliais e um neuronal, do receptor de glutamato AMPA, de marcadores gliais GFAP, S100?, glutamina sintase (GS) e do marcador de neurônios maduros NeuN na camada molecular e granular do giro denteado do hipocampo de ratos de 60 dias. Observamos que a separação materna diminui a expressão das proteínas GLAST, GLT-1, GS e NeuN, reduz a expressão dos genes Gria1 (AMPA) e S100?, e aumenta a expressão da proteína EAAC1 no giro denteado. Nossos dados sugerem uma reversão das alterações causadas pela separação materna em relação ao gene Gria1/AMPA e às proteínas GLAST, GLT-1 e EAAC1 após o enriquecimento ambiental. Portanto, o enriquecimento ambiental pode reverter as modificações causadas pela separação materna nas vias glutamatérgicas. Esses efeitos benéficos podem ser investigados para auxiliar no tratamento de transtornos psiquiátricos relacionados à separação materna. / Human development can be influenced by the environment. Stimuli received throughout life determine its progress and success. Positive stimuli lead to development of skills, improving cognitive and memory functions, while negative stimuli may predispose to pathologies such as stress. Stressful events during childhood increase the predisposition to psychiatric disorders throughout life. Maternal separation, an animal model of postnatal stress, promotes several behavioral and encephalic changes. Animals submitted to maternal separation stage behaviors associated with psychiatric diseases in humans. On the other hand, some researches have suggested that environmental enrichment may have some beneficial effects on the reversal or attenuation of behavioral and encephalic modifications promoted by animal models of depression, schizophrenia, anxiety and hyperactivity, which motivates us to study if these changes, stirred by this kind of stress, can be reversed or mitigated by environmental enrichment. There are evidences suggesting the involvement of glial cells and glutamate transporters existent in these cells in psychiatric disorders and animal models of these disorders. Therefore, we investigated mRNA and protein expression of two glial and one neuronal glutamate transporters, AMPA glutamate receptor, glial markers GFAP, S100?, glutamine synthase (GS), and the NeuN neuronal marker in the molecular and granular layer of the hippocampal gyrus in sixty-days-old rats. We observed that maternal separation decreases expression of GLAST, GLT-1, GS and NeuN proteins, reduces Gria1 (AMPA) and S100? gene expression, and increases EAAC1 protein expression in the dentate gyrus. After environmental enrichment, our data suggests a reversal of the maternal separation changes in the Gria1/AMPA gene and the GLAST, GLT-1 and EAAC1 proteins. Therefore, environmental enrichment may reverse the maternal separation changes in the glutamatergic pathways. These beneficial effects may be investigated to aid in the treatment of psychiatric disorders related to maternal separation. AMPA Astrócitos Enriquecimento ambiental Separação materna Transportadores de glutamato AMPA Astrocytes Environmental enrichment Glutamate transporters Maternal separation
16	Persisiting Sensitization of Depressive-Like Behavior and Thermogenic Response During Maternal Separation in Pre- and Post Weaning Guinea Pigs Schneider, Randi Lynn 14 July 2011 (has links) No description available. Behavioral Psychology Developmental Psychology Psychobiology depression core body temperature thermogenic response maternal separation guinea pigs
17	Effects of Early Life Neglect on Cocaine use during adolescence and subsequent effect on FGF-2 levels in adulthood Patel, Vaidehi 26 May 2020 (has links) No description available. Neurobiology Neurosciences Biology Biomedical Research Psychobiology Psychology FGF-2 maternal separation cocaine conditioned place preference neonatal maternal separation learning and memory spatial memory psychopathologies depression stress anxiety neurocognition amygdala hippocampus medial prefrontal cortex long evans
18	The potential of exercise to reverse stress induced abnormalities in the rat brain Marais, Lelanie 03 1900 (has links) Thesis (PhD (Biomedical Sciences. Medical Physiology.))--University of Stellenbosch, 2010. / ENGLISH ABSTRACT: Adverse experiences during early life causes alterations in the development of the central nervous system structures that may result in abnormal functioning of the brain. It is well known that, in humans, adverse early-life experiences such as social separation, deprivation, maternal neglect and abuse increase the risk of developing psychiatric disorders, such as depression, later in life. We used maternal separation in the rat as a model for early life stress to firstly determine how different brain systems are dysregulated by this stressful experience and additional chronic or acute stress during adulthood. Rat pups were separated from their mothers on postnatal day 2-14 for 3 hours per day while control rats were normally reared. The behavior, stress response, neurotrophin, apoptotic marker and serotonin levels in the ventral hippocampus, striatum and frontal cortex were measured during adulthood. A different group of maternally separated rats were allowed chronic voluntary exercise and similar measurements were done to determine whether exercise was able to normalize the deficits caused by early life stress. Differentially expressed cytosolic proteins of the ventral hippocampus of maternally separated rats versus normally reared rats were also identified. Protein expression levels of maternally separated rats that received chronic voluntary exercise or escitalopram treatment were subsequently determined to unravel the mechanism of therapeutic action for these two interventions. We found that maternal separation increased the baseline corticosterone response of rats and induced a blunted adrenocorticotropin hormone after acute restraint stress. Baseline neurotrophin levels were significantly decreased in the ventral hippocampus. Maternal separation followed by chronic restraint stress during adulthood resulted in increased depressive-like behavior compared to control rats. Maternal separation alone or followed by acute restraint stress during adulthood induced changes in apoptotic marker expression in the striatum and frontal cortex. In rats subjected to maternal separation and chronic restraint stress during adulthood, we found that chronic voluntary exercise decreased their depressive-like behavior and increased brain derived neurotrophin levels in the striatum. Serotonin levels were not affected by maternal separation, but chronic voluntary exercise increased serotonin in the ventral hippocampus of normally reared rats. Maternal separation induced a number of changes in the expression of cytosolic proteins and these stress-induced changes were identified in proteins relating to cytoskeletal structure, neuroplasticity, oxidative stress, energy metabolism, protein metabolism, and cell signaling. Chronic voluntary exercise was able to restore the expression levels of a number of proteins affected by maternal separation that increased the risk for neuronal death. When comparing the efficacy of exercise to that of escitalopram treatment it was evident that, in contrast to exercise, escitalopram targets a different subset of proteins affected by maternal separation, except for a few involved in energy metabolism pathways and neuroprotection. In this study we have shown that chronic voluntary exercise has therapeutic effects in maternally separated rats, decreasing depressive-like behavior, increasing neurotrophin expression and restoring cytosolic protein expression that were dysregulated by early life stress. / AFRIKAANSE OPSOMMING: Negatiewe stresvolle ervarings gedurende die vroeë stadium van ‘n mens se lewe veroorsaak veranderinge in die ontwikkeling van breinstrukture en het ‘n nadelige uitwerking op die funksionering van die brein. Dit is bekend dat stresvolle ervarings in kinders, byvoorbeeld sosiale afsondering, verwaarlosing en mishandeling, die risiko vir die ontwikkeling van psigiatriese steurings soos depressie gedurende volwassenheid kan verhoog. In hierdie studie gebruik ons moederlike skeiding van neonatale rotte as ‘n model vir vroeë lewensstres om te bepaal hoe dit verskillende sisteme in die brein negatief beinvloed, en dan ook die effek van addisionele kroniese of akute stres gedurende volwassenheid. Die neonatale rotte is weggeneem van hulle moeders af vanaf dag 2 tot 14 vir 3 ure elke dag terwyl kontrole rotte by hulle moeders gebly het. Die gedrag, stres respons, neurotrofiene, apoptotiese merkers en serotonien vlakke is gemeet in die ventrale hippokampus, frontale korteks en striatum gedurende volwassenheid. Rotte wat van hulle moeders geskei is, is dan toegelaat om vir ses weke in wiele te hardloop om te bepaal of kroniese vrywillige oefening die negatiewe effekte wat veroorsaak is deur stres kan ophef. ‘n Bepaling van sitosoliese proteien uitdrukking in die ventrale hippokampus is ook gedoen om die uitwerking van moederlike skeiding op proteienvlak vas te stel. Hierdie protein data is dan vergelyk met die van gestresde rotte wat kroniese oefening of escitalopram behandeling ontvang het om die meganisme van werking van beide behandelings te bepaal. Ons het gevind dat moederlike skeiding die rustende kortikosteroon vlakke van rotte verhoog terwyl dit adrenokortikotropien vlakke na akute stres inhibeer. Moederlike skeiding het ook die neurotrofien vlakke in die ventrale hippokampus verlaag en addisionele kroniese stres gedurende volwassenheid het ‘n verhoging in depressie-agtige gedrag veroorsaak. Moederlike skeiding alleen, sowel as gevolg deur akute stress gedurende volwassenheid het ook veranderinge in die uitdrukking van apoptotiese merkers in die striatum en frontale korteks veroorsaak. Kroniese vrywillige oefening na moederlike skeiding en addisionele stres gedurende volwassenheid kon depressie-agtige gedrag verlaag en neurotrofienvlakke in die striatum verhoog. Serotonien vlakke was nie beinvloed deur moederlike skeiding nie, maar oefening in kontrole rotte het serotonien verhoog in die ventrale hippokampus. Moederlike skeiding het heelwat veranderinge in die uitdrukking van sitosoliese proteiene van die ventrale hippokampus veroorsaak wat ingedeel kan word in die volgende funksionele kategorieë: sitoskelet, neuroplastisiteit, oksidatiewe stres, energiemetabolisme, proteinmetabolisme en seintransduksie. Oefening kon die uitdrukking van verskeie stres-geïnduseerde veranderinge in proteiene weer herstel terwyl dit wou bleik asof escitalopram se meganisme van werking op ‘n ander vlak geskied. Ons bevindinge bewys dat kroniese vrywillige oefening ‘n goeie behandeling is na vroeë lewenstres en dat dit depressiewe gedrag verminder, neurotrofien vlakke verhoog en sitosoliese proteien skeiding alleen, sowel as gevolg deur akute stress gedurende volwassenheid het ook veranderinge in die uitdrukking van apoptotiese merkers in die striatum en frontale korteks veroorsaak. Kroniese vrywillige oefening na moederlike skeiding en addisionele stres gedurende volwassenheid kon depressie-agtige gedrag verlaag en neurotrofienvlakke in die striatum verhoog. Serotonien vlakke was nie beinvloed deur moederlike skeiding nie, maar oefening in kontrole rotte het serotonien verhoog in die ventrale hippokampus. Moederlike skeiding het heelwat veranderinge in die uitdrukking van sitosoliese proteiene van die ventrale hippokampus veroorsaak wat ingedeel kan word in die volgende funksionele kategorieë: sitoskelet, neuroplastisiteit, oksidatiewe stres, energiemetabolisme, proteinmetabolisme en seintransduksie. Oefening kon die uitdrukking van verskeie stres-geïnduseerde veranderinge in proteiene weer herstel terwyl dit wou bleik asof escitalopram se meganisme van werking op ‘n ander vlak geskied. Ons bevindinge bewys dat kroniese vrywillige oefening ‘n goeie behandeling is na vroeë lewenstres en dat dit depressiewe gedrag verminder, neurotrofien vlakke verhoog en sitosoliese proteien vlakke kan herstel. Maternal separation Exercise therapy Rat brain Depression Dissertations -- Medical physiology Theses -- Medical physiology Stress -- Effect of Central nervous system Developmental psychology
19	Analýza markerů oxidativního stresu v mozku potkana: vliv maternální separace / Analysis of oxidative stress markers in rat brain: the effect of maternal separation Pallag, Gergely January 2019 (has links) Adverse events that cause stress during the early stages of life may alter the normal development of the brain and neuroendocrine system and increase the vulnerability of the individual to various disorders. Chronic stress and subsequent releasing of stress mediators can lead to oxidative stress and cell damage. The first aim of this work was to determine selected oxidative stress markers in the cerebral cortex, hippocampus, and cerebellum after the exposure of rats to early life stress. To model the stressful situation, we used maternal separation of the offspring for three hours a day during the first three weeks of life. We choose reduced glutathione, protein carbonyls, lipid peroxides and hydroperoxides as typical markers. These markers were determined in the brains of rats aged 22 days. Any significant changes were found in the levels of the studied markers after maternal separation. Damage to brain cells may also be reflected in behavior. Studies of numerous neuropsychiatric and neurodegenerative diseases have indicated that oxidative stress is a promising candidate for inducing changes at the cellular level. The second aim of this work was to monitor the behavior of rats by the light/dark box test after maternal separation along with administration of N-acetylcysteine (NAC), a drug with...
20	Early Environment and Adolescent Ethanol Consumption : Effects on Endogenous Opioids and Behaviour in Rats Daoura, Loudin January 2013 (has links) Excessive and compulsive ethanol drinking is one of the most serious public health issues. Therefore, it is vital to increase the knowledge about risks and protection for alcohol use disorders (AUD) to optimize prevention and treatment strategies. Ethanol consumption commonly initiates during adolescence when extensive neuronal maturation and development also occurs. Early exposure to ethanol is a risk factor for AUD, but the effects of adolescent drinking and the basis for the individual susceptibility to AUD are not fully understood. The interactions between genotype and environmental factors determine the individual risk for AUD and this thesis aimed to examine the environmental impact. The specific aims were to investigate 1) how early-life conditions affect adolescent voluntary ethanol drinking, behavioural profiles, endogenous opioids and response to treatment with an opioid antagonist (naltrexone), and 2) whether alterations detected in the offspring may be mediated by variations in maternal behaviour. A rodent maternal separation (MS) model was used to mimic a protective and risk-inducing early-life environment, respectively, with the use of 15 min (MS15) or 360 min (MS360) of daily MS. The main findings were 1) the MS360, but not the MS15 rats, responded to naltrexone following adolescent ethanol drinking; all adolescent rats had a high voluntary ethanol intake independent of early environmental conditions whereas in the adult groups the MS360, but not the MS15 rats, increased their ethanol intake and preference over time; adolescent ethanol exposure resulted in higher dynorphin levels in hippocampus and higher Met-enkephalin-Arg6Phe7 in the amygdala, independently of rearing conditions, 2) behavioural profiling using the multivariate concentric square field™ test showed: the young MS360 rats had increased risk assessment and risk taking behaviour compared to the young MS15 rats; the young MS15 rats increased, whereas the young MS360 rats decreased, their risk assessment and risk taking behaviour over time; differences in pup-retrieval strategies where the MS360 dams retrieved some pups into a safe area but as compared to MS15 rats they left more pups in a risk area; increased risk assessment behaviour in the MS360 dams immediately after weaning. Taken together, early-life environmental conditions alter adult but not adolescent drinking, the response to naltrexone, and behaviour in dams and offspring. Adolescent rats consumed more ethanol independent of rearing conditions and displayed increased opioid levels in brain areas related to cognition and addiction. Alcohol intermittent ethanol access maternal separation maternal behavior ultrasonic vocalization adolescent neonatal handling

Search results