Conseqüências do estresse crônico ou agudo sobre as ações vasculares do Angiotensia II e da Angiotensina 1-7 em carótidas de ratos / Consequences of acute or chronic stress on the vascular actions of angiotensin II and angiotensin 1-7 in the rat carotid artery.

Banin, Tamy Midori

17 June 2011

O estresse crônico ou agudo pode alterar diversas funções relacionadas ao sistema cardiovascular, ocasionando doenças cardíacas. O sistema renina-angiotensina (SRA), importante participante do controle dessas funções, é profundamente afetado em resposta ao estresse. A angiotensina II (Ang II) é reconhecida como hormônio multifuncional que influencia diversos processos celulares importantes para a regulação da função vascular, incluindo regulação do tônus vascular, crescimento celular, dentre outros. Outro componente do SRA é a angiotensina 1-7 (Ang 1-7), suas ações vasculares envolvem aumento na produção de prostanóides vasodilatadores, óxido nítrico e fator hiperpolarizante derivado do endotélio. O objetivo do presente trabalho foi avaliar as conseqüências do estresse, agudo ou crônico, sobre as atividades vasomotoras da Ang II e da Ang 1-7, os mecanismos envolvidos na contração e relaxamento induzidos, respectivamente, por estes peptídeos e as modificações na expressão dos receptores AT1, AT2 e Mas, em carótida de ratos. O estresse crônico levou à diminuição do ganho de peso corpóreo dos animais, promoveu remodelamento das artérias carótidas, com significativo aumento da camada média acompanhada de redução da resposta de relaxamento da Ang 1-7, embora a expressão de seus receptores, do tipo Mas, estivesse aumentada. A maior expressão de receptores de Ang II, AT1 e AT2, desencadeada pelo estresse agudo não alterou a resposta contrátil deste peptídeo. Em carótidas de animais submetidos ao estresse crônico observa-se redução do Emax da Ang II e da Ang 1-7 após incubação com indometacina, sugerindo que prostanóides estão envolvidos na resposta vascular tanto da Ang II quanto da Ang 1-7 em situações de exposição prolongada ao estresse. A maior expressão de nitrotirosina em carótidas de animais expostos tanto ao estresse agudo quanto crônico, demonstra que o óxido nítrico e estresse oxidativo parecem estar relacionados às alterações vasomotoras, em resposta aos peptídeos Ang II e Ang 1-7. Foi evidenciado que o estresse agudo eleva significativamente os níveis plasmáticos de corticosterona e a produção de espécies reativas de oxigênio (EROs). Estes dados sugerem que os estresses agudo e crônico, por imobilização, alteram a expressão de receptores do SRA e a vasoatividade de carótidas em resposta à Ang II e Ang 1-7 em função de diferentes mecanismos celulares. / The chronic or acute stress can alter various functions of the cardiovascular system, causing heart disease. The renin-angiotensin system (RAS), a major participant in control of these functions, is profoundly affected in response to stress. Angiotensin II (Ang II) is recognized as a multifunctional hormone that influences many cellular processes important for the regulation of vascular function, including regulation of vascular tone, cell growth, among others. Another component of the RAS is angiotensin 1-7 (Ang 1-7), their actions involve an increase in vascular production of prostanoid vasodilators, nitric oxide and endothelium-derived hyperpolarizing factor. The aim of this study was to evaluate the consequences of chronic or acute stress on vasomotor activity of Ang II and Ang 1-7, the mechanisms involved in contraction and relaxation induced, respectively, by these peptides and the changes in the expression of AT1, AT2 and Mas in rat carotid artery. Chronic stress has led to decreased body weight gain of animals, promoted remodeling of carotid arteries with a significant increase in the medial layer accompanied by a reduction of the relaxation response to Ang 1-7, although the expression of their receptors (Mas) was increased. The highest expression of Ang II receptors, AT1 and AT2, triggered by acute stress did not alter the contractile response of this peptide. In carotid arteries of animals subjected to chronic stress is observed reduction of Emax of Ang II and Ang 1-7 after incubation with indomethacin, suggesting that prostanoids are involved in the vascular response of both Ang II and Ang 1-7 in exposed situations prolonged stress. The greater expression of nitrotyrosine in carotids from animals exposed to both acute or chronic stress, demonstrates that nitric oxide and oxidative stress appear to be related to vasomotor changes in response to peptides Ang II and Ang 1-7. It was shown that acute stress increases plasma levels of corticosterone and the production of reactive oxygen species (ROS). These data suggest that acute and chronic stress by immobilization, alter the expression of receptors of RAS and vasomotor activity in carotid artery in response to Ang II and Ang 1-7 by different cellular mechanisms.

Acute stress

Angiotensin 1-7 and Vascular Reactivity.

Angiotensin II

Angiotensina 1-7 e Reatividade Vascular

Angiotensina II

Chronic stress

Estresse agudo

Estresse crônico

Possível envolvimento do monóxido de carbono na modulação do comportamento emocional em ratos: o papel do locus coeruleus / Involvement of carbono monoxide in the emotional behavior in rats: role of the locus coeruleus.

Cazuza, Rafael Alves

03 March 2017

O gás monóxido de carbono (CO) possui diversas funções no sistema nervoso central (SNC) funcionando como neuromodulador, como por exemplo da regulação da temperatura corporal, da nocicepção e mais recentemente, do comportamento emocional. Este neuromodulador gasoso é produzido pela ação da enzima heme oxigenase (HO), a qual é encontrada em diferentes áreas do SNC. Com destaque, esta enzima tem alta expressão no locus coeruleus (LC), o que sugere o envolvimento do CO na modulação de funções desempenhadas por esta estrutura. O LC localiza-se na ponte, sendo a maior origem da inervação noradrenérgica do SNC. Esta estrutura tem participação ativa na modulação das respostas relacionadas ao estresse, em particular, na modulação do comportamento emocional, desde que integra o Sistema de Inibição Comportamental (SIC), o qual inclui ainda o sistema septo-hipocampal e os núcleos da rafe. O SIC é responsável por comandar respostas defensivas de avaliação de risco, alerta e atenção, as quais podem ser eliciadas pela ansiedade. Dentro desta perspectiva, o presente estudo teve como objetivo avaliar se a ativação sistêmica da via HO-CO pode modular o comportamento emocional de ratos, e se há participação do LC. Assim, este trabalho avaliou se o tratamento sistêmico via intraperitoneal (i.p.) agudo (3 h antes) ou crônico (10 dias/2 vezes ao dia) com um liberador de monóxido de carbono (CORM-2), ou com indutor da enzima HO (CoPP), altera as respostas comportamentais no teste do labirinto em cruz elevado (LCE) e no teste claro-escuro (TCE) em ratos, bem como a expressão da enzima HO no LC. Em uma segunda etapa foi avaliado se a administração aguda de CORM-2 ou CoPP altera o comportamento avaliado no LCE e no TCE de ratos submetidos ao estresse crônico variado (ECV) por 10 dias. Os resultados mostraram que o CO induzido pela administração aguda ou crônica de CORM-2 ou CoPP possui efeito ansiolítico. Ainda, o tratamento com CORM-2 ou CoPP aumentou a expressão da enzima HO-1 em células localizadas no LC, sem alterar a imunorreatividade à enzima HO-2. Considerando os grupos submetidos ao estresse ECV, nem a ativação da via HO-CO ou o ECV apresentaram efeitos significativos nos comportamentos avaliados nos testes LCE e TCE. Os resultados do presente estudo sugerem que o tratamento sistêmico com drogas que modulam a liberação de CO possui claro efeito ansiolítico. Assim, é possível que o CO possa ser uma droga com potencial terapêutico para o tratamento de desordens neuropsiquiátricas. / The carbon monoxide gas (CO) has several functions in the central nervous system acting as a neuromodulator, such as in the body temperature regulation, nociception and more recently, in the emotional behavior modulation. This gas is produced by the action of the heme oxigenase enzyme (HO), which is found in different areas of the central nervous system (CNS). It is important to note that this enzyme has high expression in the locus coeruleus (LC), suggesting the involvement of CO in the modulation functions performed by this midbrain structure. LC is located in the pons, being the source of majority of the noradrenergic innervation of the CNS. This structure is intimately involved in the stress modulation responses, particularly in the emotional behavior regulation, since it integrates the Behavioral Inhibition System (BIS), which also includes septum-hippocampal system and raphe nucleus. The BIS is responsible for defensive responses like the risk assessment and alertness trigged by anxiety. Within this perspective, the present study was designed to evaluate whether the systemic HO-CO pathway can modulate emotional behavior of rats, and if the HO enzyme of the neurons located into LC is involved in this response. Thus, this study evaluated whether the acute systemic i.p. treatment (3 hours before) or chronic (10 days / 2 times a day) with a carbon monoxide releaser (CORM-2) or inducer of heme enzyme oxygenase (CoPP), is able to alter the behavioral responses in the elevated plus maze (EPM) and in the light-dark box test (LDB) in rats, and the HO enzyme expression in the LC. Furthermore, the effect of the acute administration of CORM-2 or CoPP was evaluated in the emotional behavior assessed in the EPM and LDB by rats submitted to unpredictable chronic stress (during 10 days). The results showed that the CO induced by acute or chronic administration of CORM-2 or CoPP has an anxiolytic-like effect. Furthermore, treatment with CORM-2 or CoPP promoted an increase of HO-1 enzyme expression in cells located in the LC without altering the immunoreactivity of HO-2 enzyme. Still, considering the rats subjected to stress UCS neither the activation of HO-CO pathway nor the UCS protocol altered the emotional behavior evaluated in the EPM and LDB tests. The results of this study suggest that systemic treatment with drugs that modulate the CO release has anxiolytic effect. Thus, it is possible that CO can be a potential drug therapeutic target for neuropsychiatric disorders.

Acute stress

Ansiedade

Comportamento emocional

Elevated plus maze

Heme oxygenase

HO-1

HO-2

Light-dark box test

Locus coeruleus

Monóxido de carbono

Unpredictable chronic stress

Envolvimento da via heme-oxigenase-monóxido de carbono-guanosina monofosfato cíclico na nocicepção e na antinocicepção induzida por estresse agudo em ratos / Involvement of the heme oxygenase - carbon monoxide - cyclic guanosine monophosphate pathway in the nociception and antinociception induced by acute stress in rats.

Carvalho, Priscila Gonçalves de

03 November 2009

A exposição de animais a situações ameaçadoras de natureza inata ou aprendida resulta em exibição de um repertório de comportamentos defensivos espécie-específicos, alterações autonômicas e em inibição da dor, sendo esse conjunto de reações de alta relevância para a sobrevivência de uma espécie. Considerando este contexto, um importante componente da resposta do organismo a situações de emergência é a redução da capacidade de perceber a dor. O processamento de estímulos nociceptivos pode ser modulado no prosencéfalo, na medula espinal, no tronco encefálico e no diencéfalo, por mecanismos envolvendo diferentes neurotransmissores e neuromoduladores. Nos últimos anos, evidências têm demonstrado que o monóxido de carbono (CO), produzido a partir da enzima heme-oxigenase estimula a formação de guanosina 3, 5- monofosfato cíclico (GMPc), participando como neuromodulador de vários processos fisiológicos. Dentro deste contexto, mostrou-se que a via HO-CO-GMPc está envolvida na modulação periférica e espinal da dor inflamatória, bem como na modulação do estresse, porém não há conhecimento da participação desta via na modulação de estímulo doloroso agudo, bem como da antinocicepção induzida pelo estresse. Assim, este trabalho teve como objetivo avaliar o envolvimento da via HO-CO-GMPc na nocicepção e na antinocicepção induzida pelo estresse agudo em ratos, avaliada pelo índice de analgesia no teste de retirada da cauda (IARC). Nossos resultados demonstraram que a ativação da via HO-CO-GMPc por meio da administração ICV de heme-lisinato (substrato) tem efeito antinociceptivo, sendo este efeito dependente da atividade GMPc, desde que o pré-tratamento com inibidor da guanilase ciclase solúvel (GCs), ODQ, bloqueou o aumento do IARC. Ainda, esta modulação ocorre de maneira fásica e não tônica, pois o tratamento isolado ICV com o inibidor da HO, ZnDBPG ou com o inibidor da GCs, ODQ, não alterou o IARC. A antinocicepção induzida pelo estresse agudo (restrição física por 120 min) não é dependente da via HO-CO-GMPc, desde que o tratamento com o ZnDBPG, nem com o heme-lisinato alteraram o IARC. No entanto, esta antinocicepção é dependente da atividade do GMPc, pois o pré-tratamento com ODQ bloqueou o aumento do IARC. / The exposure of animals to threatening situations of innate or learned nature results in exhibition of a repertoire of species-specific defensive behaviors, autonomic alterations and pain inhibition. This group of reactions has high relevance for the survival of species. In this context, an important component of the response of the organism in the emergency situations is the reduction of the capacity to perceive pain. The processing of nociceptive stimulus can be modulated in forebrain, in spinal, and in midbrain, for mechanisms involving different neurotransmitters and neuromodulators. Recently, evidence has demonstrated that carbon monoxide gas (CO), produced from the enzyme heme oxygenase (HO), stimulate the formation of 3\', 5\' - cyclic guanosine monophosphate (cGMP), and this molecule has participated as neuromodulator in some physiological processes. In this way, it has shown that the HO-CO-cGMP pathway is involved in the peripheral and spinal modulation of inflammatory pain, as well as in the modulation of the stress. However, the involvement of this pathway in the modulation of acute painful stimulus, as well as in the antinociception induced by stress isn´t clarified. Thus, this study evaluated the involvement of the HO-CO-cGMP pathway in nociception and in antinociception induced by acute stress in rats, by means the of analgesia index in the tail flick test (AITF). Our results demonstrated that the activation of the HO-CO-cGMP pathway by means of heme-lysinate ICV administration has antinociceptive effect. Again, the increase of the AITF was dependent of the cGMP activity, since that the pretreatment with inhibitor of soluble guanylase cyclase (sGC), ODQ, blocked the antinociceptive effect. This modulation occurs in fasic and not tonic manner, because per se ICV treatment with inhibitor of the HO, ZnDBPG or with inhibitor of the sGC, ODQ did not modify the AITF. The antinociception induced by acute stress (physical restriction during 120 min) is not dependent of the HO-CO-cGMP pathway, since that neither the treatment with the ZnDBPG, nor with the heme-lysinate had modified the AITF. However, this antinociception is dependent of the activity of the cGMP, because the pretreatment with ODQ blocked the increase of the AITF induced by acute stress.

Acute stress.

Analgesia

Analgesia

Carbon monoxide

cGMP

Estresse Agudo.

GMPc

Heme-Oxigenase

Heme-Oxygenase

Lateral cerebral ventricle

Monóxido de Carbono

Ventrículo Lateral

A novel quantification of the relationship between blood sugar and stress / Y.J. Chen

Chen, Yi-Ju

January 2008

Thesis (Ph.D. (Electronical Engineering))--North-West University, Potchefstroom Campus, 2008.

Acute stress

Blood glucose

Cardiovascular disease

Chronic stress

Cortisol

Diabetes

Energy expenditure

Epinephrine

Equivalent teaspoon sugar

Hypothalamo-pituitary-adrenocortical

Insulin

Psychological stress

Relative risk factor

Sympathetic nervous system

Salivary alpha-amylase: More than an enzyme Investigating confounders of stress-induced and basal amylase activity

Strahler, Jana

08 September 2010

Summary: Salivary alpha-amylase: More than an enzyme - Investigating confounders of stress-induced and basal amylase activity (Dipl.-Psych. Jana Strahler) The hypothalamus-pituitary-adrenal (HPA) axis and the autonomic nervous system (ANS) are two of the major systems playing a role in the adaptation of organisms to developmental changes that threaten homeostasis. The HPA system involves the secretion of glucocorticoids, including cortisol, into the circulatory system. Numerous studies have been published that introduced salivary cortisol to assess HPA axis activity and therefore strengthens its role as an easy obtainable biomarker in stress research that can be monitored easily and frequently. Recent findings suggest a possible surrogate marker of autonomic activity due to autonomic innervation of salivary glands: salivary alpha-amylase (sAA). Up to date, additional methodological research is needed for a better understanding of the advantages and disadvantages of sAA activity in comparison to already established markers of ANS activity. The aim of the present thesis is to further our knowledge of confounders of sAA activity under basal and acute stress conditions and to strengthen the validity of this enzyme as an easy obtainable alternative for ANS testing. After introducing classical and modern stress concepts and stress system physiology (chapter 2), the reader is acquainted with anatomical basics of salivary gland innervation and secretion of salivary proteins, including sAA, due to autonomic innervation (chapter 3 and 4). Afterwards, a more nuanced review of methodological considerations of sAA determination shows gaps of knowledge concerning its usefulness as a marker of ANS activity (chapter 5). Given the fact that the integration of sAA into developmental and aging research is a relative recent phenomenon, several issues have to be addressed before a final conclusion could be drawn. Therefore, we conducted a series of studies incorporating these considerations regarding behavioral correlates of inter- and intraindividual differences in sAA activity with a special emphasis on older adults. Chapter 7 deals with sAA activity under psychological stress conditions in different age groups. Since vulnerability to disease and disease prevalence patterns change with age, it is important to investigate stress reactivity of people in different age groups. We therefore investigated children between 6 and 10 years, because childhood is a sensitive period of growth and development, and thus plays an important role for later life health. Young adults were included to represent the most studied human age group as a reference. Older adults between 59 and 61 years were investigated, because at this age the course is set for the further development of a person’s health in later life, and because autonomic stress responses in older age might be important determinants of cardiovascular and inflammatory aging. Our goal is to test for associations of sAA with more established stress system markers, i.e., salivary cortisol as outcome measurement of HPA reactivity, heart rate (HR) and heart rate variability (HRV) as markers for autonomic reactivity, and to directly compare these responses between different age groups across the life span. Secretion of sAA and cortisol was repeatedly assessed in 62 children, 78 young adults, and 74 older adults after exposure to a standardized psychosocial stressor, the Trier Social Stress Test. In addition, cardiovascular activity was measured in both adult groups. Older adults showed attenuated sAA, HR, and HRV responses. Furthermore, we found higher sAA but lower cortisol at baseline as well as lower sAA and cortisol responses in children. Age by sex interactions were observed only for cortisol with higher responses in older male participants. No associations between the parameters were found. Results in children and young adults confirm previous results. Overall, findings implicate sAA as an alternative or additional autonomic stress marker throughout the life span, with marked and rapid responsiveness to stress in three relevant age groups. The impact of age and chronic stress on basal sAA activity is the center of interest in chapter 8. We therefore assessed diurnal profiles of sAA and salivary cortisol in 27 younger and 31 older competitive ballroom dancers as well as 26 younger and 33 older age- and sex-matched controls. According to the Allostatic Load concept, repeated, non-habituating responses to social-evaluative conditions, which characterize the lives of competitive ballroom dancers, should be associated with stress system dysregulations. Furthermore, we expect to see an increased sympathetic drive associated higher overall alpha-amylase activity in older adults. Analyses revealed an elevated daily overall output of sAA in older adults while there was no effect of age on mean cortisol levels. Alterations of diurnal rhythms were only seen in younger male dancers showing a flattened diurnal profile of sAA and younger dancers and female older dancers showing a blunted diurnal rhythmicity of cortisol. Furthermore, we found a negative correlation between summary indices of basal sAA and the amount of physical activity. In conclusion, higher overall output of sAA in older adults was in line with the phenomenon of a “sympathetic overdrive” with increasing age. Furthermore, a lower output of sAA in people who are more physical active was in line with the hypothesis of an exercise-induced decrease of sympathetic activity. Taken together, results of chapter 7 and 8 show a clear impact of age on sAA activity, either under acute stress or basal conditions. One problem when integrating sAA into developmental and aging research is the use of adrenergic agonists and antagonists what is very common in older adults, i.e. antihypertensive drugs (AD). As well, the previously shown sympathetic overactivity that occurs with normal aging is associated with higher blood pressure (BP). Therefore, chapter 9 deals with a possible impact of high BP and AD on diurnal sAA activity in 79 older adults (33 normotensive adults, 16 medicated vs. 45 hypertensive adults, 34 medicated). Results showed a pronounced rhythm of sAA in all groups. Diurnal profiles differed significantly between men and women with men lacking the typical decrease of sAA in the morning and showing more pronounced alterations throughout the day. An effect of AD on sAA profiles and area under the curve values indicates that subjects not using AD´s show a heightened diurnal profile and a higher total output of sAA. Descriptively, this was also true for hypertensive older adults. Hypertensive subjects and those not using AD showed the highest diurnal output of sAA and the steepest slope. In sum, our results show an impact of antihypertensive medication and a difference between normotensive and hypertensive subjects on characteristics of diurnal sAA activity. Hence, findings are of particular interest in research using sAA as a prognostic indicator of pathological states and processes. Given the fact that hypertension was also shown to be associated with substantial changes of transmitters within the suprachiasmatic nucleus (SCN) - the “biological clock” that receives photic input from retinal glands via the retinohypothalamic pathway - and an altered output from the SCN to the sympathetic nervous system, we broaden the idea of a possible effect of different lighting conditions on morning sAA profiles in chapter 10. In a counterbalanced within-subjects design six men and 16 women of different ages collected sAA morning profiles on two consecutive days with leaving their shutters closed on the one day (= dark) and open their shutters on the other day (= bright). We were able to replicate earlier findings of light-induced changes of salivary cortisol with higher responses during the bright condition. On either day, women showed larger cortisol increases than men. Despite multisynaptic autonomic connections arising from the SCN projecting to multiple organs of the body, we could not find an effect of sunlight on sAA morning profiles. Evidence for circadian clock gene expression in human oral mucosa might account for this result and indicates that peripheral oscillators may act more like integrators of multiple different time cues, e.g. light, food intake, instead of a “master” oscillator (SCN). Results of chapter 7 to 10 provide clear evidence that sAA is heightened in states of autonomic arousal, i.e. stress, aging and hypertension, and that its circadian rhythmicity seems to be regulated rather integrative than directly via efferent input from hypothalamic SCN neurons. In chapter 11 this thesis tries to approach one central question: What is the biological meaning of the findings made? According to this enzyme´s anti-bacterial and digestive action short term changes might not have a biological meaning itself but rather reflect just a small part of multiple coordinated body responses to stressful stimuli. While the sympathetic branch of the ANS mainly stimulates protein secretion, the parasympathetic branch stimulates saliva flow. Acute stress responses might therefore be interpreted as reflecting predominant sympathetic activity together with parasympathetic withdrawal. The same mechanism could also be suitable for the finding of higher diurnal levels of sAA in older adults or hypertensive subjects reflecting a higher peripheral sympathetic tone in these groups. Diurnal profiles of sAA itself may reflect circadian changes in autonomic balance. Circadian rhythms are of great advantage since they enable individuals to anticipate. This pre-adaptation enables the individual to cope with upcoming demands and challenges. Our finding of a relationship between sAA and salivary cortisol what strengthens the relevance of glucocorticoids that were previously shown to be able to phase shift circadian rhythms in cells and tissue. Within a food-related context there is evidence that decreasing levels of sAA in the morning could reflect increases of feeling hungry since sAA systematically increases during food consumption and with the subjective state of satiety. So far, much more research is needed to identify underlying physiological mechanisms of circadian sAA rhythmicity. Taking the next step, future studies will have to focus on the integration of sAA assessment into longitudinal studies and different disease states to prove its applicability as a marker of sympathetic neural functioning in the genesis and prognosis of disease.

psychoneuroendocrinology

chronic stress

acute stress

alpha-amylase

cortisol

aging

hypertension

ballroom dancing

Psychoneuroendokrinologie

chronischer Stress

akuter Stress

alpha-Amylase

Cortisol

Altern

Bluthochdruck

Turniertanzen

ddc:150

rvk:CP 3900

Auswirkungen akuten psychosozialen Stresses auf Feedback‐basiertes Lernen / Effects of acute psychosocial stress on feedback-based learning

Petzold, Antje

16 November 2010

Die Dissertation beschäftigt sich mit der Frage, ob und wie Feedback-basiertes Lernen durch Stress moduliert wird. Der Zusammenhang zwischen Stress und Kognition sowie die zugrunde liegenden biologischen Mechanismen sind Gegenstand der kognitiven Stressforschung. Während der Einfluss von Stress und Stresshormonen auf andere Lernformen bereits gut etabliert ist, gibt es bisher kaum Studien, die Feedback-basiertes Lernen unter Stress bei Menschen betrachtet haben. In der vorliegenden Arbeit werden daher die Auswirkungen akuten Stresses auf diese Lernform untersucht. Es werden gezielt Auswirkungen auf die generelle Akquisition einer Lernaufgabe mittels Feedback, auf die Nutzung sowohl positiven als auch negativen Feedbacks beim Lernen sowie auf die Fähigkeit der flexiblen Anpassung an sich änderndes Feedback betrachtet. Dafür werden in den experimentellen Untersuchungen der Arbeit Feedback-basierte Aufgaben mit einer vorangestellten Induktion akuten psychosozialen Stresses kombiniert. Die Ergebnisse der vorliegenden Arbeit deuten darauf hin, dass akuter psychosozialer Stress das generelle Erlernen Feedback-basierter Aufgaben nicht beeinflusst, jedoch die Nutzung positiven und negativen Feedbacks beim Lernen verändert. Im Speziellen wird negatives Feedback nach einer Stressinduktion weniger genutzt, während über eine möglicherweise stärkere Nutzung positiven Feedbacks aufgrund der vorliegenden Ergebnisse keine fundierte Aussage getroffen werden kann. Zudem finden sich in der vorliegenden Arbeit Hinweise auf einen positiven Zusammenhang zwischen Cortisolwerten und der Flexibilität in Feedback-basierten Lernaufgaben. Als Erklärungsansätze werden veränderte Aufmerksamkeitsprozesse nach einer Stressinduktion sowie andere psychologische Faktoren wie eine kognitive Nachbeschäftigung mit dem Stresstest und eine geringere Involviertheit in die kognitiven Aufgaben diskutiert. Die berichteten Korrelationen zwischen Cortisolwerten und kognitiven Parametern werden dahingehend interpretiert, dass Cortisol ein vermittelnder Faktor des Stresseffekts auf die Nutzung und neuronale Verarbeitung negativen Feedbacks sein könnte. Zur Integration der Ergebnisse aller Studien wird eine Modulation der dopaminergen Signalübertragung durch Stress und erhöhte Cortisolspiegel und damit verbundene Auswirkung auf Feedback-basiertes Lernen vorgeschlagen. Die vorliegende Arbeit gibt zum ersten Mal Hinweise auf eine veränderte Nutzung und Verarbeitung von Feedback nach psychosozialem Stress und bestätigt frühere Befunde eines Zusammenhangs zwischen Cortisol und der Flexibilität beim Lernen.

Stress

psychosozialer Stress

akuter Stress

Cortisol

Lernen

Kognition

Belohnungslernen

stress

psychosocial stress

acute stress

cortisol

learning

reward-based learning

cognition

ddc:612

rvk:CZ 1300

A novel quantification of the relationship between blood sugar and stress / Y.J. Chen

Chen, Yi-Ju

January 2008

The rapid growth of biotechnology has promoted industries to harness the market in the field of human energy systems. A growing literature of research has linked human energy systems to weight loss, major diseases or illnesses. In our modern society, the general public is exposed to everyday stress, which often results in the development of chronic stress. Therefore, stress becomes an important area of medicine. It has been postulated that suppressing these physiological responses may help in disease prevention. Consequently, there is an urge for defining a model integrating stress with the human energy model. Over the past decades, a large amount of research has been put forward in defining the physiological responses or changes when an individual experiences psychological or environmental changes such as interpersonal dysfunction, traumatic experiences and diseases. Interestingly, it reveals that blood glucose fluctuation tends to be the end product of most psychological or physiological stressors. The blood glucose system is one of the major subsystems of the complete metabolic fuel system in humans. In this study, an empirical model and procedure for the derivation of the model due to various psychological influences on the human energy system are presented. This study can be divided into two main sections. An overview of a previously developed unit (ets: equivalent teaspoon sugar) for blood glucose quantification is given in the first section. Stress quantification methods are derived in the second section and a link between these methods and ets is drawn. A verification study of the derived model is also presented in the second section. Stress can be divided into physiological stress and psychological stress. Between the two types of stress, a generalised model based on studies of physiological stress has been drawn and accepted by the public. However, the generalised model does not account for psychological stress. Evidence shows that depending on the specific nature of a stressful circumstance, it can cause different activations of central circuits leading to the release of different neurotransmitters. However, these neurotransmitters have a common effect of increasing blood glucose concentrations. A substantial amount of literature shows that, when stress involves mental effort, epinephrine (EPI) is the main endocrine response. However, stress that does not require mental effort mainly induces cortisol release. The response models for different types of stress were derived using these relations. Furthermore, it is known that prolonged stress may lead to the development of disease. Several studies have used this observation and associated chronic stress with the relative risk factor of cardiovascular disease (CVD). Previously, different quartiles of risk factors for CVD have been related to blood glucose energy and ets expenditure. This link was further utilised to quantify chronic stress in this study. Increases in either of the two endocrine concentrations have been shown to raise the blood glucose level. In order to demonstrate the benefits of applying the ets concept, the cortisol and epinephrine responses were further quantified using the new glucose quantification method, the equivalent teaspoon sugar (ets) concept. The models derived in this study were verified against measured data. The models reveal a strong agreement with the measured data and therefore support the feasibility of these quantification methods. In conclusion, a link does exist between blood glucose energy and stress, and the highly accurate models derived for this association may serve as an adjunct tool for glycaemic control and stress management. / Thesis (Ph.D. (Electronical Engineering))--North-West University, Potchefstroom Campus, 2008.

Acute stress

Blood glucose

Cardiovascular disease

Chronic stress

Cortisol

Diabetes

Energy expenditure

Epinephrine

Equivalent teaspoon sugar

Hypothalamo-pituitary-adrenocortical

Insulin

Psychological stress

Relative risk factor

Sympathetic nervous system

A novel quantification of the relationship between blood sugar and stress / Y.J. Chen

Chen, Yi-Ju

January 2008

The rapid growth of biotechnology has promoted industries to harness the market in the field of human energy systems. A growing literature of research has linked human energy systems to weight loss, major diseases or illnesses. In our modern society, the general public is exposed to everyday stress, which often results in the development of chronic stress. Therefore, stress becomes an important area of medicine. It has been postulated that suppressing these physiological responses may help in disease prevention. Consequently, there is an urge for defining a model integrating stress with the human energy model. Over the past decades, a large amount of research has been put forward in defining the physiological responses or changes when an individual experiences psychological or environmental changes such as interpersonal dysfunction, traumatic experiences and diseases. Interestingly, it reveals that blood glucose fluctuation tends to be the end product of most psychological or physiological stressors. The blood glucose system is one of the major subsystems of the complete metabolic fuel system in humans. In this study, an empirical model and procedure for the derivation of the model due to various psychological influences on the human energy system are presented. This study can be divided into two main sections. An overview of a previously developed unit (ets: equivalent teaspoon sugar) for blood glucose quantification is given in the first section. Stress quantification methods are derived in the second section and a link between these methods and ets is drawn. A verification study of the derived model is also presented in the second section. Stress can be divided into physiological stress and psychological stress. Between the two types of stress, a generalised model based on studies of physiological stress has been drawn and accepted by the public. However, the generalised model does not account for psychological stress. Evidence shows that depending on the specific nature of a stressful circumstance, it can cause different activations of central circuits leading to the release of different neurotransmitters. However, these neurotransmitters have a common effect of increasing blood glucose concentrations. A substantial amount of literature shows that, when stress involves mental effort, epinephrine (EPI) is the main endocrine response. However, stress that does not require mental effort mainly induces cortisol release. The response models for different types of stress were derived using these relations. Furthermore, it is known that prolonged stress may lead to the development of disease. Several studies have used this observation and associated chronic stress with the relative risk factor of cardiovascular disease (CVD). Previously, different quartiles of risk factors for CVD have been related to blood glucose energy and ets expenditure. This link was further utilised to quantify chronic stress in this study. Increases in either of the two endocrine concentrations have been shown to raise the blood glucose level. In order to demonstrate the benefits of applying the ets concept, the cortisol and epinephrine responses were further quantified using the new glucose quantification method, the equivalent teaspoon sugar (ets) concept. The models derived in this study were verified against measured data. The models reveal a strong agreement with the measured data and therefore support the feasibility of these quantification methods. In conclusion, a link does exist between blood glucose energy and stress, and the highly accurate models derived for this association may serve as an adjunct tool for glycaemic control and stress management. / Thesis (Ph.D. (Electronical Engineering))--North-West University, Potchefstroom Campus, 2008.

Acute stress

Blood glucose

Cardiovascular disease

Chronic stress

Cortisol

Diabetes

Energy expenditure

Epinephrine

Equivalent teaspoon sugar

Hypothalamo-pituitary-adrenocortical

Insulin

Psychological stress

Relative risk factor

Sympathetic nervous system

Possível envolvimento do monóxido de carbono na modulação do comportamento emocional em ratos: o papel do locus coeruleus / Involvement of carbono monoxide in the emotional behavior in rats: role of the locus coeruleus.

Rafael Alves Cazuza

03 March 2017

O gás monóxido de carbono (CO) possui diversas funções no sistema nervoso central (SNC) funcionando como neuromodulador, como por exemplo da regulação da temperatura corporal, da nocicepção e mais recentemente, do comportamento emocional. Este neuromodulador gasoso é produzido pela ação da enzima heme oxigenase (HO), a qual é encontrada em diferentes áreas do SNC. Com destaque, esta enzima tem alta expressão no locus coeruleus (LC), o que sugere o envolvimento do CO na modulação de funções desempenhadas por esta estrutura. O LC localiza-se na ponte, sendo a maior origem da inervação noradrenérgica do SNC. Esta estrutura tem participação ativa na modulação das respostas relacionadas ao estresse, em particular, na modulação do comportamento emocional, desde que integra o Sistema de Inibição Comportamental (SIC), o qual inclui ainda o sistema septo-hipocampal e os núcleos da rafe. O SIC é responsável por comandar respostas defensivas de avaliação de risco, alerta e atenção, as quais podem ser eliciadas pela ansiedade. Dentro desta perspectiva, o presente estudo teve como objetivo avaliar se a ativação sistêmica da via HO-CO pode modular o comportamento emocional de ratos, e se há participação do LC. Assim, este trabalho avaliou se o tratamento sistêmico via intraperitoneal (i.p.) agudo (3 h antes) ou crônico (10 dias/2 vezes ao dia) com um liberador de monóxido de carbono (CORM-2), ou com indutor da enzima HO (CoPP), altera as respostas comportamentais no teste do labirinto em cruz elevado (LCE) e no teste claro-escuro (TCE) em ratos, bem como a expressão da enzima HO no LC. Em uma segunda etapa foi avaliado se a administração aguda de CORM-2 ou CoPP altera o comportamento avaliado no LCE e no TCE de ratos submetidos ao estresse crônico variado (ECV) por 10 dias. Os resultados mostraram que o CO induzido pela administração aguda ou crônica de CORM-2 ou CoPP possui efeito ansiolítico. Ainda, o tratamento com CORM-2 ou CoPP aumentou a expressão da enzima HO-1 em células localizadas no LC, sem alterar a imunorreatividade à enzima HO-2. Considerando os grupos submetidos ao estresse ECV, nem a ativação da via HO-CO ou o ECV apresentaram efeitos significativos nos comportamentos avaliados nos testes LCE e TCE. Os resultados do presente estudo sugerem que o tratamento sistêmico com drogas que modulam a liberação de CO possui claro efeito ansiolítico. Assim, é possível que o CO possa ser uma droga com potencial terapêutico para o tratamento de desordens neuropsiquiátricas. / The carbon monoxide gas (CO) has several functions in the central nervous system acting as a neuromodulator, such as in the body temperature regulation, nociception and more recently, in the emotional behavior modulation. This gas is produced by the action of the heme oxigenase enzyme (HO), which is found in different areas of the central nervous system (CNS). It is important to note that this enzyme has high expression in the locus coeruleus (LC), suggesting the involvement of CO in the modulation functions performed by this midbrain structure. LC is located in the pons, being the source of majority of the noradrenergic innervation of the CNS. This structure is intimately involved in the stress modulation responses, particularly in the emotional behavior regulation, since it integrates the Behavioral Inhibition System (BIS), which also includes septum-hippocampal system and raphe nucleus. The BIS is responsible for defensive responses like the risk assessment and alertness trigged by anxiety. Within this perspective, the present study was designed to evaluate whether the systemic HO-CO pathway can modulate emotional behavior of rats, and if the HO enzyme of the neurons located into LC is involved in this response. Thus, this study evaluated whether the acute systemic i.p. treatment (3 hours before) or chronic (10 days / 2 times a day) with a carbon monoxide releaser (CORM-2) or inducer of heme enzyme oxygenase (CoPP), is able to alter the behavioral responses in the elevated plus maze (EPM) and in the light-dark box test (LDB) in rats, and the HO enzyme expression in the LC. Furthermore, the effect of the acute administration of CORM-2 or CoPP was evaluated in the emotional behavior assessed in the EPM and LDB by rats submitted to unpredictable chronic stress (during 10 days). The results showed that the CO induced by acute or chronic administration of CORM-2 or CoPP has an anxiolytic-like effect. Furthermore, treatment with CORM-2 or CoPP promoted an increase of HO-1 enzyme expression in cells located in the LC without altering the immunoreactivity of HO-2 enzyme. Still, considering the rats subjected to stress UCS neither the activation of HO-CO pathway nor the UCS protocol altered the emotional behavior evaluated in the EPM and LDB tests. The results of this study suggest that systemic treatment with drugs that modulate the CO release has anxiolytic effect. Thus, it is possible that CO can be a potential drug therapeutic target for neuropsychiatric disorders.

Ansiedade

Comportamento emocional

Heme oxygenase

Monóxido de carbono

Acute stress

Elevated plus maze

HO-1

HO-2

Light-dark box test

Locus coeruleus

Unpredictable chronic stress

Envolvimento da via heme-oxigenase-monóxido de carbono-guanosina monofosfato cíclico na nocicepção e na antinocicepção induzida por estresse agudo em ratos / Involvement of the heme oxygenase - carbon monoxide - cyclic guanosine monophosphate pathway in the nociception and antinociception induced by acute stress in rats.

Priscila Gonçalves de Carvalho

03 November 2009

A exposição de animais a situações ameaçadoras de natureza inata ou aprendida resulta em exibição de um repertório de comportamentos defensivos espécie-específicos, alterações autonômicas e em inibição da dor, sendo esse conjunto de reações de alta relevância para a sobrevivência de uma espécie. Considerando este contexto, um importante componente da resposta do organismo a situações de emergência é a redução da capacidade de perceber a dor. O processamento de estímulos nociceptivos pode ser modulado no prosencéfalo, na medula espinal, no tronco encefálico e no diencéfalo, por mecanismos envolvendo diferentes neurotransmissores e neuromoduladores. Nos últimos anos, evidências têm demonstrado que o monóxido de carbono (CO), produzido a partir da enzima heme-oxigenase estimula a formação de guanosina 3, 5- monofosfato cíclico (GMPc), participando como neuromodulador de vários processos fisiológicos. Dentro deste contexto, mostrou-se que a via HO-CO-GMPc está envolvida na modulação periférica e espinal da dor inflamatória, bem como na modulação do estresse, porém não há conhecimento da participação desta via na modulação de estímulo doloroso agudo, bem como da antinocicepção induzida pelo estresse. Assim, este trabalho teve como objetivo avaliar o envolvimento da via HO-CO-GMPc na nocicepção e na antinocicepção induzida pelo estresse agudo em ratos, avaliada pelo índice de analgesia no teste de retirada da cauda (IARC). Nossos resultados demonstraram que a ativação da via HO-CO-GMPc por meio da administração ICV de heme-lisinato (substrato) tem efeito antinociceptivo, sendo este efeito dependente da atividade GMPc, desde que o pré-tratamento com inibidor da guanilase ciclase solúvel (GCs), ODQ, bloqueou o aumento do IARC. Ainda, esta modulação ocorre de maneira fásica e não tônica, pois o tratamento isolado ICV com o inibidor da HO, ZnDBPG ou com o inibidor da GCs, ODQ, não alterou o IARC. A antinocicepção induzida pelo estresse agudo (restrição física por 120 min) não é dependente da via HO-CO-GMPc, desde que o tratamento com o ZnDBPG, nem com o heme-lisinato alteraram o IARC. No entanto, esta antinocicepção é dependente da atividade do GMPc, pois o pré-tratamento com ODQ bloqueou o aumento do IARC. / The exposure of animals to threatening situations of innate or learned nature results in exhibition of a repertoire of species-specific defensive behaviors, autonomic alterations and pain inhibition. This group of reactions has high relevance for the survival of species. In this context, an important component of the response of the organism in the emergency situations is the reduction of the capacity to perceive pain. The processing of nociceptive stimulus can be modulated in forebrain, in spinal, and in midbrain, for mechanisms involving different neurotransmitters and neuromodulators. Recently, evidence has demonstrated that carbon monoxide gas (CO), produced from the enzyme heme oxygenase (HO), stimulate the formation of 3\', 5\' - cyclic guanosine monophosphate (cGMP), and this molecule has participated as neuromodulator in some physiological processes. In this way, it has shown that the HO-CO-cGMP pathway is involved in the peripheral and spinal modulation of inflammatory pain, as well as in the modulation of the stress. However, the involvement of this pathway in the modulation of acute painful stimulus, as well as in the antinociception induced by stress isn´t clarified. Thus, this study evaluated the involvement of the HO-CO-cGMP pathway in nociception and in antinociception induced by acute stress in rats, by means the of analgesia index in the tail flick test (AITF). Our results demonstrated that the activation of the HO-CO-cGMP pathway by means of heme-lysinate ICV administration has antinociceptive effect. Again, the increase of the AITF was dependent of the cGMP activity, since that the pretreatment with inhibitor of soluble guanylase cyclase (sGC), ODQ, blocked the antinociceptive effect. This modulation occurs in fasic and not tonic manner, because per se ICV treatment with inhibitor of the HO, ZnDBPG or with inhibitor of the sGC, ODQ did not modify the AITF. The antinociception induced by acute stress (physical restriction during 120 min) is not dependent of the HO-CO-cGMP pathway, since that neither the treatment with the ZnDBPG, nor with the heme-lysinate had modified the AITF. However, this antinociception is dependent of the activity of the cGMP, because the pretreatment with ODQ blocked the increase of the AITF induced by acute stress.

Analgesia

Estresse Agudo.

GMPc

Heme-Oxigenase

Monóxido de Carbono

Ventrículo Lateral

Acute stress.

Analgesia

Carbon monoxide

cGMP

Heme-Oxygenase

Lateral cerebral ventricle