An Atlas of catfish brain - Steindachneridion parahybae (Teleostei: Siluriformes): a detailed cytoarchitectonic study of the different brain areas and nuclei as a basis for further morphological and functional studies / Um Atlas do encéfalo do catfish - Steindachneridion parahybae (Teleostei: Siluriformes): um estudo citoarquitetônico detalhado das diferentes áreas e núcleos do cérebro, como base para futuros estudos morfológicos e funcionais

Andreone Teles Medrado

14 August 2015

In the present Master\'s Dissertation, a detailed cytoarchtectonic study of the brain of the juvenile catfish - Steindachneridion parahybae, has been performed. The animals used for this Atlas were juvenile specimens of one hundred days post-fertilization. The coronal (transverse) sections (5µm-thick) were obtained by using a rotary microtome, stained with cresyl-violet and examined under a photomicroscopy with the help of a digital system of analysis. Some criteria have been used to classify the different cell masses of the catfish brain: (i) characteristic size, shape and intensity of the staining from the perykarya; (ii) packing density and distribution pattern of the cell bodies; (iii) neuropil surrounding the cell groups and (iv) consistency of cell groups in both hemispheres and different brains of catfish. Thus, around one hundred and thirty nuclei have been described in the catfish brain, which are distributed in four main region that are from rostral to caudal: telencephalon, diencephalon, mesencephalon and rhombencephalon. Although we have observed important similarities between the brain of catfish and other teleosts, we have also noticed some differences in the characteristics and placement of several nuclei in relation to other teleosts, or even when compared to the brain of species of the same Order, the Siluriformes. Some of these differences could be related with the age of the animals studied here, but probably represent species-specific differences because the brain of adult catfish specimens has a great similarity in cytoarchitecture and overall organization compared to younger animals. The main outcome of this study has been the availability of a complete Atlas of the brain of catfish, which has been used to localize precisely the distribution of cells and fibers of the Gonadotropin-releasing hormone in the brain. This Atlas will also represent a valuable tool for future endocrine analyses, allowing the precise mapping of the different neurohormones in the brain of catfish, as well as for the study of neural connections among different brain areas / Esta Dissertação de Mestrado, apresenta-se estruturalmente como um Atlas, em que é apresentado um detalhado estudo citoarquitetônico do encéfalo de catfish- Steindachneridion parahybae. Para a realização deste, foram utilizados 7 juvenis de 100 dias após a eclosão, analisados por técnicas rotineiras de histologia, cujas secções coronais(transversais) - 5&um;m de espessura-, foram obtidas utilizando-se de um micrótomo rotativo, coradas com violeta de cresil e examinadas a partir de sistema digital de análise. Alguns critérios foram utilizados para classificar as diferentes massas de células do cérebro catfish, tais como: (i) o tamanho característico, forma e intensidade da coloração do pericário; (ii) padrão de densidade de agrupamento e distribuição dos corpos celulares; (iii) a presença de neurópilos ao redor dos desses agrupamentos celulares e (iv) a consistência/coerência destes agrupamentos em ambos os hemisférios dos diferentes encéfalos, então analisados. Dessa forma, são descritos aproximadamente130 massas celulares para o encéfalo de S. parahybae, as quais estão distribuídas em quatro principais regiões que, da parte rostral para caudal, são: telencéfalo, diencéfalo, mesencéfalo e rombencéfalo. Embora são observadas semelhanças entre o cérebro de S. parahybae e de outros teleósteos, nota-se, também, certas diferenças quanto às características e/ou localização das massas celulares em relação ao encéfalo de outros teleósteos, ou mesmo quando comparado com o cérebro de espécies da mesma ordem, Siluriformes. Algumas destas diferenças pode estar relacionada com a idade dos animais estudados, no entanto,também podem representar diferenças espécie-específicas, uma vez que o encéfalo adultos de S. parahybae apresentam grande similaridade citoarquitetônica, além da organização geral do encéfalo, previamente observadas em animais acima dos 100 dias após a eclosão. Portanto, como resultado deste estudo tem-se a disponibilidade de um Atlas completo do encéfalo de S. parahybae, o qual representa uma ferramenta valiosa para o estudo das conexões neurais entre diferentes áreas do encéfalo, bem como para futuras análises endócrinas, permitindo o mapeamento preciso de neuro-hormônios nesta espécie, como demonstrado ao longo deste estudo, para o hormônio liberador de gonadotropinas

Cérebro

Fisiologia

Histologia

Imuno-histoquímica

Neuroanatomia

Neuroendocrinologia

Neurônios

Sistema nervoso central

Steindachneridion parahybae

Brain

Central nervous system

Histology

Immunohistochemistry

Neuroanatomy

Neuroendocrinology

Neurons

Physiology

Steindachneridion parahybae

Troubles hormonaux et leur implication dans la progression de la maladie de Huntington

Saleh, Nadine

29 September 2009

Les processus physiopathologiques qui mènent à la dégénérescence neuronale ainsi qu’aux symptômes de la maladie de Huntington (MH) demeurent non identifiés et les hypothèses actuelles ne permettent pas d’expliquer l’hétérogénéité intra et interindividuelle de l’évolution de ces symptômes. Ainsi, la progression de la maladie reste donc difficile voire impossible à prédire. Dans ce contexte, il est important d’explorer d’autres facteurs qui semblent être impliqués dans le processus pathogène de la maladie mais qui pourraient également influencer l’évolution de ces symptômes et ainsi prédire la progression de la maladie. Plusieurs éléments de preuve renforcent l’hypothèse de l’existence de troubles hormonaux dans la MH tels que l’atteinte de l’hypothalamus et la perte de poids. Cependant, en raison du peu d’études, de leur qualité et de la discordance de leurs résultats, l’existence des modifications hormonales dans la maladie de Huntington et plus particulièrement leur lien avec la progression de la maladie reste controversée. L’objectif de ce travail est de décrire le profil hormonal de l’axe hypothalamohypophysaire dans la MH afin de mieux comprendre le rôle de ces hormones sur la progression et éventuellement sur la physiopathologie de la maladie. Dans notre étude transversale, nous avons mis en évidence une activation de l’axe somatotrope (Growth Hormone/Insulin Growth Factor 1), une inhibition en fonction de la sévérité de la maladie de deux axes : gonadotrope (Testostérone) et thyréotrope (Thyroid Stimulating Hormone et triiodothyronine) mais aucune modification des hormones de l’axe corticotrope ni de la prolactine. De plus, la modification hormonale de l’axe somatotrope était non pathologique et précoce alors qu’elle était tardive pour les deux autres axes. Pour expliquer le lien entre ces modifications et la progression de la maladie une étude longitudinale a été mise en place. Les résultats de cette étude montre que seule l’élévation plasmatique d’IGF1 était prédictive de la détérioration cognitive. L’ensemble de nos résultats apporte une meilleure description et compréhension du profil de l’axe hypothalamo-hypophysaire dans la maladie de Huntington. Les axes pituitaires ne sont pas tous atteints et leur atteinte n’est pas dans le même sens. La relation inverse entre l’activation de l’axe somatotrope et la détérioration cognitive renforce l’hypothèse d’une résistance à l’effet de l’IGF1 dans la maladie de Huntington comme pour la maladie d’alzheimer. En conclusion, compte tenu de l’implication de l’IGF1 dans la prédiction de la progression cognitive dans la maladie de Huntington, il serait intéressant de détecter si les modifications biologiques de l’IGF1 existent dès la phase asymptomatique cognitive afin d’envisager d’utiliser l’IGF1 comme biomarqueur de l’apparition ou de l’évolution des symptômes cognitives. D’un autre côté, il serait important d’étendre les recherches sur les mécanismes responsables des modifications hormonales dans la maladie de Huntington afin de mieux comprendre l’effet de cause à effet s’il existe entre ces modifications et les symptômes de la maladie / The pathophysiological processes leading to neurodegeneration and the symptoms of Huntington's disease (HD) remain unidentified and current hypothesis do not explain the intra and interindividual heterogeneity of the evolution of these symptoms. Thus, the progression of the disease remains difficult or impossible to predict. In this context, it is important to explore other factors that appear to be involved in the pathogenic process of the disease but could also influence the evolution of these symptoms and predict disease progression. Several evidences reinforce the hypothesis of the existence of hormonal disorders in HD such as the atrophy of the hypothalamus and weight loss. Because of few studies, their quality and the discrepancies of their results, the existence of hormonal changes in Huntington's disease and particularly their relationship to disease progression remains controversial. The objective of this work is to describe the hormonal profile of the hypothalamicpituitary axis in HD in order to better understand the role of these hormones on the progression and on the pathophysiology of the disease. In our cross-sectional study, we identified an activation of the somatotropic axis (Growth Hormone / Insulin Growth Factor 1), an inhibition according to the severity of the disease in two axes: gonadotrope (Testosterone) and thyréotrope (Thyroid Stimulating hormone and triiodothyronine) but no change in hormones of corticotropic axis and prolactin. In addition, the somatotropic axis is overactive even in patients with early disease. To explain the link between these changes and the progression of the disease, a longitudinal study was done. The results of this study showed that only the elevated plasma IGF1 was predictive of cognitive impairment. All of our results provide a better description and understanding of the profile of the hypothalamic-pituitary axis in Huntington's disease. Pituitary axes are not all disturbed. The inverse relationship between activation of the somatotropic axis and cognitive impairment strengthens the hypothesis of a resistance to the effect of IGF1 in Huntington's disease like in Alzheimer's disease. In conclusion, given the involvement of IGF1 in the prediction of cognitive progression in Huntington's disease, it would be interesting to detect whether the biological changes of IGF1 are already present at the asymptomatic cognitive stage in order to use IGF1 as a biomarker of the onset or changes in cognitive symptoms. On the other hand, , it would be important to extend research on the mechanisms responsible for hormonal changes in Huntington's disease to better understand the link between these changes and symptoms of the disease

Maladie de Huntington

Neuroendocrinologie

Axe somatotrope

Axe thyréotrope

Axe gonadotrope

Axe corticotrope

Prolactine

Huntington’s disease

Neuroendocrinology

Somatotropic axis

Gonadotropic axis

Thyreotropic axis

Corticotropic axis

Prolactin

The Production and Localization of Luteinizing Hormone in the Brain

Courtney, Ya'el Carmel

29 May 2019

No description available.

Neurobiology

Neurosciences

Biology

Cellular Biology

Bioinformatics

luteinizing hormone

hormone

hormones

HPG axis

cognitive decline

alzheimers

AD

neuroendocrinology

endocrinology

in-situ

in situ hybridization

single cell

LH

LHB

Is Serum BDNF Altered in Acute, Short- and Long-Term Recovered Restrictive Type Anorexia Nervosa?

Steinhäuser, Jonas L., King, Joseph A., Tam, Friederike I., Seidel, Maria, Biemann, Ronald, Wronski, Marie-Louis, Geisler, Daniel, Roessner, Veit, Ehrlich, Stefan

05 May 2023

Brain-derived neurotrophic factor (BDNF), a neurotrophin involved in the regulation of food intake and body weight, has been implicated in the development and maintenance of Anorexia nervosa (AN). The majority of previous studies reported lower BDNF levels in acutely underweight AN patients (acAN) and increasing levels after weight rehabilitation. Here, we investigated serum BDNF concentrations in the largest known AN sample to date, both before and after weight restoration therapy. Serum BDNF was measured in 259 female volunteers: 77 in-patient acAN participants of the restrictive type (47 reassessed after short-term weight rehabilitation), 62 individuals long-term recovered from AN, and 120 healthy controls. We validated our findings in a post-hoc mega-analysis in which we reanalyzed combined data from the current sample and those from our previous study on BDNF in AN (combined sample: 389 participants). All analyses carefully accounted for known determinants of BDNF (age, sex, storage time of blood samples). We further assessed relationships with relevant clinical variables (body-mass-index, physical activity, symptoms). Contrary to our hypotheses, we found zero significant differences in either cross-sectional or longitudinal comparisons and no significant relationships with clinical variables. Together, our study suggests that BDNF may not be a reliable state- or trait-marker in AN after all.

info:eu-repo/classification/ddc/540

ddc:540

A Cross-Fostering Analysis of the Effect of PCB on Behavioral Development of Sprague-Dawley Rats

Mankin, David Edward

16 April 2012

No description available.

Biology

Developmental Biology

Developmental Psychology

Endocrinology

Neurosciences

Psychology

Toxicology

PCB

cross-fostering

behavioral developement

endocrine disruption

neurotoxicology

rats

thyroid hormones

neuroendocrinology

grooming

ultrasonic vocalizations

O papel da melatonina na regulação do tecido adiposo marrom / The role of melatonin in the regulation of brown adipose tissue

Halpern, Bruno

27 August 2018

O tecido adiposo marrom (TAM), caracterizado pela presença da proteína termogênica UCP-1, é conhecido há muitas décadas como um tecido termogênico em mamíferos, porém sua significância clínica em humanos era considerada pequena, com exceção de neonatos, até que o desenvolvimento e uso de métodos de PET-FDG terem demonstrado que humanos adultos também possuem TAM ativo, especialmente após exposição ao frio. Essa descoberta levou a um enorme aumento nas pesquisas sobre o assunto, já que sua ativação, levando a um aumento do gasto energético, poderia, pelo menos na teoria, ser uma possível arma no tratamento da obesidade e diabetes tipo 2 e sua redução ou ausência ser uma causa de ganho de peso. Muitos compostos vêm sendo estudados como possíveis recrutadores e ativdadores desse tecido. A melatonina é um deles, embora nenhum estudo tenha sido feito em humanos. A melatonina, um hormônio pineal sintetizado à noite com um papel crítico na sincronização do ritmo circadiano, é estudado há várias décadas como um regulador chave do metabolismo energético em diversas espécies animais. Ratos pinealectomizados ganham peso e tem distúrbios metabólicos durante sua vida, e a suplementação noturna de melatonina, reverte estas alterações, sem redução da ingesta alimentar. Devido a isso, uma hipótese é que o papel central da melatonina no metabolismo energético inclui sua função no gasto energético, possivelmente relacionado à ativação do TAM. Muitos modelos experimentais, a maioria em animais hibernantes, demonstraram o papel da melatonina no recrutamento do TAM. Nesse estudo, o objetivo é determinar se a suplementação de melatonina para indivíduos e animais de experimentação (ratos Wistar) deficientes de melatonina aumenta sua ativação. Foi encontrado que, em ratos Wistar, animais pinelaectomizados possuem uma capacidade termogênica do TAM reduzida após exposição ao frio comparado com a temperatura ambiente, e a suplementação de melatonina normaliza essa capacidade termogênica. Esse dado sugere um papel da melatonina na resposta máxima de ativação do TAM após um desafio ao frio agudo. Também foi observado um aumento de expressão de UCP-1 (RNA) em animais repostos com melatonina, tanto em controles como em pinealectomizados, e animais pinealectomizados não repostos apresentam uma expressão de UCP-1 menor que um grupo controle. Em humanos, a suplementação de melatonina aumenta o volume e atividade do TAM em quatro indivíduos pinealectomizados (por tumores pineais) com baixo nível de melatonina no basal, analisado por tomografia de emissão de prótons acoplada a ressonância magnética (PET-RM). Embora a análise do TAM em ambos os protocolos tenha sido distinta, seus resultados apontam para a mesma regulação positiva do TAM pela melatonina. A termografia infravermelha (TIV) foi também realizada em humanos, com aumento de atividade de TAM após exposição ao frio, poréma correlação entre as respostas com a TIV e o PET-RM foi moderada e não significativa. Diferenças entre o protocolo frio e limitação da TIV em indivíduos mais obesos podem ter contribuído para esses resultados. Uma relação positiva da suplementação de melatonina nos lípides (principalmente colesterol e triglicérides) também foi encontrada, porém sem impacto na gordura hepática / Brown adipose tissue (BAT), characterized by the presence of the thermogenic protein UCP-1 have long been known as a thermogenic tissue in mammals, however its significance in humans was considered minor, with the exception of newborns, until FDG-PET exams demonstrated that human adults still have active BAT, especially after cold exposure. This prompted to an incredible increase in research on the field, since its activation, leading to increased energy expenditure could, at least theoretically, be a possible tool for the treatment of obesity and type 2 diabetes and its reduction or absence be a cause of weight gain. Many compounds aiming to recruit and activate BAT have been studied. Melatonin has been one of them, although no study has been performed in humans. Melatonin, a pineal hormone synthetized at night with a critical role in the synchronization of circadian rhythms, has long been studied as a key regulator of energy metabolism in many animal species. Pinealectomized rats gain weight and have metabolic disturbances during life, and the circadian supplementation of melatonin, at night, reverts these alterations, without decrease in energy intake. Due to that, it is hypothesized that a main role of melatonin in energy metabolism includes its action on energy expenditure, possibly related to activation of BAT. Many experimental models, mainly in hibernating animals, have shown a role of melatonin on BAT recruitment. In the present study, we ought to determine if the supplementation of melatonin for melatonin deficient subjects and experimental animals (Wistar rats) increases BAT activation. We found, in Wistar rats, that pinealectomized animals have a reduced BAT thermogenic capacity after acute cold exposure compared with ambient temperature, and melatonin supplementation in this animals leads to normalization of BAT thermogenic capacity. This data suggests a role of melatonin in improving the maximal response of BAT after an acute challenge. We also found that melatonin supplementation increases UCP-1 RNA expression both in control and pinealectomized rats, and pinealectomized rats without supplementation have a reduced UCP-1 expression compared with controls. In humans, we found that melatonin supplementation increased BAT volume and activity in four pinealectomized (due to pineal tumors) individuals with low melatonin at baseline, analyzed by Positron Emission Tomography associated with magnetic resonance (PET-MR). Although the analysis of BAT in both studies was different, their results point to the same positive regulation of BAT by melatonin. We also performed infrared termography (IRT) in humans, but the results were not conclusive since although we also found an increase in BAT activity measured in Watts, the correlation between the methods was moderate. The difference may be due to different protocols of cold exposure between methods, probably inadequate in IRT, as well as maybe to a limitation of IRT in more obese individuals. We also found that melatonin supplementation in melatonin deficient humans may have a positive impact on blood lipid concentrations, (mainly total cholesterol and triglycerides) but, at least for the time studied, does not appear to have an impact on liver fat

Adipose tissue brown

Circadian rhytm

Diabetes mellitus tipo 2

Glândula pineal

Hipercolesterolemia

Hipertrigliceridemia

Hypercholesterolemia

Hypertriglyceridemia

Melatonin

Melatonina

Neuroendocrinologia

Neuroendocrinology

Obesidade

Obesity

Pineal gland

Ritmo circadiano

Tecido adiposo marrom

Type 2 diabetes

Serotonergic Responsiveness in Hypothalamic Neurons

Tung, Stephanie S. Y.

04 December 2012

Serotonin (5-HT) has been implicated in energy homeostasis. There is growing evidence that 5-HT, acting through the 5-HT1BR in the paraventricular nucleus of the hypothalamus (PVN), is important to this regulation. To investigate the cellular events underlying 5-HT1BR action, a PVN neuronal cell model was established. The mHypoA-2/30 cell line expresses a complement of markers and neuropeptides specifically localized to the PVN. 5-HT induces neuronal activation in a dose-dependent manner as determined by an elevation in cFos mRNA levels. As 5-HT exerted limited transcriptional control, the integrity of 5-HT signaling machinery was assessed. 5-HT signals through cAMP and calcium secondary messenger systems by suppressing cAMP and elevating intracellular calcium, effects that are mimicked by activating the 5-HT1BR and that are attenuated in the presence of inhibitors. These findings support the use of this novel PVN cell model for delineating components involved in direct 5-HT action in PVN neurons.

physiology

cellular biology

molecular biology

hypothalamus

neuroendocrinology

feeding behaviour

serotonin

neuropeptide expression

transcriptional regulation

obesity

immortalized cell lines

signal transduction

paraventricular nucleus

neuroscience

real-time PCR

calcium signaling

neuronal activation

secretion

0379

0307

0317

0719

0570

Serotonergic Responsiveness in Hypothalamic Neurons

Tung, Stephanie S. Y.

04 December 2012

Serotonin (5-HT) has been implicated in energy homeostasis. There is growing evidence that 5-HT, acting through the 5-HT1BR in the paraventricular nucleus of the hypothalamus (PVN), is important to this regulation. To investigate the cellular events underlying 5-HT1BR action, a PVN neuronal cell model was established. The mHypoA-2/30 cell line expresses a complement of markers and neuropeptides specifically localized to the PVN. 5-HT induces neuronal activation in a dose-dependent manner as determined by an elevation in cFos mRNA levels. As 5-HT exerted limited transcriptional control, the integrity of 5-HT signaling machinery was assessed. 5-HT signals through cAMP and calcium secondary messenger systems by suppressing cAMP and elevating intracellular calcium, effects that are mimicked by activating the 5-HT1BR and that are attenuated in the presence of inhibitors. These findings support the use of this novel PVN cell model for delineating components involved in direct 5-HT action in PVN neurons.

physiology

cellular biology

molecular biology

hypothalamus

neuroendocrinology

feeding behaviour

serotonin

neuropeptide expression

transcriptional regulation

obesity

immortalized cell lines

signal transduction

paraventricular nucleus

neuroscience

real-time PCR

calcium signaling

neuronal activation

secretion

0379

0307

0317

0719

0570

Long-Term Outcome after Lithium Augmentation in Unipolar Depression: Focus on HPA System Activity

Adli, Mazda, Bschor, Tom, Bauer, Michael, Lucka, Claudia, Lewitzka, Ute, Ising, Marcus, Uhr, Manfred, Müller-Oerlinghausen, Bruno, Baethge, Christopher

20 February 2014

Background: Lithium augmentation is a first-line strategy for depressed patients resistant to antidepressive therapy, but little is known about patients’ subsequent long-term course or outcome predictors. We investigated long-term outcomes of unipolar depressed patients who had participated in a study on the effects of lithium augmentation on the hypothalamic-pituitary-adrenocortical system using the combined dexamethasone/corticotrophin-releasing hormone (DEX/CRH) test. Methods: Twelve to 28 months (mean 18.6 ± 4.6 months) after lithium augmentation, 23 patients were assessed with a standardized interview, of which 18 patients had complete DEX/CRH test results. Relapse was diagnosed by DSM-IV criteria (Structured Clinical Interview for DSM-IV; SCID I). Results: Only 11 patients (48%) had a favorable follow-up, defined as absence of major depressive episodes during the observation period. Patients with a favorable and an unfavorable course did not differ in clinical or sociodemographic parameters, endocrinological results or continuation of lithium. However, fewer previous depressive episodes tended to correlate (p = 0.09) with a favorable course. Conclusion: Results from studies using the DEX/CRH test to predict relapse in depressed patients treated with antidepressants were not replicated for lithium augmentation. Our finding could reflect the elevation of DEX/CRH results by lithium, independent of clinical course. Limitations of the study are its small sample size, the heterogeneous clinical baseline conditions and the lack of lithium serum levels. The fact that lithium continuation did not predict the course might be related to the difference between the efficacy of lithium in controlled studies and its effectiveness in naturalistic settings. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

Langzeit-Outcome

Depression

Neuroendokrinologie

Depression

Rückfallvorhersage

Rezidiv

Long-term outcome

Major depression

Neuroendocrinology

Prediction of relapse

Recurrence

ddc:610

ddc:150

rvk:XA 10000

rvk:CL 1000

O papel da melatonina na regulação do tecido adiposo marrom / The role of melatonin in the regulation of brown adipose tissue

Bruno Halpern

27 August 2018

O tecido adiposo marrom (TAM), caracterizado pela presença da proteína termogênica UCP-1, é conhecido há muitas décadas como um tecido termogênico em mamíferos, porém sua significância clínica em humanos era considerada pequena, com exceção de neonatos, até que o desenvolvimento e uso de métodos de PET-FDG terem demonstrado que humanos adultos também possuem TAM ativo, especialmente após exposição ao frio. Essa descoberta levou a um enorme aumento nas pesquisas sobre o assunto, já que sua ativação, levando a um aumento do gasto energético, poderia, pelo menos na teoria, ser uma possível arma no tratamento da obesidade e diabetes tipo 2 e sua redução ou ausência ser uma causa de ganho de peso. Muitos compostos vêm sendo estudados como possíveis recrutadores e ativdadores desse tecido. A melatonina é um deles, embora nenhum estudo tenha sido feito em humanos. A melatonina, um hormônio pineal sintetizado à noite com um papel crítico na sincronização do ritmo circadiano, é estudado há várias décadas como um regulador chave do metabolismo energético em diversas espécies animais. Ratos pinealectomizados ganham peso e tem distúrbios metabólicos durante sua vida, e a suplementação noturna de melatonina, reverte estas alterações, sem redução da ingesta alimentar. Devido a isso, uma hipótese é que o papel central da melatonina no metabolismo energético inclui sua função no gasto energético, possivelmente relacionado à ativação do TAM. Muitos modelos experimentais, a maioria em animais hibernantes, demonstraram o papel da melatonina no recrutamento do TAM. Nesse estudo, o objetivo é determinar se a suplementação de melatonina para indivíduos e animais de experimentação (ratos Wistar) deficientes de melatonina aumenta sua ativação. Foi encontrado que, em ratos Wistar, animais pinelaectomizados possuem uma capacidade termogênica do TAM reduzida após exposição ao frio comparado com a temperatura ambiente, e a suplementação de melatonina normaliza essa capacidade termogênica. Esse dado sugere um papel da melatonina na resposta máxima de ativação do TAM após um desafio ao frio agudo. Também foi observado um aumento de expressão de UCP-1 (RNA) em animais repostos com melatonina, tanto em controles como em pinealectomizados, e animais pinealectomizados não repostos apresentam uma expressão de UCP-1 menor que um grupo controle. Em humanos, a suplementação de melatonina aumenta o volume e atividade do TAM em quatro indivíduos pinealectomizados (por tumores pineais) com baixo nível de melatonina no basal, analisado por tomografia de emissão de prótons acoplada a ressonância magnética (PET-RM). Embora a análise do TAM em ambos os protocolos tenha sido distinta, seus resultados apontam para a mesma regulação positiva do TAM pela melatonina. A termografia infravermelha (TIV) foi também realizada em humanos, com aumento de atividade de TAM após exposição ao frio, poréma correlação entre as respostas com a TIV e o PET-RM foi moderada e não significativa. Diferenças entre o protocolo frio e limitação da TIV em indivíduos mais obesos podem ter contribuído para esses resultados. Uma relação positiva da suplementação de melatonina nos lípides (principalmente colesterol e triglicérides) também foi encontrada, porém sem impacto na gordura hepática / Brown adipose tissue (BAT), characterized by the presence of the thermogenic protein UCP-1 have long been known as a thermogenic tissue in mammals, however its significance in humans was considered minor, with the exception of newborns, until FDG-PET exams demonstrated that human adults still have active BAT, especially after cold exposure. This prompted to an incredible increase in research on the field, since its activation, leading to increased energy expenditure could, at least theoretically, be a possible tool for the treatment of obesity and type 2 diabetes and its reduction or absence be a cause of weight gain. Many compounds aiming to recruit and activate BAT have been studied. Melatonin has been one of them, although no study has been performed in humans. Melatonin, a pineal hormone synthetized at night with a critical role in the synchronization of circadian rhythms, has long been studied as a key regulator of energy metabolism in many animal species. Pinealectomized rats gain weight and have metabolic disturbances during life, and the circadian supplementation of melatonin, at night, reverts these alterations, without decrease in energy intake. Due to that, it is hypothesized that a main role of melatonin in energy metabolism includes its action on energy expenditure, possibly related to activation of BAT. Many experimental models, mainly in hibernating animals, have shown a role of melatonin on BAT recruitment. In the present study, we ought to determine if the supplementation of melatonin for melatonin deficient subjects and experimental animals (Wistar rats) increases BAT activation. We found, in Wistar rats, that pinealectomized animals have a reduced BAT thermogenic capacity after acute cold exposure compared with ambient temperature, and melatonin supplementation in this animals leads to normalization of BAT thermogenic capacity. This data suggests a role of melatonin in improving the maximal response of BAT after an acute challenge. We also found that melatonin supplementation increases UCP-1 RNA expression both in control and pinealectomized rats, and pinealectomized rats without supplementation have a reduced UCP-1 expression compared with controls. In humans, we found that melatonin supplementation increased BAT volume and activity in four pinealectomized (due to pineal tumors) individuals with low melatonin at baseline, analyzed by Positron Emission Tomography associated with magnetic resonance (PET-MR). Although the analysis of BAT in both studies was different, their results point to the same positive regulation of BAT by melatonin. We also performed infrared termography (IRT) in humans, but the results were not conclusive since although we also found an increase in BAT activity measured in Watts, the correlation between the methods was moderate. The difference may be due to different protocols of cold exposure between methods, probably inadequate in IRT, as well as maybe to a limitation of IRT in more obese individuals. We also found that melatonin supplementation in melatonin deficient humans may have a positive impact on blood lipid concentrations, (mainly total cholesterol and triglycerides) but, at least for the time studied, does not appear to have an impact on liver fat

Diabetes mellitus tipo 2

Glândula pineal

Hipercolesterolemia

Hipertrigliceridemia

Melatonina

Neuroendocrinologia

Obesidade

Ritmo circadiano

Tecido adiposo marrom

Adipose tissue brown

Circadian rhytm

Hypercholesterolemia

Hypertriglyceridemia

Melatonin

Neuroendocrinology

Obesity

Pineal gland

Type 2 diabetes