• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 4
  • 3
  • 2
  • Tagged with
  • 10
  • 10
  • 6
  • 5
  • 5
  • 5
  • 5
  • 3
  • 3
  • 3
  • 3
  • 3
  • 3
  • 2
  • 2
  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Morphine-induced Locomotion Increases following Viral Transfection of M5 Muscarinic Receptor Genes in the Ventromedial Hypothalamus of Wild-type Mice

Nawaz, Sabrina 15 December 2011 (has links)
Excitatory M5 muscarinic acetylcholine receptors are expressed at the highest level in the brain, in the ventromedial hypothalamus (VMH). M5 knockout (KO) mice emit fewer ultrasonic vocalizations (USVs) during mating, and show 40-50% lesser morphine-induced locomotion as compared to wild-type (WT) mice. Following viral transfection of M5 muscarinic receptors in the ventral tegmentum (VTA), KO mice depict restored mating-induced USVs and enhanced morphine-induced locomotion. The VMH is important for motivational processes, such as, feeding and producing USVs in rats. With a Herpes simplex virus (HSV), the M5 receptor gene was transfected into the VMH of WT mice. M5 transfection into neurons of the VMH increased locomotion in mice injected with 10mg/kg morphine. When a D2-selective dopamine blocker was injected into the same mice, locomotion was drastically reduced. There were no significant differences in amount of USVs produced. VMH may exert its effects on morphine through a DA dependent VTA pathway.
2

Morphine-induced Locomotion Increases following Viral Transfection of M5 Muscarinic Receptor Genes in the Ventromedial Hypothalamus of Wild-type Mice

Nawaz, Sabrina 15 December 2011 (has links)
Excitatory M5 muscarinic acetylcholine receptors are expressed at the highest level in the brain, in the ventromedial hypothalamus (VMH). M5 knockout (KO) mice emit fewer ultrasonic vocalizations (USVs) during mating, and show 40-50% lesser morphine-induced locomotion as compared to wild-type (WT) mice. Following viral transfection of M5 muscarinic receptors in the ventral tegmentum (VTA), KO mice depict restored mating-induced USVs and enhanced morphine-induced locomotion. The VMH is important for motivational processes, such as, feeding and producing USVs in rats. With a Herpes simplex virus (HSV), the M5 receptor gene was transfected into the VMH of WT mice. M5 transfection into neurons of the VMH increased locomotion in mice injected with 10mg/kg morphine. When a D2-selective dopamine blocker was injected into the same mice, locomotion was drastically reduced. There were no significant differences in amount of USVs produced. VMH may exert its effects on morphine through a DA dependent VTA pathway.
3

Envolvimento de vias mediadas por endocanabinoides na modulação do comportamento de defesa induzido pelo bloqueio de receptores GABAA na divisão dorso-medial do hipotálamo ventro-medial: papel do receptor CB1 / Involvement of endocannabinoid-mediated pathways in the modulation of defensive behaviour induced by the GABAA receptor blockade in dorsomedial division of ventromedial hypothalamus: role of CB1 receptor

Garcia, Tayllon dos Anjos 12 February 2014 (has links)
Os efeitos dos canabinoides em algumas áreas encefálicas que expressam receptores endocanabinoides, como é o caso dos núcleos hipotalâmicos, não são ainda muito bem definidos. Vários estudos têm demonstrado o papel de alguns núcleos hipotalâmicos na organização das reações induzidas pelo medo inato e pelo pânico. As respostas de defesa induzidas pelo medo instintivo caracterizam-se por serem mais elaboradas e dirigidas para algum abrigo ou rota de fuga. O estado de pânico pode ser provocado experimentalmente em animais de laboratório através da diminuição da atividade do sistema GABAérgico. O objetivo deste trabalho foi estudar os padrões comportamentais de fuga elaborada induzidos pelo bloqueio de receptores GABAérgicos do tipo A, com microinjeções intra-hipotalâmicas de bicuculina (BIC), especificamente na divisão dorso-medial do hipotálamo ventro-medial (VMHDM), assim como estabelecer o envolvimento endocanabinoides e o papel do receptor canabinoide do tipo 1 (CB1) na modulação das respostas defensivas organizadas pelo hipotálamo medial. Os resultados mostraram que a administração prévia de doses intermediárias (5pmol) de anandamida (AEA) atenuaram as respostas defensivas induzidas pela microinjeção intra-VMHDM de bicuculina (40ng), efeito este prevenido pelo pré-tratamento intra-hipotalâmica com antagonista de receptores CB1. Os resultados indicam que a AEA pode modular os efeitos pró-aversivos da bicuculina no VMHDM por meio do recrutamento de receptores CB1. / The effects of cannabinoids in some brain areas that express endocannabinoid receptors, such as some hypothalamic nuclei, are not yet well known. Several studies have demonstrated a role of hypothalamic nuclei in the organisation of behavioural responses induced by innate fear and panic attacks. The defensive responses induced by instinctive fear are more elaborated and oriented toward a burrow or alternative route of escape. Panic-prone states are able to be experimentally induced in laboratory animals decreasing the GABAergic system activity. The aim of this work was to study panic-like elaborated defensive behaviour evoked by GABAA receptor blockade with bicuculline (BIC) in the dorsomedial division of the ventromedial hypothalamus (VMHDM), we also aimed to establish the involvement of endocannabinoids and the role of CB1 cannabinoid receptor in the modulation of elaborated defense behavioural responses organised by medial hypothalamus. The results showed that intra-hypothalamic administration of anandamide (AEA) at the intermediate dose (5pmol) attenuated defensive responses induced by intra-VMHDM microinjection of bicuculline (40ng). This effect, however, was prevented by the pre-treatment of VMHDM with the CB1 receptor antagonist AM251. These results indicate that AEA can modulate the pro-aversive effects of bicuculline into the VMHDM, recruiting CB1 receptors.
4

Envolvimento de vias mediadas por endocanabinoides na modulação do comportamento de defesa induzido pelo bloqueio de receptores GABAA na divisão dorso-medial do hipotálamo ventro-medial: papel do receptor CB1 / Involvement of endocannabinoid-mediated pathways in the modulation of defensive behaviour induced by the GABAA receptor blockade in dorsomedial division of ventromedial hypothalamus: role of CB1 receptor

Tayllon dos Anjos Garcia 12 February 2014 (has links)
Os efeitos dos canabinoides em algumas áreas encefálicas que expressam receptores endocanabinoides, como é o caso dos núcleos hipotalâmicos, não são ainda muito bem definidos. Vários estudos têm demonstrado o papel de alguns núcleos hipotalâmicos na organização das reações induzidas pelo medo inato e pelo pânico. As respostas de defesa induzidas pelo medo instintivo caracterizam-se por serem mais elaboradas e dirigidas para algum abrigo ou rota de fuga. O estado de pânico pode ser provocado experimentalmente em animais de laboratório através da diminuição da atividade do sistema GABAérgico. O objetivo deste trabalho foi estudar os padrões comportamentais de fuga elaborada induzidos pelo bloqueio de receptores GABAérgicos do tipo A, com microinjeções intra-hipotalâmicas de bicuculina (BIC), especificamente na divisão dorso-medial do hipotálamo ventro-medial (VMHDM), assim como estabelecer o envolvimento endocanabinoides e o papel do receptor canabinoide do tipo 1 (CB1) na modulação das respostas defensivas organizadas pelo hipotálamo medial. Os resultados mostraram que a administração prévia de doses intermediárias (5pmol) de anandamida (AEA) atenuaram as respostas defensivas induzidas pela microinjeção intra-VMHDM de bicuculina (40ng), efeito este prevenido pelo pré-tratamento intra-hipotalâmica com antagonista de receptores CB1. Os resultados indicam que a AEA pode modular os efeitos pró-aversivos da bicuculina no VMHDM por meio do recrutamento de receptores CB1. / The effects of cannabinoids in some brain areas that express endocannabinoid receptors, such as some hypothalamic nuclei, are not yet well known. Several studies have demonstrated a role of hypothalamic nuclei in the organisation of behavioural responses induced by innate fear and panic attacks. The defensive responses induced by instinctive fear are more elaborated and oriented toward a burrow or alternative route of escape. Panic-prone states are able to be experimentally induced in laboratory animals decreasing the GABAergic system activity. The aim of this work was to study panic-like elaborated defensive behaviour evoked by GABAA receptor blockade with bicuculline (BIC) in the dorsomedial division of the ventromedial hypothalamus (VMHDM), we also aimed to establish the involvement of endocannabinoids and the role of CB1 cannabinoid receptor in the modulation of elaborated defense behavioural responses organised by medial hypothalamus. The results showed that intra-hypothalamic administration of anandamide (AEA) at the intermediate dose (5pmol) attenuated defensive responses induced by intra-VMHDM microinjection of bicuculline (40ng). This effect, however, was prevented by the pre-treatment of VMHDM with the CB1 receptor antagonist AM251. These results indicate that AEA can modulate the pro-aversive effects of bicuculline into the VMHDM, recruiting CB1 receptors.
5

Estudo do papel de receptores CB1, 5-HT1A e canais iônicos TRPV1 da divisão dorsomedial do hipotálamo ventromedial nas respostas defensivas inatas evocadas por Cavia porcellus ameaçadas por serpentes / Study of the role of CB1 and 5-HT1A receptors, and and TRPV1 ion channels of the dorsomedial division of ventromedial hypothalamus on innate defensive responses evoked by Cavia porcellus threatened by snakes

Paiva, Yara Bezerra de 07 October 2016 (has links)
Há evidências de que os endocanabinoides e os receptores CB1 estejam envolvidos em diversos transtornos emocionais, dentre eles a ansiedade e a depressão. A interação deste sistema endocanabinoide com outros neurotransmissores, como a serotonina (5-HT), tem sido alvo de diversos estudos, uma vez que o aumento na atividade deste sistema promove respostas ansiolíticas e antidepressivas. Alguns estudos mostraram que a porção ventromedial do hipotálamo modula algumas respostas defensivas, como fuga e a imobilidade tônica, respostas estas eliciadas pelos animais frente a situações de medo intenso, como ocorre em um confronto com um dado predador. Dentro desta perspectiva, o presente estudo teve por objetivos avaliar o efeito do tratamento crônico durante 21 dias com canabidiol (CBD) sobre as respostas defensivas em cobaias (Cavia porcellus), evocadas diante de um predador natural. Avaliamos, ainda, o efeito da microinjeção intradiencefálica de AM251 (antagonista de receptores CB1; 100pmol/0,2µl), de 6-I-CPS (antagonista de canais iônicos TRPV1; 9nmol/0,2µl), de WAY-100635 (antagonista 5-HT1A; 0,37nmol/0,2µl) e seus respectivos veículos em diferentes grupos de cobaias, após o tratamento crônico com canabidiol sobre as respostas defensivas evocadas diante do predador. Os resultados mostraram que, muito embora o tratamento crônico com CBD não tenha atenuado a resposta de imobilidade tônica (IT), devido ao fenômeno de habituação da resposta, diminuiu a expressão de outras respostas comportamentais, como a atenção defensiva e afuga orientada para a toca, promovendo, pois, um efeito anxiolítico e panicolítico. Ademais, a microinjeção de AM251 tendeu a abolir o efeito ansiolítico causado pelo tratamento crônico com CBD, potencializando as respostas defensivas diante de um predador natural. Tais resultados indicam que o CBD promove seu efeito farmacológico também mediante tratamento crônico, e que os receptores canabinoides do tipo CB1 do hipotálamo ventromedial parecem desmpenhar algum um papel nesse mecanismo de ação. / Evidence has shown that endocannabinoids and CB1 receptors are involved in several emotional disorders, including anxiety and depression. The endocannabinoid system and its interaction with other neurotransmitters such as serotonin (5-HT) has been the subject of several studies, since the increase in the activity of this system promotes anxiolytic and antidepressant responses. Some studies have shown that the ventromedial division of the hypothalamus modulates some defensive responses such as flight and tonic immobility, elicited by preys experiencing intense fear-like reactions when facing dangerous situations, as confrontation with a given predator. From this perspective, this study aimed to evaluate the effect of chronic treatment for 21 days with cannabidiol (CBD) on the defensive responses displayed by guinea pigs (Cavia porcellus), in the presence of a natural predator. We also studied the effect of intradiencephalic microinjection of AM251 (a CB1 receptor antagonist; 100pmol / 0.2?L), 6-PSC-I (TRPV1 ion channel antagonist; 9nmol / 0.2?L), or WAY- 100635 (antagonist 5- HT1A; 0.37nmol / 0.2?L) and their respective controls in different groups of mice after chronic treatment with cannabidiol on the defensive responses evoked in the presence of the predator. The results showed that although the chronic treatment with CBD attenuated tonic immobility response (IT) and other behavioural responses, such as defensive attention and oriented escape behaviour, promoting a significant anxiolytic and panicolytic effect. In addition, intra-hypothalamic microinjection of AM251 exert a potential impairment of the antipanic effect caused by chronic treatment with CBD, increasing the defensive responses displayed in the presence of the predator. These results indicate that the CBD also promotes its pharmacological effect upon chronic treatment, and that medial hypothalamus CB1 receptors seem to play a role in its mechanism of action.
6

Role of the ventromedial hypothalamus in control of innate defensive behaviours

Wroblewska, Natalia January 2018 (has links)
Our senses are constantly bombarded with information. How does the brain integrate such a variety of inputs to generate appropriate behaviours? Innate defensive behaviours are a good model to address this question. They are essential for animal survival and the brain circuits that control them are highly conserved across species. Moreover, the sensory inputs and behavioural outputs can be well defined and reliably reproduced in the lab. This allows us to study function of the individual components of the circuit controlling these behaviours. Ventromedial hypothalamus (VMH) is a key brain region for controlling responses to predators; it has been shown that inactivating the VMH can reduce defensive behaviours. Interestingly, activating the VMH output neurons (SF1+ cells) can produce a variety of different behaviours, from immobility to escape, depending on the intensity of activation. During my PhD I used a variety of approaches to address the question of the function of the VMH in control of defensive behaviours. At first I hypothesised that the VMH might act as a centre responsible for choosing an appropriate behavioural response according to the stimulus. I set to investigate how different activation levels of SF1+ neurons can produce such different behavioural outputs, and how this activity is modulated in vivo in response to predator stimuli. I began the project by quantifying mouse defensive behaviours in response to olfactory and auditory predator cues, as well as to the optogenetic activation of SF1+ neurons. I then questioned whether there was heterogeneity within the population of SF1+ neurons, which could explain their ability to trigger different behaviours. I performed patch clamp recordings from acute brain slices and conducted a study of the electrophysiological properties of SF1+ neurons. I next investigated how SF1+ neurons integrate excitatory inputs from the medial amygdala, a region which receives olfactory inputs from the accessory olfactory bulb. By combining optogenetics with slice electrophysiology and behavioural assessment, I described the physiology and relevance of this connection. Finally, I investigated in vivo activity in the VMH in response to predator cues by performing calcium imaging of the VMH neurons in freely moving mice. By presenting different sensory stimuli, I addressed the question of heterogeneity of the input pattern to the VMH neurons and the relationship between the VMH activity and the behavioural output. Taken all together, the results of this project have led to a hypothesis whereby the function of the VMH is to facilitate rather than directly control the choice of an appropriate behavioural response.
7

Estudo do papel de receptores CB1, 5-HT1A e canais iônicos TRPV1 da divisão dorsomedial do hipotálamo ventromedial nas respostas defensivas inatas evocadas por Cavia porcellus ameaçadas por serpentes / Study of the role of CB1 and 5-HT1A receptors, and and TRPV1 ion channels of the dorsomedial division of ventromedial hypothalamus on innate defensive responses evoked by Cavia porcellus threatened by snakes

Yara Bezerra de Paiva 07 October 2016 (has links)
Há evidências de que os endocanabinoides e os receptores CB1 estejam envolvidos em diversos transtornos emocionais, dentre eles a ansiedade e a depressão. A interação deste sistema endocanabinoide com outros neurotransmissores, como a serotonina (5-HT), tem sido alvo de diversos estudos, uma vez que o aumento na atividade deste sistema promove respostas ansiolíticas e antidepressivas. Alguns estudos mostraram que a porção ventromedial do hipotálamo modula algumas respostas defensivas, como fuga e a imobilidade tônica, respostas estas eliciadas pelos animais frente a situações de medo intenso, como ocorre em um confronto com um dado predador. Dentro desta perspectiva, o presente estudo teve por objetivos avaliar o efeito do tratamento crônico durante 21 dias com canabidiol (CBD) sobre as respostas defensivas em cobaias (Cavia porcellus), evocadas diante de um predador natural. Avaliamos, ainda, o efeito da microinjeção intradiencefálica de AM251 (antagonista de receptores CB1; 100pmol/0,2µl), de 6-I-CPS (antagonista de canais iônicos TRPV1; 9nmol/0,2µl), de WAY-100635 (antagonista 5-HT1A; 0,37nmol/0,2µl) e seus respectivos veículos em diferentes grupos de cobaias, após o tratamento crônico com canabidiol sobre as respostas defensivas evocadas diante do predador. Os resultados mostraram que, muito embora o tratamento crônico com CBD não tenha atenuado a resposta de imobilidade tônica (IT), devido ao fenômeno de habituação da resposta, diminuiu a expressão de outras respostas comportamentais, como a atenção defensiva e afuga orientada para a toca, promovendo, pois, um efeito anxiolítico e panicolítico. Ademais, a microinjeção de AM251 tendeu a abolir o efeito ansiolítico causado pelo tratamento crônico com CBD, potencializando as respostas defensivas diante de um predador natural. Tais resultados indicam que o CBD promove seu efeito farmacológico também mediante tratamento crônico, e que os receptores canabinoides do tipo CB1 do hipotálamo ventromedial parecem desmpenhar algum um papel nesse mecanismo de ação. / Evidence has shown that endocannabinoids and CB1 receptors are involved in several emotional disorders, including anxiety and depression. The endocannabinoid system and its interaction with other neurotransmitters such as serotonin (5-HT) has been the subject of several studies, since the increase in the activity of this system promotes anxiolytic and antidepressant responses. Some studies have shown that the ventromedial division of the hypothalamus modulates some defensive responses such as flight and tonic immobility, elicited by preys experiencing intense fear-like reactions when facing dangerous situations, as confrontation with a given predator. From this perspective, this study aimed to evaluate the effect of chronic treatment for 21 days with cannabidiol (CBD) on the defensive responses displayed by guinea pigs (Cavia porcellus), in the presence of a natural predator. We also studied the effect of intradiencephalic microinjection of AM251 (a CB1 receptor antagonist; 100pmol / 0.2?L), 6-PSC-I (TRPV1 ion channel antagonist; 9nmol / 0.2?L), or WAY- 100635 (antagonist 5- HT1A; 0.37nmol / 0.2?L) and their respective controls in different groups of mice after chronic treatment with cannabidiol on the defensive responses evoked in the presence of the predator. The results showed that although the chronic treatment with CBD attenuated tonic immobility response (IT) and other behavioural responses, such as defensive attention and oriented escape behaviour, promoting a significant anxiolytic and panicolytic effect. In addition, intra-hypothalamic microinjection of AM251 exert a potential impairment of the antipanic effect caused by chronic treatment with CBD, increasing the defensive responses displayed in the presence of the predator. These results indicate that the CBD also promotes its pharmacological effect upon chronic treatment, and that medial hypothalamus CB1 receptors seem to play a role in its mechanism of action.
8

DIFFERENTIAL SKELETAL MUSCLE ENERGY EXPENDITURE IN LEAN VS. OBESITY-PRONE RATS

Gavini, Chaitanya Kumar 07 October 2015 (has links)
No description available.
9

The innate defensive behaviour and unconditioned fear-induced antinociception evoked by NMDA receptor activation in the medial hypothalamus are modulated by the intradiencephalic treatment with cannabidiol: the role of CB1 cannabinoid receptor / O comportamento de defesa inato e a antinocicepção induzida pelo medo incondicionado induzidos pela ativação de receptores NMDA no hipotálamo medial são modulados pelo tratamento intradiencefálico com cannabidiol: papel do receptor canabinoide CB1

Khan, Asmat Ullah 15 October 2018 (has links)
The impacts of exogenous cannabinoids, such as the chemical constituents of Cannabis sativa like cannabidiol (CBD), on brain regions having a modest number of cannabinoid receptors, for example, the ventromedial hypothalamus, are not yet surely knew. A few researches have shown evidence that ventromedial hypothalamus (VMH) neurons play a role in modulating innate fear-induced behavioural reactions in rodents submitted to experimental models of panic attack, for example those based on prey versus wild snake confrontation paradigm. The panic attack-like state was also potentially induced in laboratory animals by N-Methyl-D-aspartate (NMDA), an excitatory amino acid, which stimulates neurons that organize defensive behavioural reactions in the central nervous system. Despite the fact that CB1 receptor-mediated endocannabinoid signaling mechanism underlies the antiaversive effect of exogenous anandamide in medial hypothalamus, there is still a lack of morphological evidence to support the distribution of CB1 receptors in the VMH. Henceforth, this study was designed to explore the specific pattern of distribution of the CB1 receptors in the VMH and, subsequently, the implication of these receptors in the endocannabinoidmodulated defensive behavioural responses followed by fear-induced antinociception evoked by NMDA microinjected in the VMH. A stainless steel guide-cannula was embedded in the rodent\'s brain coordinated towards VMH by means of stareotaxic surgery. Three different doses of cannabidiol (CBD) were microinjected in the VMH. The most effective dose was used after the pretreatment with the CB1 receptor-antagonist AM251, followed by NMDA microinjection in the VMH. The outcomes demonstrated that the defensive behavioural responses evoked in response to intra-VMH administration of NMDA (6 nmol) were decreased by intra-hypothalamic microinjections of CBD at the highest dose (100 nmol).These effects, however, were blocked by the administration of the CB1 receptor-antagonist AM251 (100 pmol) in the VMH. In addition, the fear-induced antinociception elicited by VMH chemical stimulation diminished after the VMH treatment with CBD, an effect reversed by the intra-diencephalic pretreatment with AM251. These findings suggested that CBD causes panicolytic-like effects when administered in the VMH, and that antiaversive effect recruits the CB1 receptor-endocannabinoid signaling mechanism in VMH. / O papel dos canabinoides exógenos nas regiões do cérebro com um número modesto de receptores cannabinoides, por exemplo, o hipotálamo ventromedial, ainda não está plenamente esclarecido. Algumas pesquisas de nosso grupo, não obstante, mostraram o hipotálamo ventromedial (HVM) exerce modulação de reações comportamentais provocadas pelo medo inato em animais submetidos a um modelo de ataques de pânico. Crises de pânico foram induzidas em animais de laboratório por N-metil-D-aspartato (NMDA), um aminoácido excitatório que, ao ser microinjetado em estruturas do sistema encefálico de aversão, estimula reações comportamentais defensivas no sistema nervoso central que mimetizam as respostas defensivas eliciadas por roedores confrontados com serpentes. Apesar do mecanismo de sinalização endocanabinoide mediado pelos receptores CB1 desempenhar um papel na modulação da neurotransmissão excitadora e inibitória no SNC, ainda há escassez de evidências morfológicas que embasem a distribuição dos receptores CB1 no HVM. Por conseguinte, este estudo foi idealizado para explorar a forma específica de distribuição dos receptores CB1 no HVM e, posteriormente, estudar a implicação desses receptores na modulação de respostas comportamentais defensivas, seguidas por antinocicepção induzida pelo medo, moduladas por endocanabinoides e evocadas por microinjetação de NMDA no HVM. Uma cânula-guia feita de aço inoxidável foi implantada no cérebro do roedor, e direcionada para o HVM por meio de cirurgia estareotóxica. Três diferentes doses de cannabidiol (CBD) foram microinjetadas no HVM. A dosagem mais eficaz foi utilizada após o pré-tratamento do hipotálamo medial com um antagonista do receptor CB1, o AM251, seguido da microinjeção NMDA no HVM. Os resultados demonstraram que as respostascomportamentais defensivas evocadas em resposta à administração intra-HVM de NMDA (6 nmol) foram diminuídas por microinjeções intra-hipotalâmicas de CBD na dose mais alta (100 nmol). Estes efeitos, no entanto, foram atenuados pela administração do antagonista do receptor CB1, AM251, na dose de 100 pmol no HVM. Além disso, a antinocicepção induzida pelo medo foi atenuada pela administração intra-diencefálica de CBA, o que foi revertido pelo pré-tratamenot do HVM com AM251. Esses dados sugerem que o CBD causa efeitos panicolíticos, quando administrado no HVM, envolvendo o mecanismo de sinalização do receptor CB1-endocannabinoide.
10

The Role of Steroidogenic Factor 1 Cells in Modulating Skeletal Muscle Thermogenesis

Shemery, Ashley M. 09 April 2020 (has links)
No description available.

Page generated in 0.0954 seconds