The Role of Adiponectin in Gustatory Perception of Fat

Lin, Fangjun

01 January 2024

Taste is a major driving force that influences food choice and dietary intake. Animals' taste abilities vary due to genetics, sex, age, and hormonal status. There is evidence that several appetite-regulating hormones can modulate gustatory detection of fat, and this hormonal modulation of fat taste likely influences food palatability and selection, thereby altering fat intake. Adiponectin is a key metabolic hormone predominantly released from adipose tissue, which enhances insulin sensitivity and stimulates glucose and fatty acid metabolism. Adiponectin receptors are highly expressed in the taste system, indicating that adiponectin signaling may play an important role in the modulation of gustatory function. The goal of this dissertation was to explore how adiponectin signaling affects fatty acid detection in the gustatory system, thereby potentially altering dietary fat intake. We investigated the effect of AdipoRon, an adiponectin receptor agonist, on taste cell responses to fatty acids, the prototypical stimuli for fat taste. The findings suggest that AdipoRon selectively enhances cellular responses to fatty acids but not to a mixture of sweet, bitter, and umami tastants by mediating the activation of AMPK and translocation of CD36 in immortalized human fungiform taste cells. Additionally, we examined the molecular mechanism underlying the physiological effects of adiponectin on fat taste in mice. Our results indicate that adiponectin/AdipoRon increases cellular responses to fatty acids by mediating the activation of AMPK and translocation of CD36 in isolated mouse taste bud cells via its receptor AdipoR1. Lastly, we evaluated how fat taste responses and dietary fat intake are altered when AdipoR1 is disrupted. We observed that disruption of AdipoR1 in mice altered the animals’ cellular and behavioral taste responsiveness to fatty acids in a sex-dependent manner; however, little or no effect on dietary fat intake was found. Together, these studies demonstrate that adiponectin/AdipoR1 signaling plays crucial sex-specific roles in the modulation of fat taste and the maintenance of healthy body weight, primarily by regulating energy expenditure rather than dietary intake in mice.

Mise en évidence du potentiel thérapeutique de l’adiponectine et de son rôle dans les effets antidépresseurs de l’environnement enrichi / Highlighting the therapeutic potential of adiponectin and its role in the antidepressant effects of the enriched environment

Nicolas, Sarah

20 March 2018

La dépression est une pathologie multifactorielle induisant des troubles psychiques et physiques. De nouvelles thérapies visant à enrichir l’environnement des patients par des activités physiques, sociales et cognitives aident à la rémission en complément des traitements pharmacologiques. Cependant les bases moléculaires sous-jacentes aux bénéfices observés dans ces thérapies sont méconnues. C’est dans ce contexte que nous avons étudié les effets de ces thérapies via la mise en place d’un modèle murin d’environnement enrichi (EE). L’objectif de ma thèse a été d’évaluer les effets antidépresseurs de l’EE sur un modèle murin de dépression et d’identifier une nouvelle cible thérapeutique. J’ai montré que l’administration chronique de corticostérone induit un état dépressif et une neuroinflammation qui peuvent être réversés par l’EE. De plus, mes travaux ont mis en évidence, l'adiponectine (ApN), comme étant un acteur clef des effets de l'EE. J’ai montré que l’EE via l’ApN était capable de limiter la neuroinflammation. Par ailleurs, la caractérisation de souris n’exprimant pas l’ApN a montré que ces souris étaient insensibles en partie aux effets de l’EE. Par la suite, je me suis intéressée à la voie de signalisation de l’ApN impliquée dans ses effets anti-inflammatoires, j’ai montré que l’ApN inhibe l’activation de la microglie en se liant à son récepteur AdipoR1. Enfin, j’ai testé l’effet de l’AdipoRon, un agoniste des récepteurs de l’adiponectine, sur des souris traitées par la corticostérone. J’ai montré que l’AdipoRon réduisait l’état « dépressif » de ces souris. Mon travaille suggère que les effets antidépresseurs de l’AdipoRon sont dus à sa pléiotropie car il agit simultanément sur différents systèmes altérés dans la dépression dont la neurogenèse hippocampique, la neurotransmission sérotoninergique et la neuroinflammation. Pour conclure ce travail met en avant les effets bénéfiques de l’EE sur la dépression et la neuroinflammation. De plus, ils identifient l’ApN et sa voie de signalisation comme de nouvelles cibles prometteuses dans le traitement de la dépression. / Major depression is a complex disorder characterized by behavioral and cognitive impairments triggered by various factors including genetic predispositions, stress and environment. The pathophysiology of depression is poorly understood. Numerous evidence suggests that neuroinflammation is associated with depression. Alternative therapeutic strategies are needed and "positive" life experiences could be an efficient way to help the remission of the disorder. To study the potential antidepressant effects of such “positive” living conditions, we used the enriched environment (EE) paradigm on mice. The aim of our work was to fully characterize the antidepressant and anti-inflammatory effects of EE in a well-characterized murine model of depression-like behavior induced by long-term administration of corticosterone. We showed that EE efficiently reverses the anxiety/depression‐like state of mice and reduces neuroinflammation. Moreover, we identified the adipokine Adiponectin as a key player in the beneficial effects of EE. We reported that increased levels of Adiponectin in the brain led to microglia phenotype and activation state regulation, thus reducing global brain inflammation in mice. Indeed, the anti-inflammatory and antidepressants effects of EE are abolished in Adiponectin deficient mice. We demonstrated that anti-inflammatory actions of Adiponectin on microglia is mediated through the Adiponectin Receptor 1. Those results highlight the key role of the adiponergic system in the treatment of psychiatric disorders. Therefore, we tested the effect of AdipoRon, a potent Adiponectin receptors 1 and 2 agonist on corticosterone-treated mice. AdipoRon successfully reversed the corticosterone-induced depression-like state in mice. AdipoRon exerted its pleiotropic actions on various systems including hippocampal neurogenesis, serotonergic neurotransmission and neuroinflammation, which can explain its antidepressant properties. Together, our findings bring insight into the beneficial effects of "positive" life experiences in depression and neuroinflammation, highlight the pivotal role of Adiponectin pathway and emphasizes that AdipoRon or other Adiponectin receptor agonist may constitute a promising novel antidepressant.

Dépression

Environnement enrichi

Modèle murin

Adiponectine

Neuro-inflammation

Adiporon

Depression

Enriched environment

Murine model

Adiponectin

Neuroinflammation

Adiporon