Tanycytic transcytosis inhibition disrupts energy balance, glucose homeostasis and cognitive function in male mice

IF 7 2区 医学 Q1 ENDOCRINOLOGY & METABOLISM Molecular Metabolism Pub Date : 2024-07-22 DOI:10.1016/j.molmet.2024.101996
Manon Duquenne , Eleonora Deligia , Cintia Folgueira , Cyril Bourouh , Emilie Caron , Frank Pfrieger , Markus Schwaninger , Ruben Nogueiras , Jean-Sébastien Annicotte , Monica Imbernon , Vincent Prévot
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Abstract

Objectives

In Western society, high-caloric diets rich in fats and sugars have fueled the obesity epidemic and its related disorders. Disruption of the body-brain communication, crucial for maintaining glucose and energy homeostasis, arises from both obesogenic and genetic factors, leading to metabolic disorders. Here, we investigate the role of hypothalamic tanycyte shuttles between the pituitary portal blood and the third ventricle cerebrospinal fluid in regulating energy balance.

Methods

We inhibited vesicle-associated membrane proteins (VAMP1-3)-mediated release in tanycytes by expressing the botulinum neurotoxin type B light chain (BoNT/B) in a Cre-dependent manner in tanycytes. This was achieved by injecting either TAT-Cre in the third ventricle or an AAV1/2 expressing Cre under the control of the tanycyte-specific promoter iodothyronine deiodinase 2 into the lateral ventricle of adult male mice.

Results

In male mice fed a standard diet, targeted expression of BoNT/B in adult tanycytes blocks leptin transport into the mediobasal hypothalamus and results in normal-weight central obesity, including increased food intake, abdominal fat deposition, and elevated leptin levels but no marked change in body weight. Furthermore, BoNT/B expression in adult tanycytes promotes fatty acid storage, leading to glucose intolerance and insulin resistance. Notably, these metabolic disturbances occur despite a compensatory increase in insulin secretion, observed both in response to exogenous glucose boluses in vivo and in isolated pancreatic islets. Intriguingly, these metabolic alterations are associated with impaired spatial memory in BoNT/B-expressing mice.

Conclusions

These findings underscore the central role of tanycytes in brain-periphery communication and highlight their potential implication in the age-related development of type 2 diabetes and cognitive decline. Our tanycytic BoNT/B mouse model provides a robust platform for studying how these conditions progress over time, from prediabetic states to full-blown metabolic and cognitive disorders, and the mechanistic contribution of tanycytes to their development. The recognition of the impact of tanycytic transcytosis on hormone transport opens new avenues for developing targeted therapies that could address both metabolic disorders and their associated cognitive comorbidities, which often emerge or worsen with advancing age.

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抑制橘红细胞转运会破坏雄性小鼠的能量平衡、葡萄糖稳态和认知功能
目的:在西方社会,富含脂肪和糖分的高热量饮食助长了肥胖症及其相关疾病的流行。身体与大脑之间的交流对维持葡萄糖和能量平衡至关重要,肥胖和遗传因素都会破坏这种交流,从而导致代谢紊乱。在此,我们研究了下丘脑澹细胞在垂体门静脉血液和第三脑室脑脊液之间的穿梭在调节能量平衡中的作用:方法:我们通过在澹细胞中以Cre依赖性方式表达肉毒杆菌神经毒素B型轻链(BoNT/B),抑制了澹细胞中囊泡相关膜蛋白(VAMP1-3)介导的释放。这是通过在第三脑室注射 TAT-Cre 或在成年雄性小鼠侧脑室注射在澹细胞特异性启动子碘甲腺原氨酸脱碘酶 2 控制下表达 Cre 的 AAV1/2 实现的:结果:在以标准饮食喂养的雄性小鼠中,在成体澹细胞中定向表达BoNT/B会阻止瘦素转运到下丘脑中层,并导致正常体重的中心性肥胖,包括食物摄入量增加、腹部脂肪沉积和瘦素水平升高,但体重没有明显变化。此外,BoNT/B 在成人澹细胞中的表达会促进脂肪酸储存,导致葡萄糖不耐受和胰岛素抵抗。值得注意的是,尽管在体内和离体胰岛中观察到胰岛素分泌补偿性增加,但这些代谢紊乱仍然发生。耐人寻味的是,这些代谢改变与表达 BoNT/B 的小鼠空间记忆受损有关:这些发现强调了绒毛膜细胞在大脑与外周交流中的核心作用,并突出了它们在与年龄相关的 2 型糖尿病和认知能力衰退中的潜在影响。我们的澹红细胞BoNT/B小鼠模型为研究这些病症如何随着时间的推移从糖尿病前期状态发展为全面的代谢和认知障碍以及澹红细胞对其发展的机理贡献提供了一个强大的平台。认识到澹胞转运对激素转运的影响为开发靶向疗法开辟了新途径,这些疗法可以解决代谢紊乱及其相关的认知并发症,而这些并发症往往随着年龄的增长而出现或恶化。
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来源期刊
Molecular Metabolism
Molecular Metabolism ENDOCRINOLOGY & METABOLISM-
CiteScore
14.50
自引率
2.50%
发文量
219
审稿时长
43 days
期刊介绍: Molecular Metabolism is a leading journal dedicated to sharing groundbreaking discoveries in the field of energy homeostasis and the underlying factors of metabolic disorders. These disorders include obesity, diabetes, cardiovascular disease, and cancer. Our journal focuses on publishing research driven by hypotheses and conducted to the highest standards, aiming to provide a mechanistic understanding of energy homeostasis-related behavior, physiology, and dysfunction. We promote interdisciplinary science, covering a broad range of approaches from molecules to humans throughout the lifespan. Our goal is to contribute to transformative research in metabolism, which has the potential to revolutionize the field. By enabling progress in the prognosis, prevention, and ultimately the cure of metabolic disorders and their long-term complications, our journal seeks to better the future of health and well-being.
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