High-fat and high-sucrose diet-induced hypothalamic inflammation shows sex specific features in mice
Posted on: 19 August 2024 , updated on: 21 October 2024
Preprint posted on 29 July 2024
Article now published in Neurochemical Research at http://dx.doi.org/10.1007/s11064-024-04243-4
🔦What are the differences in hypothalamic inflammation between male and female models of obesity? And in which model is it reversible?
Selected by Jimeng Li
Categories: neuroscience
Updated 21 October 2024 with a postLight by Jimeng Li
I was glad to learn that this paper was recently published in Neurochemical Research. Compared to the preprint, the published version of this work adds a missing description in the methods part, and provides an extended discussion on the mechanisms supporting microglial activation.
In the third paragraph of the discussion, De Paula and colleagues added elaboration on a related molecular pathway of microglial activation which shows a clear sex difference. In fact, potential molecules, for example, the sirtuin family, have been identified in sex-dependent manner on obesity. Knowing this can be beneficial for further characterising the sex difference in the hypothalamus of obese mice (as was done in this study).
Overall, the published version of this work has expanded in scope and become more comprehensive. Congratulations to the authors!
Background
Sex differences in obesity can be observed in the etiology of this complex chronic disease, its prevalence, but also in aspects like body composition, fat distribution and hormonal action. The arcuate nucleus (Arc) is a brain region in the hypothalamus with high importance in obesity as it connects the central nervous system and endocrine system. From neuroimaging studies trying to identify potential biomarkers in patients to cell morphology and electrophysiology experiments in animal models, there is sufficient proof of abnormal neuroimmune (chain) reactions in obesity. However, the sex specific features of hypothalamic inflammation still remain unclear. In this preprint, De Paula and colleagues report sex differences in the arcuate nucleus induced by a high-fat and high-sucrose diet (HFHSD).
Key findings
After 3 days of following a strict high-fat and high-sucrose diet, different cytokines were activated in the arcuate nucleus between male and female mice; even the same cytokines showed different trends. Moreover, after 24 weeks of HFHSD, sex differences were observed in gliosis as well, with females exhibiting astrogliosis in addition to the microgliosis observed in both sexes (table 1). The inflammation in female mice seemed neither intense nor long-lasting, given that 8 weeks of chow diet following the HFHSD could reverse it.
Table 1. Neuroinflammation in the hypothalamus of male and female mice after different durations of following a high-fat and high-sucrose diet
Importance
This detailed comparison characterizing neuroinflammation in obese mice at multiple levels provides valuable insights into the mechanisms of obesity involving the hypothalamus, with a specific emphasis on sexual dimorphisms. The observation of gliosis further supports the dominant role of microglia, as previously reported, in the inflammation of the hypothalamus in obesity. Furthermore, as the authors mentioned, the exposure of Arc to circulating factors suggests a peripheral impact, presenting a new avenue for possible interventions and treatments.
doi: https://doi.org/10.1242/prelights.38140
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