A plastic aggrecan barrier modulated by peripheral energy state gates metabolic signal access to arcuate neurons

Laura Kuczynski-Noyau; Sixtine Karmann; Paolo Alberton; Ines Martinez-Corral; Sreekala Nampoothiri; Florent Sauvé; Tori Lhomme; Carmelo Quarta; Suneel S. Apte; Sébastien Bouret; Attila Aszodi; Sowmyalakshmi Rasika; Philippe Ciofi; Julie Dam; Vincent Prévot; Virginie Mattot

doi:10.1038/s41467-024-50798-9

Nature Communications (Aug 2024)

A plastic aggrecan barrier modulated by peripheral energy state gates metabolic signal access to arcuate neurons

Laura Kuczynski-Noyau,
Sixtine Karmann,
Paolo Alberton,
Ines Martinez-Corral,
Sreekala Nampoothiri,
Florent Sauvé,
Tori Lhomme,
Carmelo Quarta,
Suneel S. Apte,
Sébastien Bouret,
Attila Aszodi,
Sowmyalakshmi Rasika,
Philippe Ciofi,
Julie Dam,
Vincent Prévot,
Virginie Mattot

Affiliations

Laura Kuczynski-Noyau: Univ. Lille, INSERM, CHU Lille, Laboratory of Development and Plasticity of the Neuroendocrine Brain, Lille Neuroscience & Cognition, UMR-S1172, EGID
Sixtine Karmann: Univ. Lille, INSERM, CHU Lille, Laboratory of Development and Plasticity of the Neuroendocrine Brain, Lille Neuroscience & Cognition, UMR-S1172, EGID
Paolo Alberton: Department for Orthopaedics and Trauma Surgery Musculoskeletal University Center Munich (MUM) University Hospital, LMU
Ines Martinez-Corral: Univ. Lille, INSERM, CHU Lille, Laboratory of Development and Plasticity of the Neuroendocrine Brain, Lille Neuroscience & Cognition, UMR-S1172, EGID
Sreekala Nampoothiri: Univ. Lille, INSERM, CHU Lille, Laboratory of Development and Plasticity of the Neuroendocrine Brain, Lille Neuroscience & Cognition, UMR-S1172, EGID
Florent Sauvé: Univ. Lille, INSERM, CHU Lille, Laboratory of Development and Plasticity of the Neuroendocrine Brain, Lille Neuroscience & Cognition, UMR-S1172, EGID
Tori Lhomme: Univ. Lille, INSERM, CHU Lille, Laboratory of Development and Plasticity of the Neuroendocrine Brain, Lille Neuroscience & Cognition, UMR-S1172, EGID
Carmelo Quarta: Univ. Bordeaux, INSERM, Neurocentre Magendie, U1215
Suneel S. Apte: Department of Biomedical Engineering
Sébastien Bouret: Univ. Lille, INSERM, CHU Lille, Laboratory of Development and Plasticity of the Neuroendocrine Brain, Lille Neuroscience & Cognition, UMR-S1172, EGID
Attila Aszodi: Department for Orthopaedics and Trauma Surgery Musculoskeletal University Center Munich (MUM) University Hospital, LMU
Sowmyalakshmi Rasika: Univ. Lille, INSERM, CHU Lille, Laboratory of Development and Plasticity of the Neuroendocrine Brain, Lille Neuroscience & Cognition, UMR-S1172, EGID
Philippe Ciofi: Univ. Bordeaux, INSERM, Neurocentre Magendie, U1215
Julie Dam: Institut Cochin, INSERM, CNRS, Université Paris Cité
Vincent Prévot: Univ. Lille, INSERM, CHU Lille, Laboratory of Development and Plasticity of the Neuroendocrine Brain, Lille Neuroscience & Cognition, UMR-S1172, EGID
Virginie Mattot: Univ. Lille, INSERM, CHU Lille, Laboratory of Development and Plasticity of the Neuroendocrine Brain, Lille Neuroscience & Cognition, UMR-S1172, EGID

DOI: https://doi.org/10.1038/s41467-024-50798-9
Journal volume & issue: Vol. 15, no. 1
pp. 1 – 11

Abstract

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Abstract The hypothalamic arcuate nucleus (ARH) contains neurons vital for maintaining energy homeostasis that sense and respond to changes in blood-borne metabolic hormones. Despite its juxtaposition to the median eminence (ME), a circumventricular organ lacking a blood-brain barrier and thus exposed to circulating molecules, only a few ventral ARH neurons perceive these extravasating metabolic signals due to a poorly understood ME/ARH diffusion barrier. Here, we show in male mice that aggrecan, a perineural-net proteoglycan deposited by orexigenic ARH neurons, creates a peculiar ventrodorsal diffusion gradient. Fasting enhances aggrecan deposition more dorsally, reinforcing the diffusion barrier, particularly around neurons adjacent to fenestrated capillary loops that enter the ARH. The disruption of aggrecan deposits results in unregulated diffusion of blood-borne molecules into the ARH and impairs food intake. Our findings reveal the molecular nature and plasticity of the ME/ARH diffusion barrier, and indicate its physiological role in hypothalamic metabolic hormone sensing.

Published in Nature Communications

ISSN: 2041-1723 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/ncomms/

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