Free-choice high-fat diet consumption reduces lateral hypothalamic GABAergic activity, without disturbing neural response to sucrose drinking in mice

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Abstract

Nutrition can influence the brain and affect its regulation of food intake, especially that of high-palatable foods. We hypothesize that fat and sugar have interacting effects on the brain, and the lateral hypothalamus (LH) is a prime candidate to be involved in this interaction. The LH is a heterogeneous area, crucial for regulating consummatory behaviors, and integrating homeostatic and hedonic needs. GABAergic LH neurons stimulate feeding when activated, and are responsive to consummatory behavior while encoding sucrose palatability. Previously, we have shown that glutamatergic LH neurons reduce their activity in response to sugar drinking and that this response is disturbed by a free-choice high-fat diet (fcHFD). Whether GABAergic LH neurons, and their response to sugar, is affected by a fcHFD is yet unknown. Using head-fixed two-photon microscopy, we analyzed activity changes in LH ^Vgat neuronal activity in chow or fcHFD-fed mice in response to water or sucrose drinking. A fcHFD decreased overall LH ^Vgat neuronal activity, without disrupting the sucrose-induced increase. When focusing on the response per unique neuron, a vast majority of neurons respond inconsistently over time. Thus, a fcHFD dampens overall LH GABAergic activity, while it does not disturb the response to sucrose. The inconsistent responding over time suggests that it is not one specific subpopulation of LH GABAergic neurons that is driving these behaviors, but rather a result of the integrative properties of a complex neural network. Further research should focus on determining how this dampening of LH GABAergic activity contributes to hyperphagia and the development of obesity.

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Most cited references 39

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Simultaneous Denoising, Deconvolution, and Demixing of Calcium Imaging Data.

Eftychios A. Pnevmatikakis, Daniel Soudry, Yuanjun Gao … (2016)

We present a modular approach for analyzing calcium imaging recordings of large neuronal ensembles. Our goal is to simultaneously identify the locations of the neurons, demix spatially overlapping components, and denoise and deconvolve the spiking activity from the slow dynamics of the calcium indicator. Our approach relies on a constrained nonnegative matrix factorization that expresses the spatiotemporal fluorescence activity as the product of a spatial matrix that encodes the spatial footprint of each neuron in the optical field and a temporal matrix that characterizes the calcium concentration of each neuron over time. This framework is combined with a novel constrained deconvolution approach that extracts estimates of neural activity from fluorescence traces, to create a spatiotemporal processing algorithm that requires minimal parameter tuning. We demonstrate the general applicability of our method by applying it to in vitro and in vivo multi-neuronal imaging data, whole-brain light-sheet imaging data, and dendritic imaging data.

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NoRMCorre: An online algorithm for piecewise rigid motion correction of calcium imaging data.

Eftychios A. Pnevmatikakis, Andrea Giovannucci (2017)

Motion correction is a challenging pre-processing problem that arises early in the analysis pipeline of calcium imaging data sequences. The motion artifacts in two-photon microscopy recordings can be non-rigid, arising from the finite time of raster scanning and non-uniform deformations of the brain medium.

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Visualizing hypothalamic network dynamics for appetitive and consummatory behaviors.

Joshua H. Jennings, Randall L. Ung, Shanna L. Resendez … (2015)

Optimally orchestrating complex behavioral states, such as the pursuit and consumption of food, is critical for an organism's survival. The lateral hypothalamus (LH) is a neuroanatomical region essential for appetitive and consummatory behaviors, but whether individual neurons within the LH differentially contribute to these interconnected processes is unknown. Here, we show that selective optogenetic stimulation of a molecularly defined subset of LH GABAergic (Vgat-expressing) neurons enhances both appetitive and consummatory behaviors, whereas genetic ablation of these neurons reduced these phenotypes. Furthermore, this targeted LH subpopulation is distinct from cells containing the feeding-related neuropeptides, melanin-concentrating hormone (MCH), and orexin (Orx). Employing in vivo calcium imaging in freely behaving mice to record activity dynamics from hundreds of cells, we identified individual LH GABAergic neurons that preferentially encode aspects of either appetitive or consummatory behaviors, but rarely both. These tightly regulated, yet highly intertwined, behavioral processes are thus dissociable at the cellular level.

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Author and article information

Contributors

Margo Slomp: URI : https://loop.frontiersin.org/people/2303626/overview

Serge H. Luquet: URI : https://loop.frontiersin.org/people/32656/overview

Susanne E. la Fleur: URI : https://loop.frontiersin.org/people/103429/overview

Journal

Journal ID (nlm-ta): Front Neurosci

Journal ID (iso-abbrev): Front Neurosci

Journal ID (publisher-id): Front. Neurosci.

Title: Frontiers in Neuroscience

Publisher: Frontiers Media S.A.

ISSN (Print): 1662-4548

ISSN (Electronic): 1662-453X

Publication date (Electronic): 03 August 2023

Publication date Collection: 2023

Volume: 17

Electronic Location Identifier: 1219569

Affiliations

[1] ¹Endocrinology Laboratory, Department of Laboratory Medicine, Amsterdam UMC, Location University of Amsterdam , Amsterdam, Netherlands

[2] ²Amsterdam Neuroscience, Cellular and Molecular Mechanisms , Amsterdam, Netherlands

[3] ³Amsterdam Gastroenterology Endocrinology and Metabolism , Amsterdam, Netherlands

[4] ⁴Metabolism and Reward Group, Royal Netherlands Academy of Arts and Sciences, Netherlands Institute of Neuroscience , Amsterdam, Netherlands

[5] ⁵Department of Biomedical Engineering, University of Virginia , Charlottesville, VA, United States

[6] ⁶Université Paris Cité, CNRS, Unité de Biologie Fonctionnelle et Adaptative , Paris, France

Author notes

Edited by: Ilaria Bertocchi, Neuroscience institute Cavaleri Ottolenghi (NICO), Italy

Reviewed by: Daria Peleg-Raibstein, ETH Zürich, Switzerland; Alexey Ponomarenko, University of Erlangen Nuremberg, Germany

*Correspondence: Susanne E. la Fleur, s.e.lafleur@ 123456amsterdamumc.nl

^†These authors have contributed equally to this work

^‡Deceased

Article

DOI: 10.3389/fnins.2023.1219569

PMC ID: 10434857

PubMed ID: 37600007

SO-VID: 91035895-372f-402c-ae9b-3f86063edb21

License:

This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

History

Date received : 09 May 2023

Date accepted : 21 July 2023

Page count

Figures: 2, Tables: 1, Equations: 0, References: 39, Pages: 8, Words: 6074

Funding

Funded by: Netherlands Organization for Health Research and Development

Award ID: 015.012.005

Custom metadata

section-at-acceptance Gut-Brain Axis

ScienceOpen disciplines: Neurosciences

Keywords: gaba,lateral hypothalamus,free-choice high-fat diet,two-photon microscopy,sucrose drinking

Data availability:

ScienceOpen disciplines: Neurosciences

Keywords: gaba, lateral hypothalamus, free-choice high-fat diet, two-photon microscopy, sucrose drinking

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