Literature DB >> 30827863

Transcriptional Basis for Rhythmic Control of Hunger and Metabolism within the AgRP Neuron.

Jonathan Cedernaes1, Wenyu Huang2, Kathryn Moynihan Ramsey2, Nathan Waldeck2, Lei Cheng3, Biliana Marcheva2, Chiaki Omura2, Yumiko Kobayashi2, Clara Bien Peek2, Daniel C Levine2, Ravindra Dhir4, Raj Awatramani5, Christopher A Bradfield6, Xiaozhong A Wang7, Joseph S Takahashi8, Mohamad Mokadem9, Rexford S Ahima10, Joseph Bass11.   

Abstract

The alignment of fasting and feeding with the sleep/wake cycle is coordinated by hypothalamic neurons, though the underlying molecular programs remain incompletely understood. Here, we demonstrate that the clock transcription pathway maximizes eating during wakefulness and glucose production during sleep through autonomous circadian regulation of NPY/AgRP neurons. Tandem profiling of whole-cell and ribosome-bound mRNAs in morning and evening under dynamic fasting and fed conditions identified temporal control of activity-dependent gene repertoires in AgRP neurons central to synaptogenesis, bioenergetics, and neurotransmitter and peptidergic signaling. Synaptic and circadian pathways were specific to whole-cell RNA analyses, while bioenergetic pathways were selectively enriched in the ribosome-bound transcriptome. Finally, we demonstrate that the AgRP clock mediates the transcriptional response to leptin. Our results reveal that time-of-day restriction in transcriptional control of energy-sensing neurons underlies the alignment of hunger and food acquisition with the sleep/wake state.
Copyright © 2019 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  AgRP; Agouti-related protein; RNA sequencing; RNA-seq; RiboTag; SCN; circadian; metabolism; suprachiasmatic nucleus; time-restricted feeding

Mesh:

Substances:

Year:  2019        PMID: 30827863      PMCID: PMC6506361          DOI: 10.1016/j.cmet.2019.01.023

Source DB:  PubMed          Journal:  Cell Metab        ISSN: 1550-4131            Impact factor:   27.287


  69 in total

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Journal:  Nature       Date:  1996-08-29       Impact factor: 49.962

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4.  Time-restricted feeding without reducing caloric intake prevents metabolic diseases in mice fed a high-fat diet.

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5.  Diet-induced obese mice retain endogenous leptin action.

Authors:  Nickki Ottaway; Parinaz Mahbod; Belen Rivero; Lee Ann Norman; Arieh Gertler; David A D'Alessio; Diego Perez-Tilve
Journal:  Cell Metab       Date:  2015-05-14       Impact factor: 27.287

6.  Region-specific leptin resistance within the hypothalamus of diet-induced obese mice.

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Journal:  Endocrinology       Date:  2004-07-22       Impact factor: 4.736

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Authors:  Deanna M Arble; Joseph Bass; Aaron D Laposky; Martha H Vitaterna; Fred W Turek
Journal:  Obesity (Silver Spring)       Date:  2009-09-03       Impact factor: 5.002

8.  Insulin action in AgRP-expressing neurons is required for suppression of hepatic glucose production.

Authors:  A Christine Könner; Ruth Janoschek; Leona Plum; Sabine D Jordan; Eva Rother; Xiaosong Ma; Chun Xu; Pablo Enriori; Brigitte Hampel; Gregory S Barsh; C Ronald Kahn; Michael A Cowley; Frances M Ashcroft; Jens C Brüning
Journal:  Cell Metab       Date:  2007-06       Impact factor: 27.287

9.  Differential effects of light and feeding on circadian organization of peripheral clocks in a forebrain Bmal1 mutant.

Authors:  Mariko Izumo; Martina Pejchal; Andrew C Schook; Ryan P Lange; Jacqueline A Walisser; Takashi R Sato; Xiaozhong Wang; Christopher A Bradfield; Joseph S Takahashi
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Journal:  Nat Immunol       Date:  2018-05-18       Impact factor: 25.606
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2.  Obesity in adults: a clinical practice guideline.

Authors:  Sean Wharton; David C W Lau; Michael Vallis; Arya M Sharma; Laurent Biertho; Denise Campbell-Scherer; Kristi Adamo; Angela Alberga; Rhonda Bell; Normand Boulé; Elaine Boyling; Jennifer Brown; Betty Calam; Carol Clarke; Lindsay Crowshoe; Dennis Divalentino; Mary Forhan; Yoni Freedhoff; Michel Gagner; Stephen Glazer; Cindy Grand; Michael Green; Margaret Hahn; Raed Hawa; Rita Henderson; Dennis Hong; Pam Hung; Ian Janssen; Kristen Jacklin; Carlene Johnson-Stoklossa; Amy Kemp; Sara Kirk; Jennifer Kuk; Marie-France Langlois; Scott Lear; Ashley McInnes; David Macklin; Leen Naji; Priya Manjoo; Marie-Philippe Morin; Kara Nerenberg; Ian Patton; Sue Pedersen; Leticia Pereira; Helena Piccinini-Vallis; Megha Poddar; Paul Poirier; Denis Prud'homme; Ximena Ramos Salas; Christian Rueda-Clausen; Shelly Russell-Mayhew; Judy Shiau; Diana Sherifali; John Sievenpiper; Sanjeev Sockalingam; Valerie Taylor; Ellen Toth; Laurie Twells; Richard Tytus; Shahebina Walji; Leah Walker; Sonja Wicklum
Journal:  CMAJ       Date:  2020-08-04       Impact factor: 8.262

3.  Temporal Control of Appetite by AgRP Clocks.

Authors:  Zheng Chen
Journal:  Cell Metab       Date:  2019-05-07       Impact factor: 27.287

4.  Hypothalamic REV-ERB nuclear receptors control diurnal food intake and leptin sensitivity in diet-induced obese mice.

Authors:  Marine Adlanmerini; Hoang Cb Nguyen; Brianna M Krusen; Clare W Teng; Caroline E Geisler; Lindsey C Peed; Bryce J Carpenter; Matthew R Hayes; Mitchell A Lazar
Journal:  J Clin Invest       Date:  2021-01-04       Impact factor: 14.808

5.  Diurnal Patterns for Cortisol, Cortisone and Agouti-Related Protein in Human Cerebrospinal Fluid and Blood.

Authors:  Sunil K Panigrahi; Cristina D Toedesbusch; Jennifer S McLeland; Brendan P Lucey; Sharon L Wardlaw
Journal:  J Clin Endocrinol Metab       Date:  2020-04-01       Impact factor: 5.958

6.  Inhibition of Itch by Hunger and AgRP Neuron Activity.

Authors:  Amber L Alhadeff; Onyoo Park; Elen Hernandez; J Nicholas Betley
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7.  Neuronal clock coordinates appetite.

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Review 8.  Only time will tell: the interplay between circadian clock and metabolism.

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9.  Generation of Mouse Primary Hypothalamic Neuronal Cultures for Circadian Bioluminescence Assays.

Authors:  Cosima X Schmidt; Anthony H Tsang; Henrik Oster
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10.  You are when you eat: on circadian timing and energy balance.

Authors:  Jonathan Cedernaes; Joseph Bass
Journal:  J Clin Invest       Date:  2021-01-04       Impact factor: 14.808
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