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Literature DB >> 29449715

Leptin and brain-adipose crosstalks.

Alexandre Caron¹, Syann Lee¹, Joel K Elmquist¹, Laurent Gautron¹.

Abstract

Interactions between the brain and distinct adipose depots have a key role in maintaining energy balance, thereby promoting survival in response to metabolic challenges such as cold exposure and starvation. Recently, there has been renewed interest in the specific central neuronal circuits that regulate adipose depots. Here, we review anatomical, genetic and pharmacological studies on the neural regulation of adipose function, including lipolysis, non-shivering thermogenesis, browning and leptin secretion. In particular, we emphasize the role of leptin-sensitive neurons and the sympathetic nervous system in modulating the activity of brown, white and beige adipose tissues. We provide an overview of advances in the understanding of the heterogeneity of the brain regulation of adipose tissues and offer a perspective on the challenges and paradoxes that the community is facing regarding the actions of leptin on this system.

Entities: Chemical Disease Gene Species

Mesh：

Substances：
Leptin

Year: 2018 PMID： 29449715 PMCID： PMC5962962 DOI： 10.1038/nrn.2018.7

Source DB: PubMed Journal: Nat Rev Neurosci ISSN： 1471-003X Impact factor: 34.870

210 in total

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Journal: Lab Invest Date: 1997-09 Impact factor: 5.662

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Journal: Brain Res Date: 2002-02-22 Impact factor: 3.252

4. Sympathetic neuron-associated macrophages contribute to obesity by importing and metabolizing norepinephrine.

Authors: Roksana M Pirzgalska; Elsa Seixas; Jason S Seidman; Verena M Link; Noelia Martínez Sánchez; Inês Mahú; Raquel Mendes; Vitka Gres; Nadiya Kubasova; Imogen Morris; Bernardo A Arús; Chelsea M Larabee; Miguel Vasques; Francisco Tortosa; Ana L Sousa; Sathyavathy Anandan; Erin Tranfield; Maureen K Hahn; Matteo Iannacone; Nathanael J Spann; Christopher K Glass; Ana I Domingos
Journal: Nat Med Date: 2017-10-09 Impact factor: 53.440

5. Separate and shared sympathetic outflow to white and brown fat coordinately regulates thermoregulation and beige adipocyte recruitment.

Authors: Ngoc Ly T Nguyen; Candace L Barr; Vitaly Ryu; Qiang Cao; Bingzhong Xue; Timothy J Bartness
Journal: Am J Physiol Regul Integr Comp Physiol Date: 2016-11-23 Impact factor: 3.619

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Journal: Nature Date: 1977-03-03 Impact factor: 49.962

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

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Journal: Cell Metab Date: 2015-05-14 Impact factor: 27.287

8. A leptin dose-response study in obese (ob/ob) and lean (+/?) mice.

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Journal: Endocrinology Date: 1998-01 Impact factor: 4.736

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Journal: Proc Natl Acad Sci U S A Date: 1995-09-26 Impact factor: 11.205

72 in total

Review 1. Phenotypic and Genetic Characteristics of Lipodystrophy: Pathophysiology, Metabolic Abnormalities, and Comorbidities.

Authors: Baris Akinci; Rasimcan Meral; Elif Arioglu Oral
Journal: Curr Diab Rep Date: 2018-11-08 Impact factor: 4.810

Review 2. Molecular pathways linking adipose innervation to insulin action in obesity and diabetes mellitus.

Authors: Adilson Guilherme; Felipe Henriques; Alexander H Bedard; Michael P Czech
Journal: Nat Rev Endocrinol Date: 2019-04 Impact factor: 43.330

3. Expression of a hypomorphic Pomc allele alters leptin dynamics during late pregnancy.

Authors: Hui Yu; Zoe Thompson; Sylee Kiran; Graham L Jones; Lakshmi Mundada; Marcelo Rubinstein; Malcolm J Low
Journal: J Endocrinol Date: 2020-04 Impact factor: 4.286

4. Leptin: Less Is More.

Authors: Shangang Zhao; Christine M Kusminski; Joel K Elmquist; Philipp E Scherer
Journal: Diabetes Date: 2020-05 Impact factor: 9.461

5. The hepatokine Tsukushi is released in response to NAFLD and impacts cholesterol homeostasis.

Authors: Mathilde Mouchiroud; Étienne Camiré; Manal Aldow; Alexandre Caron; Éric Jubinville; Laurie Turcotte; Inès Kaci; Marie-Josée Beaulieu; Christian Roy; Sébastien M Labbé; Thibault V Varin; Yves Gélinas; Jennifer Lamothe; Jocelyn Trottier; Patricia L Mitchell; Frédéric Guénard; William T Festuccia; Philippe Joubert; Christopher F Rose; Constantine J Karvellas; Olivier Barbier; Mathieu C Morissette; André Marette; Mathieu Laplante
Journal: JCI Insight Date: 2019-08-08

6. ΔFosB Requires Galanin, but not Leptin, to Increase Bone Mass via the Hypothalamus, but both are needed to increase Energy expenditure.

Authors: Anna Idelevich; Kazusa Sato; Kenichi Nagano; Glenn Rowe; Francesca Gori; Roland Baron
Journal: J Bone Miner Res Date: 2019-07-30 Impact factor: 6.741