Identification of Novel Neurocircuitry Through Which Leptin Targets Multiple Inputs to the Dopamine System to Reduce Food Reward Seeking

Azar Omrani; Veronne A J de Vrind; Bart Lodder; Iris Stoltenborg; Karlijn Kooij; Inge G Wolterink-Donselaar; Mieneke C M Luijendijk-Berg; Keith M Garner; Lisanne J Van't Sant; Annemieke Rozeboom; Suzanne L Dickson; Frank J Meye; Roger A H Adan

doi:10.1016/j.biopsych.2021.02.017

Identification of Novel Neurocircuitry Through Which Leptin Targets Multiple Inputs to the Dopamine System to Reduce Food Reward Seeking

Azar Omrani, Veronne A J de Vrind, Bart Lodder, Iris Stoltenborg, Karlijn Kooij, Inge G Wolterink-Donselaar, Mieneke C M Luijendijk-Berg, Keith M Garner, Lisanne J Van't Sant, Annemieke Rozeboom, Suzanne L Dickson, Frank J Meye, Roger A H Adan

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

BACKGROUND: Leptin reduces the motivation to obtain food by modulating activity of the mesolimbic dopamine (DA) system upon presentation of cues that predict a food reward. Although leptin directly reduces the activity of ventral tegmental area (VTA) DA neurons, the majority of leptin receptor (LepR)-expressing DA neurons do not project to the nucleus accumbens, the projection implicated in driving food reward seeking. Therefore, the precise locus of leptin action to modulate motivation for a food reward is unresolved.

METHODS: We used transgenic mice expressing Cre recombinase under the control of the LepR promoter, anatomical tracing, optogenetics-assisted patch-clamp electrophysiology, in vivo optogenetics with fiber photometric calcium measurements, and chemogenetics to unravel how leptin-targeted neurocircuitry inhibits food reward seeking.

RESULTS: A large number of DA neurons projecting to the nucleus accumbens are innervated by local VTA LepR-expressing GABA (gamma-aminobutyric acid) neurons. Leptin enhances the activity of these GABA neurons and thereby inhibits nucleus accumbens-projecting DA neurons. In addition, we find that lateral hypothalamic LepR-expressing neurons projecting to the VTA are inhibited by leptin and that these neurons modulate DA neurons indirectly via inhibition of VTA GABA neurons. In accordance with such a disinhibitory function, optogenetically stimulating lateral hypothalamic LepR projections to the VTA potently activates DA neurons in vivo. Moreover, we found that chemogenetic activation of lateral hypothalamic LepR neurons increases the motivation to obtain a food reward only when mice are in a positive energy balance.

CONCLUSIONS: We identify neurocircuitry through which leptin targets multiple inputs to the DA system to reduce food reward seeking.

Original language	English
Pages (from-to)	843-852
Number of pages	10
Journal	Biological Psychiatry
Volume	90
Issue number	12
Early online date	23 Feb 2021
DOIs	https://doi.org/10.1016/j.biopsych.2021.02.017
Publication status	Published - 15 Dec 2021

Keywords

Dopamine
Food reward
GABA
Lateral hypothalamus
Leptin
Ventral tegmental area

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10.1016/j.biopsych.2021.02.017

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Omrani, A., de Vrind, V. A. J., Lodder, B., Stoltenborg, I., Kooij, K., Wolterink-Donselaar, I. G., Luijendijk-Berg, M. C. M., Garner, K. M., Van't Sant, L. J., Rozeboom, A., Dickson, S. L., Meye, F. J., & Adan, R. A. H. (2021). Identification of Novel Neurocircuitry Through Which Leptin Targets Multiple Inputs to the Dopamine System to Reduce Food Reward Seeking. Biological Psychiatry, 90(12), 843-852. https://doi.org/10.1016/j.biopsych.2021.02.017

@article{3735aa40a8db49768ca8432edc9a2bb1,

title = "Identification of Novel Neurocircuitry Through Which Leptin Targets Multiple Inputs to the Dopamine System to Reduce Food Reward Seeking",

abstract = "BACKGROUND: Leptin reduces the motivation to obtain food by modulating activity of the mesolimbic dopamine (DA) system upon presentation of cues that predict a food reward. Although leptin directly reduces the activity of ventral tegmental area (VTA) DA neurons, the majority of leptin receptor (LepR)-expressing DA neurons do not project to the nucleus accumbens, the projection implicated in driving food reward seeking. Therefore, the precise locus of leptin action to modulate motivation for a food reward is unresolved.METHODS: We used transgenic mice expressing Cre recombinase under the control of the LepR promoter, anatomical tracing, optogenetics-assisted patch-clamp electrophysiology, in vivo optogenetics with fiber photometric calcium measurements, and chemogenetics to unravel how leptin-targeted neurocircuitry inhibits food reward seeking.RESULTS: A large number of DA neurons projecting to the nucleus accumbens are innervated by local VTA LepR-expressing GABA (gamma-aminobutyric acid) neurons. Leptin enhances the activity of these GABA neurons and thereby inhibits nucleus accumbens-projecting DA neurons. In addition, we find that lateral hypothalamic LepR-expressing neurons projecting to the VTA are inhibited by leptin and that these neurons modulate DA neurons indirectly via inhibition of VTA GABA neurons. In accordance with such a disinhibitory function, optogenetically stimulating lateral hypothalamic LepR projections to the VTA potently activates DA neurons in vivo. Moreover, we found that chemogenetic activation of lateral hypothalamic LepR neurons increases the motivation to obtain a food reward only when mice are in a positive energy balance.CONCLUSIONS: We identify neurocircuitry through which leptin targets multiple inputs to the DA system to reduce food reward seeking.",

keywords = "Dopamine, Food reward, GABA, Lateral hypothalamus, Leptin, Ventral tegmental area",

author = "Azar Omrani and {de Vrind}, {Veronne A J} and Bart Lodder and Iris Stoltenborg and Karlijn Kooij and Wolterink-Donselaar, {Inge G} and Luijendijk-Berg, {Mieneke C M} and Garner, {Keith M} and {Van't Sant}, {Lisanne J} and Annemieke Rozeboom and Dickson, {Suzanne L} and Meye, {Frank J} and Adan, {Roger A H}",

note = "Funding Information: This work was supported by the EU Seventh Framework Programme (Grant No. 607310; Nudge-it [to RA and SD]), the Netherlands Organisation for Scientific Research (Grant No. ALWOP.137 [to RA]), the Swedish Research Council (Grant Nos. 2018-02588 [to RA] and 2019-01051 [to SD]), Hj{\"a}rnfonden (Grant Nos. FO2017-0180, FO2018-0262, and FO2019-0086 [to SD]), NovoNordisk Fonden (Grant No. NNF19OC0056694 [to SD]), Avtal om L{\"a}karutbildning och Forskning (Grant No. ALFGBG-723681 [to SD]), and the European Research Council (Starting RECODE Grant No. 804089 [to FM]). AO performed electrophysiology, histology, confocal imaging, and data analysis. VAJdV performed behavioral experiments, histology, and data analysis. BL and KK performed photometry and data analysis. IGW-D and MCML-B performed stereotaxic virus/implant surgeries. LJvS and AR contributed to behavioral experiments. IS performed and analyzed RNAscope experiments. KMG prepared viruses. AO, SLD, FJM, and RAHA designed the experiments and wrote the manuscript with inputs from all authors. We thank the Imaging Core Facility at Gothenburg University. The authors report no biomedical financial interests or potential conflicts of interest. Funding Information: This work was supported by the EU Seventh Framework Programme (Grant No. 607310 ; Nudge-it [to RA and SD]), the Netherlands Organisation for Scientific Research (Grant No. ALWOP.137 [to RA] ), the Swedish Research Council (Grant Nos. 2018-02588 [to RA] and 2019-01051 [to SD] ), Hj{\"a}rnfonden (Grant Nos. FO2017-0180, FO2018-0262, and FO2019-0086 [to SD] ), NovoNordisk Fonden (Grant No. NNF19OC0056694 [to SD] ), Avtal om L{\"a}karutbildning och Forskning (Grant No. ALFGBG-723681 [to SD] ), and the European Research Council (Starting RECODE Grant No. 804089 [to FM] ). Publisher Copyright: {\textcopyright} 2021 Society of Biological Psychiatry",

year = "2021",

month = dec,

day = "15",

doi = "10.1016/j.biopsych.2021.02.017",

language = "English",

volume = "90",

pages = "843--852",

journal = "Biological Psychiatry",

issn = "0006-3223",

publisher = "Elsevier USA",

number = "12",

}

Omrani, A, de Vrind, VAJ, Lodder, B, Stoltenborg, I, Kooij, K, Wolterink-Donselaar, IG, Luijendijk-Berg, MCM, Garner, KM, Van't Sant, LJ, Rozeboom, A, Dickson, SL, Meye, FJ & Adan, RAH 2021, 'Identification of Novel Neurocircuitry Through Which Leptin Targets Multiple Inputs to the Dopamine System to Reduce Food Reward Seeking', Biological Psychiatry, vol. 90, no. 12, pp. 843-852. https://doi.org/10.1016/j.biopsych.2021.02.017

TY - JOUR

T1 - Identification of Novel Neurocircuitry Through Which Leptin Targets Multiple Inputs to the Dopamine System to Reduce Food Reward Seeking

AU - Omrani, Azar

AU - de Vrind, Veronne A J

AU - Lodder, Bart

AU - Stoltenborg, Iris

AU - Kooij, Karlijn

AU - Wolterink-Donselaar, Inge G

AU - Luijendijk-Berg, Mieneke C M

AU - Garner, Keith M

AU - Van't Sant, Lisanne J

AU - Rozeboom, Annemieke

AU - Dickson, Suzanne L

AU - Meye, Frank J

AU - Adan, Roger A H

N1 - Funding Information: This work was supported by the EU Seventh Framework Programme (Grant No. 607310; Nudge-it [to RA and SD]), the Netherlands Organisation for Scientific Research (Grant No. ALWOP.137 [to RA]), the Swedish Research Council (Grant Nos. 2018-02588 [to RA] and 2019-01051 [to SD]), Hjärnfonden (Grant Nos. FO2017-0180, FO2018-0262, and FO2019-0086 [to SD]), NovoNordisk Fonden (Grant No. NNF19OC0056694 [to SD]), Avtal om Läkarutbildning och Forskning (Grant No. ALFGBG-723681 [to SD]), and the European Research Council (Starting RECODE Grant No. 804089 [to FM]). AO performed electrophysiology, histology, confocal imaging, and data analysis. VAJdV performed behavioral experiments, histology, and data analysis. BL and KK performed photometry and data analysis. IGW-D and MCML-B performed stereotaxic virus/implant surgeries. LJvS and AR contributed to behavioral experiments. IS performed and analyzed RNAscope experiments. KMG prepared viruses. AO, SLD, FJM, and RAHA designed the experiments and wrote the manuscript with inputs from all authors. We thank the Imaging Core Facility at Gothenburg University. The authors report no biomedical financial interests or potential conflicts of interest. Funding Information: This work was supported by the EU Seventh Framework Programme (Grant No. 607310 ; Nudge-it [to RA and SD]), the Netherlands Organisation for Scientific Research (Grant No. ALWOP.137 [to RA] ), the Swedish Research Council (Grant Nos. 2018-02588 [to RA] and 2019-01051 [to SD] ), Hjärnfonden (Grant Nos. FO2017-0180, FO2018-0262, and FO2019-0086 [to SD] ), NovoNordisk Fonden (Grant No. NNF19OC0056694 [to SD] ), Avtal om Läkarutbildning och Forskning (Grant No. ALFGBG-723681 [to SD] ), and the European Research Council (Starting RECODE Grant No. 804089 [to FM] ). Publisher Copyright: © 2021 Society of Biological Psychiatry

PY - 2021/12/15

Y1 - 2021/12/15

N2 - BACKGROUND: Leptin reduces the motivation to obtain food by modulating activity of the mesolimbic dopamine (DA) system upon presentation of cues that predict a food reward. Although leptin directly reduces the activity of ventral tegmental area (VTA) DA neurons, the majority of leptin receptor (LepR)-expressing DA neurons do not project to the nucleus accumbens, the projection implicated in driving food reward seeking. Therefore, the precise locus of leptin action to modulate motivation for a food reward is unresolved.METHODS: We used transgenic mice expressing Cre recombinase under the control of the LepR promoter, anatomical tracing, optogenetics-assisted patch-clamp electrophysiology, in vivo optogenetics with fiber photometric calcium measurements, and chemogenetics to unravel how leptin-targeted neurocircuitry inhibits food reward seeking.RESULTS: A large number of DA neurons projecting to the nucleus accumbens are innervated by local VTA LepR-expressing GABA (gamma-aminobutyric acid) neurons. Leptin enhances the activity of these GABA neurons and thereby inhibits nucleus accumbens-projecting DA neurons. In addition, we find that lateral hypothalamic LepR-expressing neurons projecting to the VTA are inhibited by leptin and that these neurons modulate DA neurons indirectly via inhibition of VTA GABA neurons. In accordance with such a disinhibitory function, optogenetically stimulating lateral hypothalamic LepR projections to the VTA potently activates DA neurons in vivo. Moreover, we found that chemogenetic activation of lateral hypothalamic LepR neurons increases the motivation to obtain a food reward only when mice are in a positive energy balance.CONCLUSIONS: We identify neurocircuitry through which leptin targets multiple inputs to the DA system to reduce food reward seeking.

AB - BACKGROUND: Leptin reduces the motivation to obtain food by modulating activity of the mesolimbic dopamine (DA) system upon presentation of cues that predict a food reward. Although leptin directly reduces the activity of ventral tegmental area (VTA) DA neurons, the majority of leptin receptor (LepR)-expressing DA neurons do not project to the nucleus accumbens, the projection implicated in driving food reward seeking. Therefore, the precise locus of leptin action to modulate motivation for a food reward is unresolved.METHODS: We used transgenic mice expressing Cre recombinase under the control of the LepR promoter, anatomical tracing, optogenetics-assisted patch-clamp electrophysiology, in vivo optogenetics with fiber photometric calcium measurements, and chemogenetics to unravel how leptin-targeted neurocircuitry inhibits food reward seeking.RESULTS: A large number of DA neurons projecting to the nucleus accumbens are innervated by local VTA LepR-expressing GABA (gamma-aminobutyric acid) neurons. Leptin enhances the activity of these GABA neurons and thereby inhibits nucleus accumbens-projecting DA neurons. In addition, we find that lateral hypothalamic LepR-expressing neurons projecting to the VTA are inhibited by leptin and that these neurons modulate DA neurons indirectly via inhibition of VTA GABA neurons. In accordance with such a disinhibitory function, optogenetically stimulating lateral hypothalamic LepR projections to the VTA potently activates DA neurons in vivo. Moreover, we found that chemogenetic activation of lateral hypothalamic LepR neurons increases the motivation to obtain a food reward only when mice are in a positive energy balance.CONCLUSIONS: We identify neurocircuitry through which leptin targets multiple inputs to the DA system to reduce food reward seeking.

KW - Dopamine

KW - Food reward

KW - GABA

KW - Lateral hypothalamus

KW - Leptin

KW - Ventral tegmental area

UR - http://www.scopus.com/inward/record.url?scp=85108429706&partnerID=8YFLogxK

U2 - 10.1016/j.biopsych.2021.02.017

DO - 10.1016/j.biopsych.2021.02.017

M3 - Article

C2 - 33867112

SN - 0006-3223

VL - 90

SP - 843

EP - 852

JO - Biological Psychiatry

JF - Biological Psychiatry

IS - 12

ER -

Identification of Novel Neurocircuitry Through Which Leptin Targets Multiple Inputs to the Dopamine System to Reduce Food Reward Seeking

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Keywords

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