Ghrelin modulates the activity and synaptic input organization of midbrain dopamine neurons while promoting appetite

Alfonso Abizaid; Zhong Wu Liu; Zane B. Andrews; Marya Shanabrough; Erzsebet Borok; John D. Elsworth; Robert H. Roth; Mark W. Sleeman; Marina R. Picciotto; Matthias H. Tschöp; Xiao Bing Gao; Tamas L. Horvath

doi:10.1172/JCI29867

Ghrelin modulates the activity and synaptic input organization of midbrain dopamine neurons while promoting appetite

Alfonso Abizaid
, Zhong Wu Liu
, Zane B. Andrews
, Marya Shanabrough
, Erzsebet Borok
, John D. Elsworth
, Robert H. Roth
, Mark W. Sleeman
, Marina R. Picciotto
, Matthias H. Tschöp
, Xiao Bing Gao
, Tamas L. Horvath

Yale University Medical School
Carleton University
Yunyang Medical College
Regeneron Pharmaceuticals, Inc.
University of Cincinnati College of Medicine

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

856 Scopus citations

Abstract

The gut hormone ghrelin targets the brain to promote food intake and adiposity. The ghrelin receptor growth hormone secretagogue 1 receptor (GHSR) is present in hypothalamic centers controlling energy metabolism as well as in the ventral tegmental area (VTA), a region important for motivational aspects of multiple behaviors, including feeding. Here we show that in mice and rats, ghrelin bound to neurons of the VTA, where it triggered increased dopamine neuronal activity, synapse formation, and dopamine turnover in the nucleus accumbens in a GHSR-dependent manner. Direct VTA administration of ghrelin also triggered feeding, while intra-VTA delivery of a selective GHSR antagonist blocked the orexigenic effect of circulating ghrelin and blunted rebound feeding following fasting. In addition, ghrelin- and GHSR-deficient mice showed attenuated feeding responses to restricted feeding schedules. Taken together, these data suggest that the mesolimbic reward circuitry is targeted by peripheral ghrelin to influence physiological mechanisms related to feeding.

Original language	English
Pages (from-to)	3229-3239
Number of pages	11
Journal	Journal of Clinical Investigation
Volume	116
Issue number	12
DOIs	https://doi.org/10.1172/JCI29867
State	Published - 1 Dec 2006
Externally published	Yes

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Abizaid, A., Liu, Z. W., Andrews, Z. B., Shanabrough, M., Borok, E., Elsworth, J. D., Roth, R. H., Sleeman, M. W., Picciotto, M. R., Tschöp, M. H., Gao, X. B., & Horvath, T. L. (2006). Ghrelin modulates the activity and synaptic input organization of midbrain dopamine neurons while promoting appetite. Journal of Clinical Investigation, 116(12), 3229-3239. https://doi.org/10.1172/JCI29867

@article{b5b82123ba054a38bc779600b8d628fd,

title = "Ghrelin modulates the activity and synaptic input organization of midbrain dopamine neurons while promoting appetite",

abstract = "The gut hormone ghrelin targets the brain to promote food intake and adiposity. The ghrelin receptor growth hormone secretagogue 1 receptor (GHSR) is present in hypothalamic centers controlling energy metabolism as well as in the ventral tegmental area (VTA), a region important for motivational aspects of multiple behaviors, including feeding. Here we show that in mice and rats, ghrelin bound to neurons of the VTA, where it triggered increased dopamine neuronal activity, synapse formation, and dopamine turnover in the nucleus accumbens in a GHSR-dependent manner. Direct VTA administration of ghrelin also triggered feeding, while intra-VTA delivery of a selective GHSR antagonist blocked the orexigenic effect of circulating ghrelin and blunted rebound feeding following fasting. In addition, ghrelin- and GHSR-deficient mice showed attenuated feeding responses to restricted feeding schedules. Taken together, these data suggest that the mesolimbic reward circuitry is targeted by peripheral ghrelin to influence physiological mechanisms related to feeding.",

author = "Alfonso Abizaid and Liu, \{Zhong Wu\} and Andrews, \{Zane B.\} and Marya Shanabrough and Erzsebet Borok and Elsworth, \{John D.\} and Roth, \{Robert H.\} and Sleeman, \{Mark W.\} and Picciotto, \{Marina R.\} and Tsch{\"o}p, \{Matthias H.\} and Gao, \{Xiao Bing\} and Horvath, \{Tamas L.\}",

year = "2006",

month = dec,

day = "1",

doi = "10.1172/JCI29867",

language = "English",

volume = "116",

pages = "3229--3239",

journal = "Journal of Clinical Investigation",

issn = "0021-9738",

publisher = "American Society for Clinical Investigation",

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Abizaid, A, Liu, ZW, Andrews, ZB, Shanabrough, M, Borok, E, Elsworth, JD, Roth, RH, Sleeman, MW, Picciotto, MR, Tschöp, MH, Gao, XB & Horvath, TL 2006, 'Ghrelin modulates the activity and synaptic input organization of midbrain dopamine neurons while promoting appetite', Journal of Clinical Investigation, vol. 116, no. 12, pp. 3229-3239. https://doi.org/10.1172/JCI29867

TY - JOUR

T1 - Ghrelin modulates the activity and synaptic input organization of midbrain dopamine neurons while promoting appetite

AU - Abizaid, Alfonso

AU - Liu, Zhong Wu

AU - Andrews, Zane B.

AU - Shanabrough, Marya

AU - Borok, Erzsebet

AU - Elsworth, John D.

AU - Roth, Robert H.

AU - Sleeman, Mark W.

AU - Picciotto, Marina R.

AU - Tschöp, Matthias H.

AU - Gao, Xiao Bing

AU - Horvath, Tamas L.

PY - 2006/12/1

Y1 - 2006/12/1

N2 - The gut hormone ghrelin targets the brain to promote food intake and adiposity. The ghrelin receptor growth hormone secretagogue 1 receptor (GHSR) is present in hypothalamic centers controlling energy metabolism as well as in the ventral tegmental area (VTA), a region important for motivational aspects of multiple behaviors, including feeding. Here we show that in mice and rats, ghrelin bound to neurons of the VTA, where it triggered increased dopamine neuronal activity, synapse formation, and dopamine turnover in the nucleus accumbens in a GHSR-dependent manner. Direct VTA administration of ghrelin also triggered feeding, while intra-VTA delivery of a selective GHSR antagonist blocked the orexigenic effect of circulating ghrelin and blunted rebound feeding following fasting. In addition, ghrelin- and GHSR-deficient mice showed attenuated feeding responses to restricted feeding schedules. Taken together, these data suggest that the mesolimbic reward circuitry is targeted by peripheral ghrelin to influence physiological mechanisms related to feeding.

AB - The gut hormone ghrelin targets the brain to promote food intake and adiposity. The ghrelin receptor growth hormone secretagogue 1 receptor (GHSR) is present in hypothalamic centers controlling energy metabolism as well as in the ventral tegmental area (VTA), a region important for motivational aspects of multiple behaviors, including feeding. Here we show that in mice and rats, ghrelin bound to neurons of the VTA, where it triggered increased dopamine neuronal activity, synapse formation, and dopamine turnover in the nucleus accumbens in a GHSR-dependent manner. Direct VTA administration of ghrelin also triggered feeding, while intra-VTA delivery of a selective GHSR antagonist blocked the orexigenic effect of circulating ghrelin and blunted rebound feeding following fasting. In addition, ghrelin- and GHSR-deficient mice showed attenuated feeding responses to restricted feeding schedules. Taken together, these data suggest that the mesolimbic reward circuitry is targeted by peripheral ghrelin to influence physiological mechanisms related to feeding.

UR - https://www.scopus.com/pages/publications/33748560432

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DO - 10.1172/JCI29867

M3 - Article

C2 - 17060947

AN - SCOPUS:33748560432

SN - 0021-9738

VL - 116

SP - 3229

EP - 3239

JO - Journal of Clinical Investigation

JF - Journal of Clinical Investigation

IS - 12

ER -

Ghrelin modulates the activity and synaptic input organization of midbrain dopamine neurons while promoting appetite

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