Adipocyte Versus Pituitary Leptin in the Regulation of Pituitary Hormones: Somatotropes Develop Normally in the Absence of Circulating Leptin

Adipocyte Versus Pituitary Leptin in the Regulation of Pituitary Hormones: Somatotropes Develop Normally in the Absence of Circulating Leptin

Leptin is a cytokine produced by white fat cells, skeletal muscle, the placenta, and the pituitary gland among other tissues. Best known for its role in regulating appetite and energy expenditure, leptin is produced largely by and in proportion to white fat cells. Leptin is also important to the mai...

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Bibliographic Details
Published in:Endocrinology (Philadelphia) Vol. 155; no. 11; pp. 4316 - 4328
Main Authors: Odle, Angela K, Haney, Anessa, Allensworth-James, Melody, Akhter, Noor, Childs, Gwen V
Format: Journal Article
Language:English
Published: United States Endocrine Society 01-11-2014
Oxford University Press
Subjects:
Adipocytes
Adipocytes - metabolism
Animals
Cell culture
Cell Differentiation - drug effects
Circulation
Clonal deletion
Energy expenditure
Female
Gene Expression Regulation
Growth hormone-releasing hormone
Growth Hormone-Somatostatin-GRH
Hormones
Hypothalamus
Infertility - blood
Infertility - genetics
Leptin - blood
Leptin - genetics
Leptin - metabolism
Leptin receptors
Liquid oxygen
Male
Mice
Mice, Inbred C57BL
Mice, Knockout
Mice, Obese
mRNA
Pituitary
Pituitary gland
Pituitary Gland - metabolism
Pituitary hormones
Pituitary Hormones - genetics
Pituitary Hormones - metabolism
Receptor mechanisms
Serum levels
Skeletal muscle
Somatotrophs - drug effects
Somatotrophs - physiology
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Summary:Leptin is a cytokine produced by white fat cells, skeletal muscle, the placenta, and the pituitary gland among other tissues. Best known for its role in regulating appetite and energy expenditure, leptin is produced largely by and in proportion to white fat cells. Leptin is also important to the maintenance and function of the GH cells of the pituitary. This was shown when the deletion of leptin receptors on somatotropes caused decreased numbers of GH cells, decreased circulating GH, and adult-onset obesity. To determine the source of leptin most vital to GH cells and other pituitary cell types, we compared two different leptin knockout models with Cre-lox technology. The global Lep-null model is like the ob/ob mouse, whereby only the entire exon 3 is deleted. The selective adipocyte-Lep-null model lacks adipocyte leptin but retains pituitary leptin, allowing us to investigate the pituitary as a potential source of circulating leptin. Male and female mice lacking adipocyte leptin (Adipocyte-lep-null) did not produce any detectable circulating leptin and were infertile, suggesting that the pituitary does not contribute to serum levels. In the presence of only pituitary leptin, however, these same mutants were able to maintain somatotrope numbers and GH mRNA levels. Serum GH trended low, but values were not significant. However, hypothalamic GHRH mRNA was significantly reduced in these animals. Other serum hormone and pituitary mRNA differences were observed, some of which varied from previous results reported in ob/ob animals. Whereas pituitary leptin is capable of maintaining somatotrope numbers and GH mRNA production, the decreased hypothalamic GHRH mRNA and low (but not significant) serum GH levels indicate an important role for adipocyte leptin in the regulation of GH secretion in the mouse. Thus, normal GH secretion may require the coordinated actions of both adipocyte and pituitary leptin.
Bibliography:This work was supported by National Institutes of Health Grants R03 HD059066 and 1R01HD059056 (to G.V.C.), the core facilities of the Center for Translational Neuroscience funded by National Institutes of Health NIGMS IDeA Award P20 GM103425, and the Neurosciences Center supported by National Institutes of Health Grant P30 NS047546 at the University of Arkansas for Medical Sciences.
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ISSN:0013-7227
1945-7170
DOI:10.1210/en.2014-1172