Steroid-dependent up-regulation of adipose leptin secretion in vitro during pregnancy in mice

Noga Kronfeld-Schor; Jing Zhao; Brian A. Silvia; Elad Bicer; Patrick T. Mathews; Renata Urban; Stefan Zimmerman; Thomas H. Kunz; Eric P. Widmaier

doi:10.1095/biolreprod63.1.274

Steroid-dependent up-regulation of adipose leptin secretion in vitro during pregnancy in mice

Noga Kronfeld-Schor
, Jing Zhao
, Brian A. Silvia
, Elad Bicer
, Patrick T. Mathews
, Renata Urban
, Stefan Zimmerman
, Thomas H. Kunz
, Eric P. Widmaier^*

^*Corresponding author for this work

Boston University

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

41 Scopus citations

Abstract

Circulating leptin levels are elevated during the later stages of pregnancy in mammals, suggesting that maternal leptin may play a role in maintenance of pregnancy and/or preparation for parturition and lactation. The regulation and source of circulating leptin during pregnancy remains undetermined, but leptin mRNA levels increase in adipose tissue during this time in some species. Considerable controversy exists whether placenta is also a leptin-secreting tissue during pregnancy. Here, we directly demonstrate that leptin secretion rates from mouse adipose tissue in vitro are decreased during early pregnancy and up-regulated during late pregnancy and lactation. Changes in leptin secretion rates in vitro paralleled those of circulating leptin in vivo during gestation. Subcutaneous implants of estradiol or corticosterone into lactating mice for 48 h stimulated adipose leptin secretion rates in vitro to the level of that in pregnant mice. However, corticosterone, but not estradiol, increased leptin secretion when added to isolated adipose tissue in vitro. Placentae obtained at two stages of pregnancy did not secrete leptin in vitro, either when acutely isolated or when dissociated into cells for long-term cultures. Placental tissue (or cells) secreted progesterone, however, demonstrating placental viability. We conclude that hyperleptinemia during late pregnancy in mice primarily results from corticosterone-dependent up-regulation of leptin secretion from adipose tissue, and that the placenta does not contribute to leptin secretion. The initial decrease in leptin secretory rates from adipose tissue during early pregnancy may facilitate energy storage for the subsequent, increased metabolic demands of later pregnancy and lactation.

Original language	English
Pages (from-to)	274-280
Number of pages	7
Journal	Biology of Reproduction
Volume	63
Issue number	1
DOIs	https://doi.org/10.1095/biolreprod63.1.274
State	Published - 2000
Externally published	Yes

Keywords

Adrenal cortex
Corticosterone
Estradiol
Lactation
Leptin
Placenta
Pregnancy

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10.1095/biolreprod63.1.274

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title = "Steroid-dependent up-regulation of adipose leptin secretion in vitro during pregnancy in mice",

abstract = "Circulating leptin levels are elevated during the later stages of pregnancy in mammals, suggesting that maternal leptin may play a role in maintenance of pregnancy and/or preparation for parturition and lactation. The regulation and source of circulating leptin during pregnancy remains undetermined, but leptin mRNA levels increase in adipose tissue during this time in some species. Considerable controversy exists whether placenta is also a leptin-secreting tissue during pregnancy. Here, we directly demonstrate that leptin secretion rates from mouse adipose tissue in vitro are decreased during early pregnancy and up-regulated during late pregnancy and lactation. Changes in leptin secretion rates in vitro paralleled those of circulating leptin in vivo during gestation. Subcutaneous implants of estradiol or corticosterone into lactating mice for 48 h stimulated adipose leptin secretion rates in vitro to the level of that in pregnant mice. However, corticosterone, but not estradiol, increased leptin secretion when added to isolated adipose tissue in vitro. Placentae obtained at two stages of pregnancy did not secrete leptin in vitro, either when acutely isolated or when dissociated into cells for long-term cultures. Placental tissue (or cells) secreted progesterone, however, demonstrating placental viability. We conclude that hyperleptinemia during late pregnancy in mice primarily results from corticosterone-dependent up-regulation of leptin secretion from adipose tissue, and that the placenta does not contribute to leptin secretion. The initial decrease in leptin secretory rates from adipose tissue during early pregnancy may facilitate energy storage for the subsequent, increased metabolic demands of later pregnancy and lactation.",

keywords = "Adrenal cortex, Corticosterone, Estradiol, Lactation, Leptin, Placenta, Pregnancy",

author = "Noga Kronfeld-Schor and Jing Zhao and Silvia, \{Brian A.\} and Elad Bicer and Mathews, \{Patrick T.\} and Renata Urban and Stefan Zimmerman and Kunz, \{Thomas H.\} and Widmaier, \{Eric P.\}",

year = "2000",

doi = "10.1095/biolreprod63.1.274",

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T1 - Steroid-dependent up-regulation of adipose leptin secretion in vitro during pregnancy in mice

AU - Kronfeld-Schor, Noga

AU - Zhao, Jing

AU - Silvia, Brian A.

AU - Bicer, Elad

AU - Mathews, Patrick T.

AU - Urban, Renata

AU - Zimmerman, Stefan

AU - Kunz, Thomas H.

AU - Widmaier, Eric P.

PY - 2000

Y1 - 2000

N2 - Circulating leptin levels are elevated during the later stages of pregnancy in mammals, suggesting that maternal leptin may play a role in maintenance of pregnancy and/or preparation for parturition and lactation. The regulation and source of circulating leptin during pregnancy remains undetermined, but leptin mRNA levels increase in adipose tissue during this time in some species. Considerable controversy exists whether placenta is also a leptin-secreting tissue during pregnancy. Here, we directly demonstrate that leptin secretion rates from mouse adipose tissue in vitro are decreased during early pregnancy and up-regulated during late pregnancy and lactation. Changes in leptin secretion rates in vitro paralleled those of circulating leptin in vivo during gestation. Subcutaneous implants of estradiol or corticosterone into lactating mice for 48 h stimulated adipose leptin secretion rates in vitro to the level of that in pregnant mice. However, corticosterone, but not estradiol, increased leptin secretion when added to isolated adipose tissue in vitro. Placentae obtained at two stages of pregnancy did not secrete leptin in vitro, either when acutely isolated or when dissociated into cells for long-term cultures. Placental tissue (or cells) secreted progesterone, however, demonstrating placental viability. We conclude that hyperleptinemia during late pregnancy in mice primarily results from corticosterone-dependent up-regulation of leptin secretion from adipose tissue, and that the placenta does not contribute to leptin secretion. The initial decrease in leptin secretory rates from adipose tissue during early pregnancy may facilitate energy storage for the subsequent, increased metabolic demands of later pregnancy and lactation.

AB - Circulating leptin levels are elevated during the later stages of pregnancy in mammals, suggesting that maternal leptin may play a role in maintenance of pregnancy and/or preparation for parturition and lactation. The regulation and source of circulating leptin during pregnancy remains undetermined, but leptin mRNA levels increase in adipose tissue during this time in some species. Considerable controversy exists whether placenta is also a leptin-secreting tissue during pregnancy. Here, we directly demonstrate that leptin secretion rates from mouse adipose tissue in vitro are decreased during early pregnancy and up-regulated during late pregnancy and lactation. Changes in leptin secretion rates in vitro paralleled those of circulating leptin in vivo during gestation. Subcutaneous implants of estradiol or corticosterone into lactating mice for 48 h stimulated adipose leptin secretion rates in vitro to the level of that in pregnant mice. However, corticosterone, but not estradiol, increased leptin secretion when added to isolated adipose tissue in vitro. Placentae obtained at two stages of pregnancy did not secrete leptin in vitro, either when acutely isolated or when dissociated into cells for long-term cultures. Placental tissue (or cells) secreted progesterone, however, demonstrating placental viability. We conclude that hyperleptinemia during late pregnancy in mice primarily results from corticosterone-dependent up-regulation of leptin secretion from adipose tissue, and that the placenta does not contribute to leptin secretion. The initial decrease in leptin secretory rates from adipose tissue during early pregnancy may facilitate energy storage for the subsequent, increased metabolic demands of later pregnancy and lactation.

KW - Adrenal cortex

KW - Corticosterone

KW - Estradiol

KW - Lactation

KW - Leptin

KW - Placenta

KW - Pregnancy

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ER -

Steroid-dependent up-regulation of adipose leptin secretion in vitro during pregnancy in mice

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Keywords

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