Adipocyte Dynamics and Reversible Metabolic Syndrome in Mice with an Inducible Adipocyte-Specific Deletion of the Insulin Receptor

Masaji Sakaguchi; Shiho Fujisaka; Weikang Cai; Jonathon N. Winnay; Masahiro Konishi; Brian T. O'Neill; Mengyao Li; Rubén García-Martín; Hirokazu Takahashi; Jiang Hu; Rohit N. Kulkarni; C. Ronald Kahn

doi:10.1016/j.cmet.2016.12.008

Adipocyte Dynamics and Reversible Metabolic Syndrome in Mice with an Inducible Adipocyte-Specific Deletion of the Insulin Receptor

Masaji Sakaguchi
, Shiho Fujisaka
, Weikang Cai
, Jonathon N. Winnay
, Masahiro Konishi
, Brian T. O'Neill
, Mengyao Li
, Rubén García-Martín
, Hirokazu Takahashi
, Jiang Hu
, Rohit N. Kulkarni
, C. Ronald Kahn

Producción científica: Article › revisión exhaustiva

107 Citas (Scopus)

Resumen

Insulin and IGF1 signaling are important for adipose tissue development and function; however, their role in mature adipocytes is unclear. Mice with a tamoxifen-inducible knockout of insulin and/or IGF1 receptors (IR/IGF1R) demonstrate a rapid loss of white and brown fat due to increased lipolysis and adipocyte apoptosis. This results in insulin resistance, glucose intolerance, hepatosteatosis, islet hyperplasia with hyperinsulinemia, and cold intolerance. This phenotype, however, resolves over 10–30 days due to a proliferation of preadipocytes and rapid regeneration of both brown and white adipocytes as identified by mTmG lineage tracing. This cycle can be repeated with a second round of receptor inactivation. Leptin administration prior to tamoxifen treatment blocks development of the metabolic syndrome without affecting adipocyte loss or regeneration. Thus, IR is critical in adipocyte maintenance, and this loss of adipose tissue stimulates regeneration of brown/white fat and reversal of metabolic syndrome associated with fat loss.

Idioma original	English
Páginas (desde-hasta)	448-462
Número de páginas	15
Publicación	Cell Metabolism
Volumen	25
N.º	2
DOI	https://doi.org/10.1016/j.cmet.2016.12.008
Estado	Published - feb 7 2017

Nota bibliográfica

Publisher Copyright:
© 2017 Elsevier Inc.

Financiación

We thank T. Roderick Bronson and C. Penniman for assistance and the Animal Physiology Core at the Joslin Diabetes Center for performing and interpreting the comprehensive lab animal monitoring system and dual-energy X-ray absorptiometry analysis. This work was supported by NIH grants R37DK031036 and R01DK082659 to C.R.K.; R01DK67536 and R01DK103215 to R.N.K.; the Diabetes Endocrinology Research Center Grant P30DK034834 and the Mary K. Iacocca Professorship. B.T.O. was funded by a K08 training award from the NIDDK of the NIH (K08 DK100543). M.S. was supported by the Manpei Suzuki Diabetes Foundation (MSDF2011-88) and a fellowship from the Japan Society for the Promotion of Science (JP2014-780).

Financiadores	Número del financiador
Diabetes and Endocrinology Research Center	P30DK034834
National Institutes of Health (NIH)	R01DK67536
National Institutes of Health (NIH)
National Institute of Diabetes and Digestive and Kidney Diseases	K08 DK100543, R01DK103215, R01DK082659, R37DK031036, T32DK007260
National Institute of Diabetes and Digestive and Kidney Diseases
Japan Society for the Promotion of Science	JP2014-780
Japan Society for the Promotion of Science
Manpei Suzuki Diabetes Foundation	MSDF2011-88
Manpei Suzuki Diabetes Foundation

ASJC Scopus subject areas

Physiology
Molecular Biology
Cell Biology

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10.1016/j.cmet.2016.12.008

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Sakaguchi, M., Fujisaka, S., Cai, W., Winnay, J. N., Konishi, M., O'Neill, B. T., Li, M., García-Martín, R., Takahashi, H., Hu, J., Kulkarni, R. N., & Kahn, C. R. (2017). Adipocyte Dynamics and Reversible Metabolic Syndrome in Mice with an Inducible Adipocyte-Specific Deletion of the Insulin Receptor. Cell Metabolism, 25(2), 448-462. https://doi.org/10.1016/j.cmet.2016.12.008

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title = "Adipocyte Dynamics and Reversible Metabolic Syndrome in Mice with an Inducible Adipocyte-Specific Deletion of the Insulin Receptor",

abstract = "Insulin and IGF1 signaling are important for adipose tissue development and function; however, their role in mature adipocytes is unclear. Mice with a tamoxifen-inducible knockout of insulin and/or IGF1 receptors (IR/IGF1R) demonstrate a rapid loss of white and brown fat due to increased lipolysis and adipocyte apoptosis. This results in insulin resistance, glucose intolerance, hepatosteatosis, islet hyperplasia with hyperinsulinemia, and cold intolerance. This phenotype, however, resolves over 10–30 days due to a proliferation of preadipocytes and rapid regeneration of both brown and white adipocytes as identified by mTmG lineage tracing. This cycle can be repeated with a second round of receptor inactivation. Leptin administration prior to tamoxifen treatment blocks development of the metabolic syndrome without affecting adipocyte loss or regeneration. Thus, IR is critical in adipocyte maintenance, and this loss of adipose tissue stimulates regeneration of brown/white fat and reversal of metabolic syndrome associated with fat loss.",

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Sakaguchi, M, Fujisaka, S, Cai, W, Winnay, JN, Konishi, M, O'Neill, BT, Li, M, García-Martín, R, Takahashi, H, Hu, J, Kulkarni, RN & Kahn, CR 2017, 'Adipocyte Dynamics and Reversible Metabolic Syndrome in Mice with an Inducible Adipocyte-Specific Deletion of the Insulin Receptor', Cell Metabolism, vol. 25, n.º 2, pp. 448-462. https://doi.org/10.1016/j.cmet.2016.12.008

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AU - Winnay, Jonathon N.

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AU - O'Neill, Brian T.

AU - Li, Mengyao

AU - García-Martín, Rubén

AU - Takahashi, Hirokazu

AU - Hu, Jiang

AU - Kulkarni, Rohit N.

AU - Kahn, C. Ronald

PY - 2017/2/7

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N2 - Insulin and IGF1 signaling are important for adipose tissue development and function; however, their role in mature adipocytes is unclear. Mice with a tamoxifen-inducible knockout of insulin and/or IGF1 receptors (IR/IGF1R) demonstrate a rapid loss of white and brown fat due to increased lipolysis and adipocyte apoptosis. This results in insulin resistance, glucose intolerance, hepatosteatosis, islet hyperplasia with hyperinsulinemia, and cold intolerance. This phenotype, however, resolves over 10–30 days due to a proliferation of preadipocytes and rapid regeneration of both brown and white adipocytes as identified by mTmG lineage tracing. This cycle can be repeated with a second round of receptor inactivation. Leptin administration prior to tamoxifen treatment blocks development of the metabolic syndrome without affecting adipocyte loss or regeneration. Thus, IR is critical in adipocyte maintenance, and this loss of adipose tissue stimulates regeneration of brown/white fat and reversal of metabolic syndrome associated with fat loss.

AB - Insulin and IGF1 signaling are important for adipose tissue development and function; however, their role in mature adipocytes is unclear. Mice with a tamoxifen-inducible knockout of insulin and/or IGF1 receptors (IR/IGF1R) demonstrate a rapid loss of white and brown fat due to increased lipolysis and adipocyte apoptosis. This results in insulin resistance, glucose intolerance, hepatosteatosis, islet hyperplasia with hyperinsulinemia, and cold intolerance. This phenotype, however, resolves over 10–30 days due to a proliferation of preadipocytes and rapid regeneration of both brown and white adipocytes as identified by mTmG lineage tracing. This cycle can be repeated with a second round of receptor inactivation. Leptin administration prior to tamoxifen treatment blocks development of the metabolic syndrome without affecting adipocyte loss or regeneration. Thus, IR is critical in adipocyte maintenance, and this loss of adipose tissue stimulates regeneration of brown/white fat and reversal of metabolic syndrome associated with fat loss.

KW - adipocyte regeneration

KW - adipogenesis

KW - brown adipocyte

KW - fatty liver

KW - insulin action

KW - insulin receptor knockout

KW - insulin resistance

KW - leptin

KW - lineage tracing

KW - β cell proliferation

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Adipocyte Dynamics and Reversible Metabolic Syndrome in Mice with an Inducible Adipocyte-Specific Deletion of the Insulin Receptor

Resumen

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Financiación

ASJC Scopus subject areas

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