Adipocyte-specific Hypoxia-inducible gene 2 promotes fat deposition and diet-induced insulin resistance

doi:10.1016/j.molmet.2016.09.009

Molecular Metabolism

Volume 5, Issue 12, December 2016, Pages 1149-1161

https://doi.org/10.1016/j.molmet.2016.09.009 Get rights and content

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Highlights

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Hig2 localizes to lipid droplets in adipocytes and promotes adipose tissue lipid deposition.
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Its selective deficiency in active brown/beige adipose tissue mediates improved glucose tolerance at 23 °C.
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Metabolic improvements are independent of changes in lipolysis.

Abstract

Objective

Adipose tissue relies on lipid droplet (LD) proteins in its role as a lipid-storing endocrine organ that controls whole body metabolism. Hypoxia-inducible Gene 2 (Hig2) is a recently identified LD-associated protein in hepatocytes that promotes hepatic lipid storage, but its role in the adipocyte had not been investigated. Here we tested the hypothesis that Hig2 localization to LDs in adipocytes promotes adipose tissue lipid deposition and systemic glucose homeostasis.

Method

White and brown adipocyte-deficient (Hig2^fl/fl × Adiponection cre+) and selective brown/beige adipocyte-deficient (Hig2^fl/fl × Ucp1 cre+) mice were generated to investigate the role of Hig2 in adipose depots. Additionally, we used multiple housing temperatures to investigate the role of active brown/beige adipocytes in this process.

Results

Hig2 localized to LDs in SGBS cells, a human adipocyte cell strain. Mice with adipocyte-specific Hig2 deficiency in all adipose depots demonstrated reduced visceral adipose tissue weight and increased glucose tolerance. This metabolic effect could be attributed to brown/beige adipocyte-specific Hig2 deficiency since Hig2^fl/fl × Ucp1 cre+ mice displayed the same phenotype. Furthermore, when adipocyte-deficient Hig2 mice were moved to thermoneutral conditions in which non-shivering thermogenesis is deactivated, these improvements were abrogated and glucose intolerance ensued. Adipocyte-specific Hig2 deficient animals displayed no detectable changes in adipocyte lipolysis or energy expenditure, suggesting that Hig2 may not mediate these metabolic effects by restraining lipolysis in adipocytes.

Conclusions

We conclude that Hig2 localizes to LDs in adipocytes, promoting adipose tissue lipid deposition and that its selective deficiency in active brown/beige adipose tissue mediates improved glucose tolerance at 23 °C. Reversal of this phenotype at thermoneutrality in the absence of detectable changes in energy expenditure, adipose mass, or liver triglyceride suggests that Hig2 deficiency triggers a deleterious endocrine or neuroendocrine pathway emanating from brown/beige fat cells.

Keywords

Obesity

Adipocyte

Lipid droplet

Lipolysis

Hypoxia-inducible gene 2 (Hig2)

Abbreviations

lipid droplet

Hig2

Hypoxia-inducible gene 2

triglyceride

FFA

free fatty acid

WAT

white adipose tissue

BAT

brown adipose tissue

Ucp1

uncoupling protein 1

HFD

high fat diet

SVF

stromal vascular fraction

SGBS

Simpson-Golabi-Behmel syndrome

eWAT

epididymal white adipose tissue

iWAT

inguinal white adipose tissue

ITT

insulin tolerance test

RER

respiratory exchange ratio

GTT

glucose tolerance test

NEFA

non-esterified fatty acid

Cited by (0)

^☆: This work was supported by the National Institutes of Health Grant: R37-DK030898 to M.P.C.

⁴: Current address: Laboratory for Molecular Medicine, Partners HealthCare, Cambridge, MA, USA.

⁵: Current address: Pfizer, Cambridge, MA, USA.

⁶: Current address: Department of Pathology, Harvard Medical School, Boston, MA, USA.

⁷: Current address: Koch Institute for Integrative Cancer Research, Massachusetts Institute of Technology, Cambridge, MA, USA.

⁸: Current address: Department of Internal Medicine, Touchstone Diabetes Center, The University of Texas Southwestern Medical Center, Dallas, TX, USA.